Research Models

Commonly Used Mouse Models

AD-related Research Models

Phenotypes Examined

  • Plaques
  • Tangles
  • Neuronal Loss
  • Gliosis
  • Synaptic Loss
  • Changes in LTP/LTD
  • Cognitive Impairment

When visualized, these phenotypes will distributed over a 18 month timeline demarcated at the following intervals: 3mo, 6mo, 9mo, 1yr, 15mo, 18mo+.

3xTg

Observed
  1. X
    Plaques at 26

    Extracellular Aβ deposits by 6 months in the frontal cortex, predominantly layers 4 and 5 and progress with age (Oddo et al., 2003).

  2. X
    Tangles at 52

    By 12 months extensive tau immunoreactivity in CA1 neurons of the hippocampus, particularly pyramidal neurons, later in the cortex. No tau pathology at 6 months (Oddo et al., 2003).

  3. X
    Gliosis at 30

    Increased density of GFAP immunoreactive astrocytes and IBA-1 immunoreactive microglia compared with wild-type mice at 7 months (Caruso et al., 2013). Development of gliosis may occur earlier.

  4. X
    Changes in LTP/LTD at 26

    By 6 months decreased LTP compared with wild type controls. Impairment in basal synaptic transmission. No change at 1 month of age (Oddo et al., 2003).

  5. X
    Cognitive Impairment at 17

    Cognitive impairment manifests at 4 months as a deficit in long-term retention and correlates with the accumulation of intraneuronal Aβ in the hippocampus and amygdala, but plaques and tangles are not yet apparent (Billings et al., 2005).

Absent
No Data
  • Neuronal Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Psen1, APP, MAPT APP K670_M671delinsNL (Swedish), MAPT P301L, PSEN1 M146V Psen1: Knock-In; APP: Transgenic; MAPT: Transgenic Alzheimer's Disease

Age-related, progressive neuropathology including plaques and tangles. Extracellular Aβ deposits by 6 months in frontal cortex, more extensive by 12 months. No tau pathology at 6 months, but evident at 12 months. Synaptic dysfunction, including LTP deficits, prior to plaques and tangles.

Cognitive impairment by 4 months. Impairments first manifest as a retention/retrieval deficit and not as a learning deficit, and occur prior to plaques and tangles. Deficits in both spatial and contextual based paradigms. Clearance of intraneuronal Aβ by immunotherapy rescues the early cognitive deficits in a hippocampal-dependent task.

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5xFAD (B6SJL)

Observed
  1. X
    Plaques at 8

    Extracellular amyloid deposition begins around 2 months, first in the subiculum and layer V of the cortex. Aβ42 also accumulates intraneuronally in an aggregated form within the soma and neurites starting at 1.5 months.

  2. X
    Neuronal Loss at 24

    Neuron loss in cortical layer V and subiculum.

  3. X
    Gliosis at 8

    Gliosis begins at 2 months.

  4. X
    Synaptic Loss at 16

    Levels of the presynaptic marker synaptophysin begin to decline by 4 months; levels of syntaxin, another presynaptic marker, and PSD-95, a postsynaptic marker, decline by 9 months

  5. X
    Changes in LTP/LTD at 24

    Basal synaptic transmission and LTP in hippocampal area CA1 begin to deteriorate between 4 and 6 months

  6. X
    Cognitive Impairment at 18

    Impaired spatial working memory in the Y-maze test and impaired remote memory stabilization in a contextual-fear-conditioning test by 4 to 5 months of age.

Absent
  • Tangles at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid pathology starting at 2 months, including amyloid plaques. Accumulation of intraneuronal Aβ before amyloid deposition. Gliosis and synapse degeneration. Neuron loss in cortical layer 5 and subiculum. No neurofibrillary tangles.

Age-dependent memory deficits including spatial memory, stress-related memory, and memory stablization. Motor phenotype.

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5xFAD (C57BL6)

Observed
  1. X
    Plaques at 8

    Amyloid plaques observed in hippocampus, cortex, thalamus, and spinal cord.

  2. X
    Neuronal Loss at 52

    Approximate 40 percent loss of layer V pyramidal neurons at one year.

  3. X
    Gliosis at 8

    Microgliosis and astrogliosis are associated with amyloid plaques; microgliosis is associated with vascular damage.

  4. X
    Synaptic Loss at 24

    Spine density was reduced in pyramidal neurons in somatosensory and prefrontal cortices, but not in the hippocampi, of 5xFAD mice crossed with mice expressing yellow fluorescent protein (YFP mice), compared with mice expressing YFP alone.

  5. X
    Changes in LTP/LTD at 8

    While spike-timing-dependent long-term potentiation was induced in layer V neurons from wild-type mice, the same stimulation protocol induced long-term depression in neurons from 5xFAD mice.

  6. X
    Cognitive Impairment at 24

    Impairments of spatial working memory and reduced anxiety emerge between 3 and 6 months and worsen with age.

Absent
No Data
  • Tangles at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid pathology starting at 2 months, including amyloid plaques. Accumulation of intraneuronal Aβ before amyloid deposition. Gliosis and synapse degeneration. Neuron loss in cortical layer V.

Age-dependent memory deficits, motor phenotype, and reduced anxiety.

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A7 APP transgenic

Observed
  1. X
    Plaques at 39

    These mice develop progressive amyloid deposition in the cerebral cortex by 9-12 months. By 21 months of age amyloid pathology is extensive.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP T714I (Austrian) APP: Transgenic Alzheimer's Disease

Progressive amyloid deposition in the cerebral cortex by approximately 9-12 months.

Unknown.

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Abca7*A1527G/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Abca7, APOE, Trem2 TREM2 R47H Abca7: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Abca7 KO/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Abca7, APOE, Trem2 TREM2 R47H Abca7: Knock-Out; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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ADanPP

Observed
  1. X
    Plaques at 9

    Vascular amyloid deposits and punctate parenchymal aggregates first occur in the hippocampus and increase with age, spreading throughout the brain, including the cortex, amygdala, thalamus, and brainstem in hemizygous mice.

  2. X
    Gliosis at 17

    Astrogliosis and microgliosis increase with age and increasing ADan-amyloid deposition.

  3. X
    Cognitive Impairment at 78

    The only ages tested were 6 months and 18-20 months. Mice 18-20 months of age exhibited both motor and spatial learning defects in the Morris water maze, and increased anxiety in the open field test. No impairments were observed in 6 month-old mice.

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
ITM2B (BRI2) BRI2: Familial Danish Dementia (FDD) duplication ITM2B (BRI2): Transgenic Familial Danish Dementia, Alzheimer's Disease, Cerebral Amyloid Angiopathy

ADan deposition starts in the hippocampus and meningeal vessels at 2 months and increases with age. By 18 months, deposition is widespread. The majority of amyloid deposits are associated with the vasculature, where they destroy the integrity of the vessel wall and lead to microhemorrhages. Parenchymal amyloid plaques surrounded by microglia and dystrophic neurites are also present.

Impaired performance in Morris water maze, due to a combination of both motor deficits (i.e. reduced swim speed) and spatial learning deficits reported at 18-20 months. Open field test at 18-20 months also showed an anxiety-related phenotype.

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AD-BXD

Observed
  1. X
    Plaques at 24

    Transgenic AD-BXD mice develop amyloid plaques by 6 months of age, the earliest age examined. The extent of plaque deposition is strain-dependent.

  2. X
    Gliosis at 25

    Strain-dependent gliosis by 6 months. 

  3. X
    Cognitive Impairment at 60

    In the AD-BXD population as a whole, transgenic mice performed similarly to non-transgenic littermates in a contextual fear-conditioning test at 6 months, but were impaired at 14 months. The age of onset and severity of impairment are strain-dependent.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Transgenic AD-BXD mice develop amyloid plaques by 6 months of age, although the extent of plaque deposition is strain-dependent.

Transgenic AD-BXD mice exhibit cognitive deficits, assessed using contextual fear conditioning. The age of onset and severity of impairment are strain-dependent.

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APLP2 Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Aplp2 Aplp2: Knock-Out Alzheimer's Disease

Not observed.

Not observed.

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APOE2 Knock-In

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease, Traumatic Brain Injury

Unknown.

Unknown.

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APOE2 Knock-In, floxed (CureAlz)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE2 Knock-In (JAX)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE2 Targeted Replacement

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE3 Knock-In, floxed (CureAlz)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE3 Knock-In (JAX)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

No data.

No data.

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APOE3 Knock-In (Lamb)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease, Traumatic Brain Injury

Unknown.

Unknown.

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APOE3 Targeted Replacement

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE4 Knock-In, floxed (CureAlz)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE4 Knock-In (JAX)

Observed
Absent
  • Cognitive Impairment at

    At 2 and 12 months of age, APOE4 KI mice perform similarly to wild-type mice in tests of locomotor activity, motor coordination, and working memory.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

No data.

No data.

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APOE4 Knock-In (Lamb)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease, Traumatic Brain Injury

Unknown.

Unknown.

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APOE4 Targeted Replacement

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APOE Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Knock-Out Alzheimer's Disease

Unknown.

Unknown.

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APP23

Observed
  1. X
    Plaques at 26

    Congophillic, dense-core amyloid plaques first appear at 6 months, and increase in size and number with age. Amyloid plaques can occupy more than 25% of the neocortex and hippocampus in 24 month-old mice (Sturchler-Pierrat et al., 1997; Calhoun et al., 1998).   

  2. X
    Neuronal Loss at 61

    Neuronal loss (14-28%) has been reported in the CA1 region of the hippocampus in 14-18 month old mice (Calhoun et al., 1998).     

  3. X
    Gliosis at 26

    Activated microglia in close proximity to dense amyloid plaques (Stalder et al., 1999). Upregulation of neuroinflammatory markers and activation of astrocytes and macrophages. Age-associated increase in components of the complement system, namely C1q and C3, at later ages (9 and 18 months, respectively) (Reichwald et al., 2009). 

  4. X
    Cognitive Impairment at 13

    Spatial memory defects in Morris Water maze at 3 months and progresses with age (Van dam et al., 2003; Kelly et al., 2003).

Absent
  • Tangles at

    Dystrophic neurites containing hyperphopshorylated tau surounds Aβ plaques, but no neurofibrillary tangles are observed (Sturchler-Pierrat et al., 1997).

  • Synaptic Loss at

    Neocortical synapses were examined in mice as old as 24 months of age; no evidence of alterations in the number of synapses or levels of synaptophysin were observed (Boncristiano et al., 2005).

  • Changes in LTP/LTD at

    LTP in the hippocampus and prefrontal cortex is normal at all ages studied: 3, 6, 9, 12, 18 and 24 months (Roder at al., 2003).

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy

Aβ deposits first observed at 6 months. Congophilic plaques increase in size and number with age and are surrounded by activated microglia, astrocytes, and dystrophic neurites containing hyperphosphorylated tau (although no neurofibrillary tangles). Neuronal loss in the CA1 region of the hippocampus. Mice also develop CAA, and microhemorrages occur at later ages.

Spatial memory defects in Morris Water maze at 3 months and progresses with age. Memory deficits in passive avoidance were observed in 25 month-old mice, but not at younger ages.

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APP23 x PS1-R278I

Observed
  1. X
    Plaques at 26

    By 6 months of age amyloid plaques accumulate in the cortex and hippocampus. A high percentage of plaques are thioflavin-S –positive cored plaques.

  2. X
    Gliosis at 39

    Astrocytosis in the vicinity of plaques in the hippocampus and cortex by 9 months.

  3. X
    Cognitive Impairment at 13

    Short-term memory deficits are apparent by 3 to 4 months as measured by the Y maze.

Absent
  • Tangles at

    Not observed.

No Data
  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 PSEN1 R278I APP: Transgenic; PSEN1: Knock-In Alzheimer's Disease

Amyloid deposition by 6 months of age in the cortex and hippocampus. Abundant reactive astrocytes in the vicinity of plaques. Elevated Aβ43 in the brain by 3 months. High density of cored plaques. Pyroglutamate Aβ (N3pE-Aβ) associated with amyloid plaques.

Short-term memory deficits apparent by 3-4 months as measured by the Y maze.

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APP751SL/PS1 KI

Observed
  1. X
    Plaques at 11

    Aβ deposition at 2.5 months compared to 6 months in APPSL mice. At 6 months, numerous compact Aβ deposits in the cortex, hippocampus, and thalamus, whereas in age-matched APPSL mice only very few deposits restricted mainly to the subiculum and deeper cortical layers. At 10 months, deposits increased in distribution, density, and size in both models (Casas et al., 2004).

  2. X
    Neuronal Loss at 23

    Some cell loss detectable as early as 6 months in female mice. At 10 months extensive neuronal loss (>50%) is present in the CA1/2 hippocampal pyramidal cell layer. SNeuronal loss also occurs in the frontal cortex and cholinergic system (Casas et al., 2004; Christensen et al., 2008; Christensen et al., 2010).

  3. X
    Gliosis at 11

    Astrogliosis occurs in parallel with Aβ deposition, starting around 2.5 months, and in proximity to Aβ-positive neurons (Wirths et al., 2010).

  4. X
    Synaptic Loss at 24

    At 6 months, levels of pre- and post-synaptic markers are reduced (Breyhan et al., 2009).

  5. X
    Changes in LTP/LTD at 28

    At 6 months there is a large reduction of long-term potentiation and disrupted paired pulse facilitation. No deficit at 4 months (Breyhan et al., 2009).

  6. X
    Cognitive Impairment at 27

    Age-dependent impairments in working memory as measured by the Y maze and T-maze continuous alternation task. No deficit at 2 months, but deficits at 6 and 12 months compared to PS1KI littermates (Wirths et al., 2008).

Absent
  • Tangles at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), APP V717I (London), PSEN1 M233T, PSEN1 L235P APP: Transgenic; PSEN1: Knock-In Alzheimer's Disease

Acceleration of extracellular Aβ deposition compared to the single transgenics. Age-dependent neuronal loss in the hippocampus with extensive neuronal loss in the CA1/2 at 10 months with detection as early as 6 months in female mice. Intraneuronal Aβ and thioflavin-S-positive deposits before neuronal loss. Astrogliosis in proximity of Aβ-positive neurons.

Age-dependent impairments in working memory as measured by the Y maze and T-maze continuous alternation task. No deficit at 2 months, but deficits at 6 and 12 months compared to PS1KI littermates.

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APP-C99 (tg13592)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Transgenic Alzheimer's Disease

No neuropathology up to age 29 months; however, pathology reminiscent of inclusion body myopathy observed at 6-12 months: Aβ-immunoreactive deposits in skeletal muscle fibers. Muscle fibers with Aβ-immunoreactive deposits increased with age and also became vacuolated.

Hypoactivity. The acquisition of place learning in the Morris water maze task was impaired.

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APPDutch

Observed
  1. X
    Gliosis at 126

    Microgliosis develops after the onset of CAA pathology and is prominent in areas adjacent to amyloid-laden vessels. There is also widespread activation of astrocytes in neocortical regions affected by CAA. These changes have been reported at 29 months of age, although the actual onset of gliosis may occur earlier than has been examined.

Absent
  • Plaques at

    No plaques are observed, but CAA develops at 22-24 months.

  • Tangles at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

  • Cognitive Impairment at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP E693Q (Dutch) APP: Transgenic Hereditary Cerebral Hemorrhage with Amyloidosis of the Dutch type, Cerebral Amyloid Angiopathy, Alzheimer's Disease

Increased Aβ40/42 ratio. Extensive vascular Aβ deposition starting at 22-24 months appearing first in leptomeningeal vessels followed by cortical vessels, leading to smooth muscle cell degeneration, hemorrhages, and neuroinflammation. Parenchymal amyloid plaques are not observed. 

Unknown.

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APP E693Δ-Tg (Osaka)

Observed
  1. X
    Neuronal Loss at 104

    Neuronal loss, as measured by NeuN staining, was observed in the CA3 region of the hippocampus at 24 months of age. Neuronal loss was not detected in the cerebral cortex at this time.

  2. X
    Gliosis at 52

    At 12 months of age, microgliosis is seen in transgenic mice, as measured by the presence of Iba-1 staining in the hippocampus and cortex. Astrocytosis, as measured by GFAP-reactivity, increased starting around 18 months of age in these regions.

  3. X
    Synaptic Loss at 34

    Starting around eight months of age, transgenic mice exhibit a decrease in synaptic density in the CA3 region of the hippocampus as measured by synaptophysin staining.

  4. X
    Changes in LTP/LTD at 35

    By eight months of age, transgenic mice exhibit reduced short term plasticity as measured by paired-pulse facilitation in addition to reduced LTP as elicited by high frequency stimulation to the perforant pathway.

  5. X
    Cognitive Impairment at 36

    By 8 months of age, transgenic mice exhibit memory impairment in the Morris water maze compared to mice expressing equivalent levels of wild-type human APP.

Absent
  • Plaques at

    Extracelluar amyloid plaques are not observed out to 24 months; however, Aβ accumulates within neurons of the hippocampus and cerebral cortex starting around eight months of age.

  • Tangles at

    Overt tangle pathology is not observed out to 24 months of age, but abnormal tau phosphorylation is observed starting around eight months of age.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP E693del (Osaka) APP: Transgenic Alzheimer's Disease

Age-dependent accumulation of Aβ oligomers within hippocampal and cortical neurons, but negligible deposits of extracellular amyloid. Abnormal tau phosphorylation, but no overt tangle pathology. Synaptic loss and gliosis in hippocampus and cerebral cortex. Late neuronal loss in the CA3 region of the hippocampus.

Memory impairment by eight months as measured by the Morris water maze. Specifically, reduced spatial reference memory in the Morris water maze compared to mice expressing comparable levels of wild-type human APP.

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APP Knock-in

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717I (London), APP E693Q (Dutch) APP: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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App knock-in (humanized Aβ)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
App App: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APP Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Knock-Out Alzheimer's Disease

Elevated reactive gliosis by 14 weeks in the hippocampus and parts of the neocortex.

Impaired spatial learning as measured by the water maze at 4 and 10 months. Hypoactivity and decreased locomotor activity and forelimb grip strength.

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App KO/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, App, Trem2 TREM2 R47H APOE: Knock-In; App: Knock-Out; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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APP NL-F Knock-in

Observed
  1. X
    Plaques at 26

    Homozygotes develop amyloid plaques starting at 6 months in the cortex and hippocampus. Heterozygotes develop amyloidosis after 24 months. Plaques contained Aβ1-42 and pyroglutamate Aβ (Aβ3(pE)-42); Aβx-40 was a minor species.

  2. X
    Gliosis at 26

    Microglia and activated astrocytes accumulate with age, starting around 6 months of age, concurrent with plaque formation.

  3. X
    Synaptic Loss at 39

    Reduced synaptophysin and PSD95 immunoreactivities associated with Aβ plaques at 9-12 months.

  4. X
    Cognitive Impairment at 78

    Memory impairment in homozygous mice at 18 months as measured by the Y maze test. APPNL/NL mice (with Swedish mutation only) were unimpaired at this age. No significant deficit was seen in the Morris water maze at 18 months.

Absent
  • Tangles at

    Absent; although elevated levels of phosphorylated tau are observed in dystrophic neurites around plaques.

  • Neuronal Loss at

    Absent.

No Data
  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP I716F (Iberian) APP: Knock-In Alzheimer's Disease

Elevated Aβ peptides accumulating into plaques starting at 6 months. Microgliosis and astrocytosis, especially around plaques. Reduced synaptophysin and PSD-95 indicative of synaptic loss. No tangle pathology or neurodegeneration.

Memory impairment by 18 months as measured by the Y maze. No significant impairment in the Morris water maze.

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APP NL-G-F Knock-in

Observed
  1. X
    Plaques at 9

    Aggressive amyloidosis; plaques develop in homozygous mice starting at 2 months with near saturation by 7 months. Aβ deposition at 4 months in heterozygous mice. Cortical and subcortical amyloidosis present.

  2. X
    Gliosis at 9

    Microglia and activated astrocytes accumulate with age starting around 2 months, especially around plaques in a manner concurrent with plaque formation.

  3. X
    Synaptic Loss at 17

    Reduction of synaptophysin and PSD95 immunoreactivities associated with Aβ plaques in both cortical and hippocampal areas.

  4. X
    Cognitive Impairment at 26

    Memory impairment in homozygous mice by 6 months of age as measured by the Y maze.

Absent
  • Tangles at

    Absent; although phosphorylated tau is elevated in dystrophic neurites around plaques.

  • Neuronal Loss at

    Absent.

No Data
  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP I716F (Iberian), APP E693G (Arctic) APP: Knock-In Alzheimer's Disease

Aggressive amyloidosis with deposition in the cortex beginning at 2 months and approaching saturation by 7 months. Aβ deposition in heterozygous mice at 4 months. Subcortical amyloidosis. Exacerbated microgliosis and astrocytosis compared to APPNL-F mice. Reduced synaptophysin and PSD-95 indicative of synaptic loss. No tangle pathology or neurodegeneration.

Memory impairment by 6 months as measured by the Y maze.

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AppNL-G-F/MAPT double knock-in

Observed
  1. X
    Plaques at 8

    Plaques observed at 2 months.

  2. X
    Gliosis at 16

    Astrogliosis and microgliosis observed by 4 months.

  3. X
    Cognitive Impairment at 52

    Deficits in the Y-maze test of working memory at 12 months of age.

Absent
  • Tangles at

    No neurofibrillary tangles observed up to 24 months of age.

  • Neuronal Loss at

    No neurodegeneration observed up to 24 months of age.

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
App, MAPT APP K670_M671delinsNL (Swedish), APP I716F (Iberian), APP E693G (Arctic) App: Knock-In; MAPT: Knock-In Alzheimer's Disease

Amyloid plaques, plaque-associated neuritic dystrophy, and neuroinflammation, similar to AppNL-G-F.

Deficits in the Y-maze test of working memory, similar to AppNL-G-F.

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APPPS1

Observed
  1. X
    Plaques at 6

    Aβ deposition begins at 6 weeks of age in the cortex and 3-4 months of age in the hippocampus (Radde et al., 2006).

  2. X
    Neuronal Loss at 74

    Global neuron loss is not observed, but modest neuron loss was found in the granule cell layer of the dentate gyrus and other subregions with high neuronal density in 17-month old animals (Rupp et al., 2011).

  3. X
    Gliosis at 6

    Activated microglia around Aβ deposits at 6 weeks as well as increased astrogliosis (Radde et al., 2006). Levels of CCL2 and TNFα increase at later ages (Lee et al., 2010).

  4. X
    Synaptic Loss at 10

    Dendritic spine loss around plaques reported to begin approximately 4 weeks after plaque formation and continue for several months (Bittner et al., 2012).

  5. X
    Changes in LTP/LTD at 35

    Hippocampal CA1 LTP normal at 4.5 months of age, but impaired at 8 and 15 months of age (Gengler et al., 2010).

  6. X
    Cognitive Impairment at 30

    Cognitive deficits in spatial learning and memory in the Morris water maze reported at 7 months (Serneels et al., 2009). Impaired reversal learning of a food-rewarded four-arm spatial maze task observed at 8 months (Radde et al., 2006).

Absent
  • Tangles at

    Phosphorylated tau-positive neuritic processes around plaques have been observed, but no mature tangles (Radde et al., 2006).

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1 L166P APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaque deposition starts at approximately 6 weeks in the neocortex. Amyloid deposits in the hippocampus appear at 3-4 months, and in the striatum, thalamus and brainstem at 4-5 months. Phosphorylated tau-positive neuritic processes have been observed in the vicinity of all congophilic amyloid deposits, but no fibrillar tau inclusions are seen.

 

Cognitive deficits in spatial learning and memory in the Morris water maze reported at 7 months. Impaired reversal learning of a food-rewarded four-arm spatial maze task at 8 months.

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APP/PS1/rTg21221

Observed
  1. X
    Plaques at 35

    Cortical plaques observed between 8-10 months. Plaques larger than in control mice not expressing human tau.

  2. X
    Neuronal Loss at 36

    Neuronal loss observed adjacent to plaques relative to more distal areas.

  3. X
    Gliosis at 37

    Increased astrocytosis adjacent to plaques relative to more distal areas.

  4. X
    Synaptic Loss at 40

    Decreased synapse density adjacent to plaques relative to more distal areas.

Absent
  • Tangles at

    No tangles. Aggregates of misfolded and phosphorylated tau observed between 8-10 months.

No Data
  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1, MAPT APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic; MAPT: Transgenic Alzheimer's Disease

Tau accumulations, dystrophic neurites, astrocytosis, neuronal loss, and synapse loss were more pronounced adjacent to cortical plaques. Tangles were not observed.

No data.

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AppSAA Knock-in

Observed
  1. X
    Plaques at 16

    Amyloid plaques seen in AppSAA homozygous mice from 4 months of age and heterozygous mice at 16 months of age.

  2. X
    Gliosis at 16

    Plaque-associated microgliosis observed by 4 months of age.

Absent
  • Tangles at

    AT8-positive dystrophic neurites, but no neurofibrillary tangles, detected in AppSAA homozygous mice at 8 months of age.

No Data
  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
App APP K670_M671delinsNL (Swedish), APP E693G (Arctic), APP T714I (Austrian) App: Knock-In Alzheimer's Disease

Homozygotes: Amyloid plaques and plaque-associated microgliosis from 4 months of age; cerebral amyloid angiopathy and dystrophic neurites from 8 months of age. Heterozygotes: Amyloid plaques at 16 months of age.

Unknown.

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APPsw/0; Pdgfrβ+/-

Observed
  1. X
    Plaques at 39

    By 9 months of age APPsw/0;Pdgfrβ+/- mice have an elevated plaque load in the cortex and hippocampus compared with age matched APPsw/0;Pdgfrβ+/+. littermates. They also have extensive cerebral amyloid angiopathy.

  2. X
    Neuronal Loss at 39

    Progressive neuronal degeneration including reduced neurite density and reduced neuronal number in the cortex and hippocampus of APPsw/0; Pdgfrβ+/- mice at at nine months compared to age-matched APPsw/0; Pdgfrβ+/+ littermates.

  3. X
    Cognitive Impairment at 41

    At nine months, APPsw/0;Pdgfrβ+/- mice perform poorly on several hippocampal-dependent behavioral tests including burrowing, nest construction, and novel object recognition, compared with age-matched APPsw/0;Pdgfrβ+/+ littermates.

Absent
No Data
  • Tangles at

    Although mature neurofibrillary tangles were not observed by 9 months (the oldest age assessed), the mice develop significant tau pathology, including tau hyperphosphorylation in cortical and hippocampal neurons. Pre-tangle pathology is observed, including neuronal caspase-cleaved tau, and conformational changes as indicated by the conformation-specific antibody MC1.

  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PDGFRB APP K670_M671delinsNL (Swedish) APP: Transgenic; PDGFRB: Knock-Out Alzheimer's Disease

Amyloid plaques; elevated brain interstitial human and murine Aβ due to reduced clearance of soluble Aβ, cerebral amyloid angiopathy, tau hyperphosphorylation and related pathology. Neurite loss and neuronal loss in the cortex and hippocampus.

Age-associated cognitive impairment as measured by hippocampal-dependent tasks, including nest building, burrowing, and novel object recognition.

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APPSwDI x NOS2 Knock-out

Observed
  1. X
    Plaques at 49

    Aβ deposits by 52 weeks. Particularly dense Aβ immunoreactivity in the subiculum and thalamus, including in the cerebral microvessels (Wilcock et al., 2008).

  2. X
    Tangles at 49

    Extensive tau pathology by 52 weeks, including intraneuronal aggregates of hyperphosphorylated tau. Increased phosphorylated tau in bigenic mice compared to APPSwDI mice (Wilcock et al., 2008).

  3. X
    Neuronal Loss at 52

    Significant neuron loss by 52 weeks in the hippocampus and subiculum, especially of neuropeptide Y neurons. Numerous Fluoro-Jade C+ neurons: 30% loss in the hippocampus, 35% loss in the subiculum (Wilcock et al., 2008).

  4. X
    Cognitive Impairment at 53

    Impairments in spatial memory by 52-56 weeks as measured by the radial arm maze and the Barnes maze. Bigenic mice more impaired than APPSwDI (Wilcock et al., 2008).

Absent
No Data
  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, NOS2 APP K670_M671delinsNL (Swedish), APP E693Q (Dutch), APP D694N (Iowa) APP: Transgenic; NOS2: Knock-Out Alzheimer's Disease

Plaques especially in the thalamus and subiculum. Aggregated, hyperphosphorylated tau tangles. Neuronal loss especially of NPY neurons in the hippocampus and subiculum. More severe pathology than Tg-SwDI alone.

Severe learning and memory deficits. Impaired spatial memory compared to Tg-SwDI as measured by the radial arm maze and the Barnes maze at 52-56 weeks.

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APPSwe

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Amyloid plaques by 17-18 months in the neocortex and hippocampus with detection of 5-10 fold more Aβ40 than Aβ42. Plaque burden significantly lower than in the double transgenic PS2APP. Lower levels of insoluble Aβ40 and Aβ42 than the PS2APP mouse at 16-18 months.

Unknown.

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APP(Swedish) (R1.40)

Observed
  1. X
    Plaques at 59

    By 13.5 months homozygous mice develop both parenchymal and vascular amyloid deposits which first appear in the frontal cortex. No Aβ deposition at 5 months (Lehman et al., 2003).

  2. X
    Gliosis at 61

    Reactive astrocytes and microglia in 14-16 month old animals (Kulnane et al., 2001).

Absent
  • Tangles at

    No mature tangles, but some changes in phosphorylated tau.

  • Changes in LTP/LTD at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Cognitive Impairment at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

By 14-16 months, homozygotes have diffuse and compact Aβ deposits in the frontal cortex, by 18-20 months plaques throughout the cortex and olfactory bulb with occasional deposits in the corpus callosum and hippocampus. No tangles, but some changes in phosphorylated tau. Reactive astrocytes and microglia by 14-16 months.

Unknown.

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APPSwe (line C3-3)

Observed
  1. X
    Plaques at 104

    Some plaque formation at advanced age (24-26 months) (Savonenko et al., 2003).

Absent
  • Cognitive Impairment at

    Normal reference and working memory up to 12-14 months on congenic background (Savonenko et al., 2003).

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Age-associated increase in Aβ40 and Aβ42 and some amyloid deposition at advanced age.

Congenic animals showed normal reference and working memory up to 12-14 months.

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APPSwe (line E1-2)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Age-dependent increase in Aβ42, with low levels at 6-14 months and high levels at 24-26 months.

No cognitive impairment in tasks of reference or working memory at 12-14 months.

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APPSweLon

Observed
Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717I (London) APP: Transgenic Alzheimer's Disease

No amyloid plaques observed at 2 years.

Unknown.

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APPSwe/PSEN1(A246E)

Observed
  1. X
    Plaques at 39

    By 9 months of age, amyloid plaques develop in the hippocampus and subiculum, later extending to the cortex (Borchelt et al., 1997). The striatum and thalamus are relatively spared out to 18 months of age. Amyloid pathology is more severe in female mice, with a greater amyloid burden measured at 12 and 17 months of age (Wang et al., 2003).

  2. X
    Gliosis at 52

    By one year of age, reactive gliosis is observed in the cortex and hippocampus and is associated with dystrophic neurites (Borchelt et al., 1997).

  3. X
    Cognitive Impairment at 48

    Age-associated cognitive impairment, as measured by the Morris water maze, was observed in 11 to 12-month-old males. Both acquisition and retention were impaired. No impairment at 3-4 months of age. At both time points mice performed normally on a position discrimination task in the T-maze (Puoliväli et al., 2002).

Absent
  • Tangles at

    Not observed.

  • Neuronal Loss at

    There was no difference in neuronal numbers in the cingulate cortex compared with wild-type mice (Xiang et al., 2002).

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1 A246E APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques by 9 months, starting in the hippocampus and subiculum. Plaques later develop in the cortex; the striatum and thalamus are relatively spared. Amyloid pathology is more severe in females. Dystrophic neurites and gliosis in the cortex and hippocampus.

Poor nest building. Reduced retention in a learned passive avoidance task. Increased immobility time in forced swim task. Age-associated impairment in acquisition and retention in the Morris water maze. No impairment in a position discrimination T-maze task.

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APPSwe/PSEN1dE9 (C3-3 x S-9)

Observed
  1. X
    Plaques at 26

    Plaques are present in the hippocampus and cortex by 6 months of age.

  2. X
    Cognitive Impairment at 78

    Age-related cognitive deficits. Episodic memory appears to be more sensitive than reference memory. No differences at 6 months of age, but detectable at 18 months (Savonenko et al., 2005).

Absent
  • Tangles at

    Not observed.

No Data
  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Elevated Aβ42 and plaques in the hippocampus and cortex. No tangles. Reduced cholinergic markers.

Age-related cognitive deficits; episodic memory more sensitive than reference memory. No differences at 6 months, but detectable at 18 months.

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APPswe/PSEN1dE9 (C57BL6)

Observed
  1. X
    Plaques at 16

    Amyloid plaques begin to emerge in the cortex at about 4 months of age and in the hippocampus at about 6 months.

  2. X
    Gliosis at 17

    Plaque-associated astrogliosis and microgliosis are evident by 4 and 8 months, respectively.

  3. X
    Synaptic Loss at 18

    Synapse loss in the hippocampus occurs by 4 months.

  4. X
    Cognitive Impairment at 40

    Deficits in the Morris water maze emerge between 6 and 10 months and worsen with age.

Absent
  • Tangles at

    Not observed.

  • Neuronal Loss at

    Neuron loss has not been observed in mice up to 12 months of age.

No Data
  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques begin to emerge in the cortex at about 4 months of age and in the hippocampus at about 6 months. Gliosis and dystrophic neurites are associated with plaques. Amyloid angiopathy has been observed in the retina.

Hyperactivity is apparent by 6 months. Deficits in the Morris water maze emerge between 6 and 10 months and worsen with age.

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APPswe/PSEN1dE9 (line 85)

Observed
  1. X
    Plaques at 26

    Occasional Aβ deposits can be found by 6 months, with abundant plaques in the hippocampus and cortex by 9 months (Jankowsky et al., 2004) and a progressive increase in plaques up to 12 months (Garcia-Alloza et al., 2006).

  2. X
    Neuronal Loss at 35

    Neuronal loss observed adjacent to plaques relative to more distal areas.

  3. X
    Gliosis at 26

    Minimal astrocytosis at 3 months; significant astrocytosis by 6 months, especially in areas around plaques. Extensive GFAP+ staining at 15 months and later throughout the cortex (Kamphuis et al., 2012).

  4. X
    Synaptic Loss at 17

    In the B6 congenic mice, age-dependent loss of synaptophysin, synaptotagmin, PSD-95, and Homer immunoreactivity in the hippocampus by 4 months (Hong et al., 2016).

  5. X
    Changes in LTP/LTD at 13

    Transient long-term potentiation (t-LTP) is reduced by 3 months. The degree of impairment is not related to age from 3 to 12 months (Volianskis et al., 2008).

  6. X
    Cognitive Impairment at 52

    Impairment in the Morris water maze at 12 months, specifically during acquisition of the hidden platform sub-task and the probe trial, but not in the visible platform test (Lalonde et al., 2005). At 13 months the mice commit more errors in the Morris water maze, but not at 7 months (Volianskis et al., 2008).

Absent
  • Tangles at

    Not observed.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Occasional Aβ deposits by 6 months with abundant plaques in the hippocampus and cortex by 9 months and a progressive increase in plaques up to 12 months. No tangles. Decrease in synaptic markers and increase in complement immunoreactivity.

Cognitive impairment (e.g., deficits in spatial memory and contextual memory). Changes in spontaneous behavior (e.g., nest-building, burrowing).

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APPSw-NSE

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Increased Aβ42 in the cortex and hippocampus of 12 month old mice, but no plaques. Increased tau phosphorylation and TUNEL-stained nuclei relative to control mice.

In water maze tests, 12 month old mice had longer escape latencies than age-matched control mice.

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APP(V642I)KI

Observed
  1. X
    Cognitive Impairment at 117
    Impairments at the water finding task at age 27-29 months, a test of long-term memory. No differences in the open field test of the elevated plus maze indicating no difference in general behavioral patterns, activity level, or emotional state.
Absent
  • Plaques at

    Absent.

  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP V717I (London) APP: Transgenic Alzheimer's Disease

Increased Aβ42(43) relative to Aβ40 at 29 months, but without neuritic plaques, neurofibrillary tangles, massive neuronal loss, or brain atrophy.

At 27-29 months mice displayed long-term memory deterioration. Acquisition of spatial memory is slightly affected, but no deterioration in short-term working memory. No difference in open field test or elevated plus maze suggesting no difference in overall behavioral patterns or activity levels.

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APP(V717I)

Observed
  1. X
    Plaques at 43

    Plaques start in the cortex and subiculum at ~10 months. Diffuse amyloid deposits and compact neuritic plaques at 13-18 months especially in the hippocampus and cortex, with occasional deposits in the thalamus and fimbria, external capsule, pontine nuclei, and white matter (Moechars et al., 1999). Prominent amyloid deposits in brain vessels after 15 months (Van Dorpe et al, 2000).

  2. X
    Gliosis at 43

    GFAP, microglial activation, and other markers of brain inflammation are elevated by 10 months.

  3. X
    Changes in LTP/LTD at 26

    Significant deficit in LTP in CA1 region of the hippocampus at 6 months.

  4. X
    Cognitive Impairment at 26

    From the age of 6 months, spatial and non-spatial orientation and memory deficits by Morris water maze and other tests. Also deficits in associative learning.

Absent
  • Tangles at

    Dystrophic neurites containing hyperphosphorylated tau, but no tangle pathology.

  • Neuronal Loss at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP V717I (London) APP: Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy

Plaques start in the subiculum, spreading to the frontal cortex as dense and diffuse aggregates. Prominent amyloid deposits in brain vessels after 15 months. Microbleeds. Amyloid-associated inflammation. CSF Aβ42/Aβ40 ratio decreases from 15 months. Dystrophic neurites containing hyperphosphorylated tau, but no tangle pathology.

From the age of 6 months, spatial and non-spatial orientation and memory deficits by Morris water maze. Impaired associative learning. Increased agitation/anxiety from 8 weeks. Reduced ambulation, especially with age. Hyperactivity and aggression.

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APP(V717I) x PS1(A246E)

Observed
  1. X
    Plaques at 17

    Plaques start in cortex, hippocampus and subiculum at 4-6 months.

  2. X
    Gliosis at 20

    Elevated GFAP, microglial activation, and other markers of brain inflammation increase as of 4.5 months.

  3. X
    Changes in LTP/LTD at 26

    Significant deficit in LTP in CA1 region of the hippocampus at 6 months.

  4. X
    Cognitive Impairment at 22

    From the age of 5 months, spatial and non-spatial orientation and memory deficits by Morris water maze and other tests. Also deficits in associative learning.

Absent
  • Tangles at

    Dystrophic neurites containing hyperphosphorylated murine tau, but no tangle pathology.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP V717I (London), PSEN1 A246E APP: Multi-transgene; PSEN1: Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy

Soluble, oligomeric Aβ at 2 months and increases with age. Amyloid plaques at 6-9 months, earlier than APP(V717I) single transgenics. Plaques start in the subiculum and spread to the frontal cortex. Amyloid-associated inflammation. CAA pathology at 8 months; microbleeds at 12-15 months. Dystropic neurites containing hyperphosphorylated tau, but no tangle pathology.

From the age of 5 months, spatial and non-spatial orientation and memory deficits by Morris Water Maze. Impaired associative learning, hyperactivity, anxiety, and aggression.

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Arc48 (APPSw/Ind/Arc)

Observed
  1. X
    Plaques at 9

    Parenchymal neuritic plaques by 2 months with prominent plaque deposition in the hippocampus by 3-4 months. Abundant mature thioflavin-S positive plaques with dystrophic neurites by 10-12 months (Cheng et al., 2007).

  2. X
    Gliosis at 13

    Reactive astrocytosis at 3-4 months in the dentate gyrus as demonstrated by GFAP immunoreactivity (Cheng et al., 2007).

  3. X
    Cognitive Impairment at 13

    At 3-4 months the Arc48 mouse was able to learn a task involving escape to a cued platform in the Morris water maze, but were impaired in the ability to use extramaze cues to navigate to the hidden platform (Cheng et al., 2007).

Absent
  • Tangles at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana), APP E693G (Arctic) APP: Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy

Parenchymal neuritic plaques by 2 months accompanied by dystrophic neurites. Prominent hippocampal Aβ deposition by 3-4 months. Relatively low Aβ42/Aβ40 ratio. Comparable cerebrovascular amyloid deposition to J20.

At 3-4 months the Arc48 mouse was able to learn a task involving escape to a cued platform in the Morris water maze, but had an impaired ability to use extramaze cues to navigate to the hidden platform.

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ArcAβ

Observed
  1. X
    Plaques at 39

    Between 9 and 15 months of age β-amyloid plaques became prominent. Plaques had a characteristic dense core morphology which differed from the cotton wool-like structure of plaques seen with the Swedish mutation alone (Knobloch et al., 2007).

  2. X
    Changes in LTP/LTD at 15

    LTP is severely impaired in slices from 3.5 and 7.5 month old mice. LTP and basal synaptic transmission were normal in slices from one month old mice (Knobloch et al., 2007).

  3. X
    Cognitive Impairment at 26
    Cognitive impairment measured from the age of 6 months in the Morris water maze and Y-maze, as well as in active avoidance behavior (Knobloch et al., 2007).
Absent
  • Tangles at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP E693G (Arctic) APP: Transgenic Alzheimer's Disease At 6 months intracellular punctate deposits of Aβ abundant in cortex and hippocampus, but overt β-amyloid plaques not apparent until 9-15 months. Severe CAA also present at this age with dense Aβ aggregates in blood vessels walls and spreading into the parenchyma.

Cognitive impairments from the age of 6 months measured in the Morris water maze and Y-maze.

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ARTE10

Observed
  1. X
    Plaques at 13

    Robust and reliable plaque pathology as early as 3 months in homozygotes, 5 months in hemizygotes. Plaques start in the anterior neocortex and subiculum, spreading to other brain regions (e.g. hippocampus, thalamus, amygdala). Congophilic dense-core plaques are abundant, with lower levels of diffuse plaques and some cerebral amyloid angiopathy.

  2. X
    Gliosis at 22

    Glial activation, including reactive astrocytes and activated microglia, is present in areas around plaques by 5 months of age in homozygous animals, later in hemizygotes.

  3. X
    Synaptic Loss at 13

    Decreased expression of synaptophysin mRNA in the brain by 3-4 months of age in both hemizygous and homozygous animals.

  4. X
    Cognitive Impairment at 52

    Select, paradigm-dependent, deficits in learning and memory, especially episodic memory, by 12 months in homozygous and hemizygous mice.

Absent
  • Tangles at

    No tangles or neuropil threads, but some hyperphosphorylated tau by eight months in dystrophic neurites.

  • Neuronal Loss at

    Outright neuronal loss has not been documented, but substantial degeneration of dendritic arbors occurs by 10-14 months of age in hippocampal neurons.

No Data
  • Changes in LTP/LTD at

    Unknown; however, hippocampal neurons exhibit substantial changes in electrophysiological properties by 10-14 months of age, including hyperexcitability in the form of increased firing of action potentials and a more efficient transition from solitary firing to bursting.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1 M146V APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Robust early plaque development (by 3 months in homozygotes, 5 months in hemizygotes), predominantly congophilic dense-core amyloid plaques surrounded by dystrophic neurites and gliosis. Some diffuse plaques and cerebral amyloidosis. No tau tangles. Neurons have reduced dendritic length, surface area, and branches.

Age-related learning and memory deficits, especially episodic memory, in select paradigm-specific tasks by 12 months.

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Atg16LΔWD

Observed
  1. X
    Neuronal Loss at 104

    Apparent neuron loss in hippocampi of 2-year-old mice (fewer neurons, increased levels of cleaved caspase-3, and increased numbers of TUNEL-positive neurons).

  2. X
    Gliosis at 104

    Microgliosis in the hippocampi of 2-year-old mice.

  3. X
    Changes in LTP/LTD at 104

    Impaired long-term potentiation at CA3-CA1 synapses.

  4. X
    Cognitive Impairment at 104

    Deficits in the sucrose preference test, spontaneous alternation in the Y-maze, and novel object recognition test.

Absent
  • Plaques at

    Intracellular and extracellular Aβ deposits, but no dense-core plaques, in 2-year-old mice.

No Data
  • Tangles at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Atg16l1 Atg16l1: Knock-Out Alzheimer's Disease

Intracellular and extracellular Aβ deposits, but no dense-core plaques. Microgliosis and neuron loss in 2-year-old mice.

Deficits in the sucrose-preference test, spontaneous alternation in the Y-maze, and novel object recognition test.

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BACE1 cKO (Hu, Yan) X 5xFAD

Observed
  1. X
    Plaques at 11

    Accumulate up to day 120, but to a lesser degree than in control 5xFAD, then recede thereafter.

  2. X
    Gliosis at 11

    Reactive astrocytes and microglia accumulate up to day 120, but to a lesser degree than in control 5xFAD, then recede thereafter.

  3. X
    Changes in LTP/LTD at 40

    Deficit in LTP at Schaffer collateral–CA1 synapses, but less severe than in control 5xFAD mice.

Absent
  • Cognitive Impairment at

    Cued and contextual fear conditioning normal, tested at eight to 10 months of age.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Bace1, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V Bace1: Conditional Knock-out; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques, reactive astrocytes and microglia, and dystrophic neurites accumulate up to day 120, but to a lesser degree than in control 5xFAD (5xFAD mice homozygous for a floxed Bace1 gene), then recede thereafter.

Normal contextual and cued fear conditioning, tested at 8 to 10 months of age.

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Bace1 conditional knock-out (adult, whole body) (Vassar)

Observed
Absent
  • Changes in LTP/LTD at

    LTP at Schaffer collateral–CA1 synapses was similar in slices obtained from 12-month BACE1-deficient and control mice.

  • Cognitive Impairment at

    Normal learning and memory in the Morris water maze, normal alternation in the Y-maze test of working memory, and normal cued and contextual fear conditioning when tested at 9 months of age.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Bace1 Bace1: Conditional Knock-out Alzheimer's Disease

Defects in axonal organization.

Normal learning and memory in the Morris water maze, normal alternation in the Y-maze test of working memory, and normal cued and contextual fear conditioning; possible hyperactivity in novel situations.

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BACE1 conditional knock-out (Hu, Yan)

Observed
  1. X
    Changes in LTP/LTD at 40

    Long-term potentiation at Schaffer collateral–CA1 synapses impaired in slices obtained from 10- to 12-month-old mice.

Absent
  • Plaques at

    Not observed.

  • Tangles at

    Not observed.

  • Neuronal Loss at

    Not observed.

  • Gliosis at

    No astrogliosis at 1-2 months.

  • Cognitive Impairment at

    Contextual and cued fear conditioning normal at 8-10 months.

No Data
  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Bace1 Bace1: Conditional Knock-out Alzheimer's Disease

No gross morphological changes observed.

BACE1-deficient mice and Bace1fl/fl mice performed similarly in tests of contextual and cued fear conditioning at 8 to 10 months of age.

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Bace1 conditional knock-out (neonatal, forebrain) (Vassar)

Observed
  1. X
    Cognitive Impairment at 24

    Delayed learning, but normal memory, in the Morris water maze; normal alternation in the Y-maze test of working memory, normal cued and contextual fear conditioning.

Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Bace1 Bace1: Conditional Knock-out Alzheimer's Disease

Hypomyelination and defects in axon organization.

Delayed learning, but normal memory, in the Morris water maze; normal alternation in the Y-maze test of working memory, normal cued and contextual fear conditioning. Hyperactivity in when placed in novel environments.

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Bace1 conditional knockout (Tesco)

Observed
  1. X
    Changes in LTP/LTD at 60

    Deficit in long-term potentiation at Schaffer collateral–CA1 synapses in slices from 14-month-old animals that had received tamoxifen between 8 and 12 weeks of age.

Absent
  • Cognitive Impairment at

    Animals that had received tamoxifen between 8 and 12 weeks of age were tested at 4–5 or 12–14 months. Tamoxifen-treated mice performed similarly to vehicle-treated controls in the Y-maze, contextual fear conditioning, pre-pulse inhibition, open field, and light-dark transition tests.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Bace1 Bace1: Conditional Knock-out Alzheimer's Disease

None observed: hippocampal mossy fiber organization and sciatic-nerve myelination were normal.

Performed similarly to controls in a battery of tests (Y-maze, contextual fear conditioning, pre-pulse inhibition, open field, and light-dark transition task).

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BACE1 Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
BACE1 BACE1: Knock-Out Alzheimer's Disease

Hypomyelination in the hippocampus and cerebral cortex, but normal axonal development.

Increased thermal pain sensitivity as measured by a hot plate test. Decreased grip strength.

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BACE2 Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
BACE2 BACE2: Knock-Out Alzheimer's Disease

Not observed.

Not observed.

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BRI-Aβ40 (BRI2-Aβ40)

Observed
  1. X
    Cognitive Impairment at 52

    Hemizygous mice on a mixed background (C57/B6//C3H) have intact cognition as measured by fear conditioning at 12 and 14-17 months (Kim et al., 2013).

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Transgenic Alzheimer's Disease

No overt amyloid pathology or detergent-insoluble amyloid-β.

Hemizygous mice on a mixed background (C57/B6//C3H) have intact cognition as measured by fear conditioning at 12 and 14-17 months.

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BRI-Aβ42 (BRI2-Aβ42)

Observed
  1. X
    Plaques at 13

    Detergent-insoluble amyloid-β and cored plaques as early as three months in the cerebellum. Variable forebrain pathology later with extracellular Aβ plaques in the hippocampus and entorhinal/piriform cortices by 12 months. Extensive congophillic amyloid angiopathy.

  2. X
    Gliosis at 13

    Plaque-associated reactive gliosis as measured by GFAP immunostaining.

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

  • Cognitive Impairment at

    On a mixed (C57/B6//C3H) background hemizygous mice have intact cognition as measured by fear conditioning at 12 months and 14-17 months despite accumulating amyloid.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy

Detergent-insoluble amyloid-β appearing with age and cored plaques as early as 3 months in the cerebellum. Variable forebrain pathology later with extracellular Aβ plaques in the hippocampus and entorhinal/piriform cortices at 12 months. Age-associated congophillic amyloid angiopathy. No tangles or neuronal loss.

On a mixed (C57/B6//C3H) background hemizygous mice have intact cognition as measured by fear conditioning at 12 months and 14-17 months despite accumulating amyloid.

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CAST.APP/PS1

Observed
  1. X
    Plaques at 32

    Thioflavin S-positive amyloid plaques are present in the cortex and hippocampus by 8 months of age, with more severe plaque pathology in females than in males.

  2. X
    Neuronal Loss at 34

    Compared with their non-transgenic littermates, CAST.APP/PS1 mice have fewer neurons in area CA1 of the hippocampus. Cortical neuron numbers do not differ between the genotypes.

  3. X
    Gliosis at 33

    Plaque-associated microgliosis observed by 8 months.

  4. X
    Cognitive Impairment at 31

    Deficits in short-term memory by 8 months in males (data from females unavailable).

Absent
  • Tangles at

    Not observed.

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques, plaque-associated gliosis, cerebral amyloid angiopathy; possible neuron loss in hippocampal area CA1.

Transgenic mice are hyperactive. Working memory (spontaneous alternation in the Y-maze) is normal at 7 to 8 months, but short-term memory (tested in the Y-maze) is impaired in males (data from females is not available, as wild-type females are unable to perform this test).

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Ceacam1 KO/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, Ceacam1, Trem2 TREM2 R47H APOE: Knock-In; Ceacam1: Knock-Out; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Clasp2*L163P/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Clasp2, APOE, Trem2 TREM2 R47H Clasp2: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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CNS-restricted PS1 cKO

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1: Conditional Knock-out Alzheimer's Disease

Premature differentiation of neural progenitor cells results in reduced cells and neurons. 45 percent of late-born neurons fail to migrate to their appropriate positions in the superficial cortical layers.

Gross behavior deficits.

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E2FAD

Observed
  1. X
    Plaques at 17

    Plaques develop in the subiculum and deep cortical layers by 4 months.

  2. X
    Gliosis at 26

    Microgliosis and astrocytosis in the subiculum and cortex at 6 months.

  3. X
    Synaptic Loss at 17

    Protein levels of  NMDA receptor subunits decreased from 2 to 6 months.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    E2FAD mice had performance in learning and memory tasks comparable to E3FAD animals and better than E4FAD mice.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V APOE: Knock-In; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques starting at 4 months and increasing with age. Gliosis and loss of synaptic proteins.

In the Y maze and Morris water maze, E2FAD mice performed better than E4FAD mice, and were comparabile to E3FAD mice.

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E3FAD

Observed
  1. X
    Plaques at 17

    Plaques develop in the subiculum and deep cortical layers by 4 months.

  2. X
    Gliosis at 26

    Microgliosis and astrocytosis in the subiculum and cortex at 6 months.

  3. X
    Synaptic Loss at 17

    Protein levels of  NMDA receptor subunits decreased from 2 to 6 months.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    E3FAD mice had performance in learning and memory tasks comparable to E4FAD and E2FAD animals.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V APOE: Knock-In; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques starting at 4 months and increasing with age. Gliosis and loss of synaptic proteins.

In the Y maze and Morris water maze E3FAD mice performed better than E4FAD mice, and were comparabile to E2FAD mice.

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E4FAD

Observed
  1. X
    Plaques at 17

    Plaques develop in the subiculum and deep cortical layers by 4 months.

  2. X
    Gliosis at 26

    Microgliosis and astrocytosis in the subiculum and cortex at 6 months.

  3. X
    Synaptic Loss at 17

    Decreased protein levels of PSD95 and NMDA receptor subunits by 4 months.

  4. X
    Cognitive Impairment at 8

    Modest learning deficits in the Morris water maze by 2 months. Progressive decrease in performance on learning and memory tasks. 

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V APOE: Knock-In; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques starting at 4 months and increasing with age. Gliosis and loss of synaptic proteins. 

Age-dependent learning and memory deficits in the Y maze and Morris water maze.

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GFAP-APOE4/APOE Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Transgenic; APOE: Knock-Out Alzheimer's Disease

Developing and adult mice express human APOE4 in glia and neuropil.

Unknown.

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hAbeta/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, APP, Trem2 TREM2 R47H APOE: Knock-In; APP: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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hAbeta-loxP-KI

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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hAβ-KI

Observed
  1. X
    Synaptic Loss at 78

    Fewer synaptophysin-immunoreactive puncta, but similar numbers of PSD95-immunoreactive puncta, in knock-in mice compared with wild-type mice.

  2. X
    Changes in LTP/LTD at 78

    Impaired theta-burst-induced LTP at Schaffer collateral-CA1 synapses, by 18 months of age.

  3. X
    Cognitive Impairment at 40

    Differed from wild-type mice in the contextual fear conditioning test by 10 months of age and in the novel object recognition task by 14 months.

Absent
  • Plaques at

    No plaques observed through 22 months of age, using immunohistochemical, thioflavin-S or Congo red stains.

  • Neuronal Loss at

    Neuron numbers in hippocampal CA1 were similar in 22-month hAβ-KI and wild-type mice, although hippocampal volume was decreased in the knock-in mice.

  • Gliosis at

    Neither microgliosis nor astrogliosis was observed through 22 months of age.

No Data
  • Tangles at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
App App: Knock-In Alzheimer's Disease

No amyloid plaques observed through 22 months of age. Accelerated formation of OC-immunoreactive and Periodic Acid Schiff-positive granules.

Differed from wild-type mice in the contextual fear conditioning test by 10 months of age and in the novel object recognition task by 14 months.

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hBACE

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
BACE1 BACE1: Transgenic Alzheimer's Disease

No evidence of Aβ deposition in single transgenic animals.

Unknown.

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hBACE54

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
BACE1 BACE1: Transgenic Alzheimer's Disease

Not observed.

Unknown.

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hCR1 KI on APOE4/Trem2

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Cr2, CR1, CR2, APOE, Trem2 TREM2 R47H Cr2: Knock-Out; CR1: Knock-In; CR2: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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htau

Observed
  1. X
    Tangles at 39

    Aggregated tau and paired helical filaments detectable at nine months by immunoelectron microscopy, although paired helical filaments of aggregated insoluble tau can be isolated from brain tissue as early as two months. Tau first redistributes from axons to cell bodies. Hyperphosphorylated tau begins to accumulate by six months, and increases further by 13 and 15 months (Andorfer et al., 2003).

  2. X
    Neuronal Loss at 43

    Decrease in cortical thickness and reduced cell number between 10 and 14 months of age. Increased ventricle size increased from age eight months to 18 months. Decrease in the thickness of the corpus callosum (Andorfer et al., 2005).

  3. X
    Changes in LTP/LTD at 52

    In hippocampal slices, LTP induced by high frequency stimulation (HFS) was normal at four months but abolished by 12 months. LTP induced by theta burst stimulation (TBS) was normal at both ages. Paired-pulse ratio (PPR) was unaffected at four months, but increased at 12 months compared with controls, suggesting a decrease in probability of transmitter release (Polydoro et al., 2009).

  4. X
    Cognitive Impairment at 26

    Abnormal spatial learning in six-month-old mice compared with control mice (Phillips et al., 2011). Normal object recognition and spatial learning and memory by MWM at four months, but deficits by 12 months (Polydoro et al., 2009). Impaired burrowing relative to control mice occurs by four months (Geiszler et al., 2016).

Absent
No Data
  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Knock-Out; MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

Age-associated tau pathology, including redistribution of tau to cell bodies and dendrites, phosphorylated tau, accumulation of aggregated paired helical filaments, and ultimately thioflavin-S positive neurofibrillary tangles. Pathology most severe in neocortex and hippocampus, and minimal in the brain stem and spinal cord. Some neuronal loss.

Normal object-recognition memory and spatial learning/memory (as assessed by the Morris Water Maze) at four months, but impaired at 12 months (Polydoro et al., 2009). 

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hTau-A152T

Observed
  1. X
    Neuronal Loss at 87

    Neuron loss in the hippocampus was observed by 20 months.

  2. X
    Gliosis at 17

    Astrocytosis, but no differences in microglia.

  3. X
    Cognitive Impairment at 74

    In the Morris water maze, performance was impaired after 17 months of age. Nest building was impaired at 10-14 months. Social interaction, anxiety, exploratory behavior, and motor functions were unaltered.

Absent
  • Tangles at

    Abnormal accumulations of soluble tau were observed, but not tangles or tangle-like structures.

  • Changes in LTP/LTD at

    Unchanged at 20 months.

No Data
  • Plaques at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT A152T MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Tangles or dense tau inclusions not observed. Abnormal accumulations of soluble tau. Age-dependent neuronal loss was observed in the hippocampus.

Age-dependent learning and memory deficits in the Morris water maze. Nest building impaired. Social interaction, anxiety, exploratory behavior, and motor functions were normal.

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hTau-AT (hTau40-AT)

Observed
  1. X
    Tangles at 13

    Tangles in hippocampus, cortex, and spinal cord starting at 3 months with age-dependent increases. Hyperphosphorylation, conformation changes, and mislocalization.

  2. X
    Neuronal Loss at 52

    Neuron loss in the hippocampus and cortex at 12 months.

  3. X
    Gliosis at 43

    Astrocytosis and microgliosis at 10 months.

  4. X
    Synaptic Loss at 87

    Synaptophysin, but not PSD95, decreased in hippocampus and cortex at 12 months. By Golgi staining, spines unchanged in CA1 at 10 months, increased in CA3 at 12 months, and decreased in CA1 and CA3 at 16 months.

  5. X
    Cognitive Impairment at 70

    No change at 10 months but at 16 months deficits in learning and memory (Morris water maze).

Absent
  • Changes in LTP/LTD at

    Unchanged at 12 months.

No Data
  • Plaques at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT A152T MAPT: Knock-In Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Tangles in hippocampus, cortex, and spinal cord at 3 months with age-dependent increases. Tau hyperphosphorylation, conformation changes, and mislocalization observed. Age-dependent loss of synapses.

Age-dependent learning and memory deficits in the Morris water maze. Motor functions normal.

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hTau.P301S

Observed
  1. X
    Tangles at 17

    Neurofibrillary tangles detected as early as 4 months of age.

  2. X
    Neuronal Loss at 13

    Neuronal loss starting at 3 months. Loss is especially prominent in the spinal cord with notable loss of superficial cortical neurons as well (Hampton et al., 2010).

  3. X
    Gliosis at 22

    Astrocytosis, as measured by GFAP reactivity, in 6 month-old animals. Microglial activation in the brain stem and spinal cord of 5 month-old animals by OX42 staining (Bellucci et al., 2004).

  4. X
    Cognitive Impairment at 11

    Memory deficit starting at 2.5 months as assessed by the Morris water maze (Xu et al., 2014), but no deficit at 2 months (Scattoni et al., 2010).

Absent
  • Plaques at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301S MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Age-dependent hyperphosphorylation of tau and conformational changes leading to neurofibrillary tanglelike pathology in the cerebral cortex, hippocampus, brain stem, and spinal cord. Neurodegeneration, especially in the spinal cord, accompanied by astrocytosis.

Early motor impairment, including abnormal clasping and rotarod deficit at 4 months, with nearly complete deficit at 5 months. Deficits progress to severe paraparesis. Disinhibition and hyperactivity at 2 to 3 months.

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hTREM2-KI

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
TREM2 TREM2: Knock-In Alzheimer's Disease

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hTREM2-R47H_KI

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
TREM2 TREM2 R47H TREM2: Knock-In Alzheimer's Disease

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Human-BACE1

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
BACE1 BACE1: Transgenic Alzheimer's Disease

Not observed.

Unknown.

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Il1rap KO/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, Il1rap, Trem2 TREM2 R47H APOE: Knock-In; Il1rap: Knock-Out; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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J20 (PDGF-APPSw,Ind)

Observed
  1. X
    Plaques at 22

    At 5-7 months of age diffuse amyloid-β plaques deposit in the dentate gyrus and neocortex. Amyloid deposition is progressive with widespread plaques by 8-10 months. Aβ puncta are deposited in the hippocampus as early as 1 month (Hong et al., 2016).

  2. X
    Neuronal Loss at 12

    Cell loss varies by brain region. No significant neuronal loss was observed in the CA3 region of the hippocampus at 6, 12, 24 and 36 weeks of age nor in the CA1 region at 6 weeks; however, at 12, 24, and 36 weeks significant neuronal loss was observed in the CA1 region compared to age-matched wild-type animals (Wright et al., 2013).

  3. X
    Gliosis at 24

    At 24 and 36 weeks a significant increase in the number of reactive GFAP+ astrocytes and CD68+ microglia was observed in the hippocampi of J20 mice compared to age-matched wild-type controls. No significant difference was observed at 6 and 12 weeks (Wright et al., 2013).

  4. X
    Synaptic Loss at 15

    Age-dependent loss of synaptophysin, synaptotagmin, PSD-95, and homer immunoreactivity in the hippocampus by 3 months; synapse loss was confirmed by electron microscopy. No significant difference was seen at 1 month (Hong et al., 2016).

  5. X
    Changes in LTP/LTD at 13

    Basal synaptic transmission is impaired between 3-6 months; extracellularly recorded field EPSPs at the Schaffer collateral to CA1 synapse in acute hippocampal slices were on average smaller in amplitude than those seen in wild-type mice. Significant deficits in LTP at the Schaffer collateral–CA1 synapse compared with control mice at 3-6 months (Saganich et al., 2006).

  6. X
    Cognitive Impairment at 16

    Deficits in spatial memory and learning appear as the mice age. By 4 months, J20 mice demonstrate spatial reference memory deficits as measured by the radial arm maze (Wright et al., 2013) and Morris water maze (Cheng et al., 2007).

Absent
  • Tangles at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

Age-dependent formation of Aβ plaques. Dystrophic neurites associated with plaques. No tangles. Variable cell loss. Decrease in synaptic markers and increase in complement immunoreactvity.

Learning and memory deficits are age-dependent and may appear as early as 16 weeks. Hyperactivity and increased time in the open arm of the elevated plus maze than wild-type mice indicating lower levels of anxiety, but has not been universally replicated.

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JNPL3(P301L)

Observed
  1. X
    Tangles at 20

    Neurofibrillary tangles develop in an age and gene-dose dependent manner; as early as 4.5 months in homozygotes and 6.5 months in heterozygotes. Tangles and Pick-body-like neuronal inclusions in the amygdala, septal nuclei, preoptic nuclei, hypothalamus, midbrain, pons, medulla, deep cerebellar nuclei and spinal cord (Lewis et al., 2000).

  2. X
    Neuronal Loss at 43

    Neuronal loss, especially in the spinal cord, most prominent in the anterior horn (Lewis et al., 2000).

  3. X
    Gliosis at 43

    Astrogliosis (as measured by GFAP reactivity) in brainstem, diencephalon, and basal telencephalon by 10 months (Lewis et al., 2000).

Absent
  • Plaques at

    Absent.

No Data
  • Cognitive Impairment at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301L MAPT: Transgenic Frontotemporal Dementia, Progressive Supranuclear Palsy, Alzheimer's Disease

Age and gene-dose dependent development of neurofibrillary tangles as early as 4.5 months in homozygotes and 6.5 months in heterozyotes. Tangles and Pick-body-like inclusions in the amygdala, hypothalamus, pons, medulla, and spinal cord among other areas. Neuronal loss, especially in the spinal cord.

By 10 months, 90% developed motor and behavioral disturbances including limb weakness, hunched posture, decrease in grooming and vocalization.

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Kif21b*T82T/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Kif21b, APOE, Trem2 TREM2 R47H Kif21b: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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MAPT(H1.0)-GR

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT, MAPT-AS1, Mapt MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Unknown.

Unknown.

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MAPT(H2.1)-GR

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT, MAPT-AS1, Mapt MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Unknown.

Unknown.

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MAPT knock-in

Observed
Absent
  • Plaques at

    No amyloid plaques at 24 months of age.

  • Tangles at

    No neurofibrillary tangles at 24 months of age.

  • Neuronal Loss at

    Neurodegeneration not apparent up to 2 years of age.

  • Gliosis at

    No astrogliosis or microgliosis observed at 24 months.

  • Cognitive Impairment at

    At 12 months of age, MAPT knock-in mice perform similarly to wild-type mice in the Y-maze test of working memory (only males tested).

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Knock-In Alzheimer's Disease, Other Tauopathy

No evidence of increased neuroinflammation, neuronal death, or brain atrophy in MAPT knock-in mice, compared with wild-type mice.

MAPT knock-in mice perform similarly to wild-type mice in the Y-maze test of working memory.

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Mthfr*C677T/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Mthfr, APOE, Trem2 TREM2 R47H Mthfr: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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mThy-1 3R Tau (line 13)

Observed
  1. X
    Tangles at 34

    Pick-body like inclusions of aggregated tau appeared in the hippocampus and cortex by 8-10 months. Inclusions were positive for Bielchowsky silver stain but negative for Gallyas-silver stain and Thioflavin-S.

  2. X
    Neuronal Loss at 34

    Neuronal loss occurred by 8-10 months as evidenced by decreased NeuN staining in the dentate gyrus and CA3 regions of the hippocampus. Neocortical volume also decreased.

  3. X
    Gliosis at 35

    Astrogliosis was seen by 8-10 months in the neocortex and hippocampus. Some GFAP+ astrocytes also contained 3R tau.

  4. X
    Cognitive Impairment at 26

    By 6-8 months memory impairment was evident as a failure to habituate to a novel environment. This deficit was not present at 3-4 months. At 8-10 months, transgenics also took longer than wild-type mice to find the hidden platform in the Morris water maze.

Absent
  • Plaques at

    Absent.

No Data
  • Synaptic Loss at

    Synapto-dendritic damage manifested as reduced dendritic density, reduced MAP2 immunoreactivity, and accumulation of 3R tau in dendrites.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT L266V, MAPT G272V MAPT: Transgenic Frontotemporal Dementia, Pick's disease, Alzheimer's Disease

Accumulation of 3R tau in neurons of the cortex and hippocampus. Pick body-like tau aggregates and neuronal loss in the hippocampus and cortex. Astrogliosis, with some 3R tau in GFAP-positive astrocytes. Synapto-dendritic changes and mitochondrial pathology.

Age-related memory and motor deficits as assessed by habituation to a novel environment, the Morris water maze, and the round beam test.

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mThy1-hAPP751 (TASD41)

Observed
  1. X
    Plaques at 13

    Plaques start at 3-6 months in the frontal cortex and become widespread with age, affecting the piriform and olfactory cortices, hippocampus, and thalamus (Rockenstein et al., 2001; Havas et al., 2011).

  2. X
    Gliosis at 27

    Inflammation related to activated microglia (increased CD11) and reactive astrocytes (increased GFAP) is significant by 6 months and increases with age.

  3. X
    Synaptic Loss at 52

    Dystrophic neurites and synaptic loss starting at 12 months.

  4. X
    Cognitive Impairment at 26

    Cognitive impairment observed by 6 months by Morris Water Maze (Rockenstein et al., 2005).

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

No Data
  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717I (London) APP: Transgenic Alzheimer's Disease

Age-dependent increases in Aβ40 and Aβ42, with Aβ42 > Aβ40. Plaques at an early age, starting at 3-6 months in the frontal cortex. At 5-7 months, size and number of plaques increased in the frontal cortex, and dense amyloid deposits appear in hippocampous, thalamus, and olfactory region.

Age-associated impairment in spatial memory and learning in the water maze task and habituation in the hole-board task, with significant deficits at 6 months of age. Some gender-specific differences in open field exploration.

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NSE-ApoE3

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Transgenic Alzheimer's Disease

Human ApoE3 protected against the age-dependent neurodegeneration seen in APOE -/- mice.

Unknown.

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NSE-ApoE4

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE APOE: Transgenic Alzheimer's Disease

Not observed.

NSE-ApoE4 mice showed impairments in learning a water maze task and in vertical exploratory behavior that increased with age and seen primarily in females.

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NSE-APP751

Observed
  1. X
    Plaques at 8

    Aβ deposits were observed as early as two months of age. These deposits were diffuse and extracellular and had a “cotton-like” appearance. Classic mature plaques were not observed.

  2. X
    Gliosis at 95

    Gliosis was noted in a single 22-month-old animal with extensive Aβ deposits (Higgins et al., 1994).

  3. X
    Cognitive Impairment at 52

    Deficits in spatial memory and learning appear as the mice age. At 12 months the mice demonstrate learning and memory deficits as measured by a water-maze task and in spontaneous alternation in a Y maze (Moran et al., 1995). At six months cognition is largely normal.

Absent
  • Tangles at

    Classic tangles were not observed, but aberrant tau immunoreactivity was observed as early as two months.

  • Neuronal Loss at

    Cell death was not formally assessed, however, overt neuronal death was not seen.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Transgenic Alzheimer's Disease

Age-dependent increase in Aβ deposits and tau immunoreactivity.

Learning and memory deficits are age-dependent as assessed on spontaneous alternation in a Y maze and in the water-maze task.

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NSE-hPS2(N141I)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN2 PSEN2 N141I PSEN2: Transgenic Alzheimer's Disease

Not observed.

Behavioral deficits in the water maze at 12 months in mice expressing mutatnt as well as wild-type PSEN2, including longer escape latencies than wild-type mice, but no difference in swimming speed.

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PA-Rab5

Observed
  1. X
    Neuronal Loss at 28

    Loss of basal forebrain cholinergic neurons, beginning at 7 months.

  2. X
    Synaptic Loss at 34

    Loss of spines in CA3 and dentate gyrus regions of the hippocampus, observed in 8.5-month-old mice.

  3. X
    Changes in LTP/LTD at 24

    Pronounced defect in LTD and slight impairment in LTD at Schaffer collateral-CA1 synapses in hippocampal slices from 6-month-old mice.

  4. X
    Cognitive Impairment at 24

    When tested at 6 months of age, the performance of PA-Rab5 mice differed from wild-type controls in a novel object recognition test.

Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Gliosis at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
RAB5A RAB5A: Transgenic Alzheimer's Disease

Enlarged Rab5-positive endosomes, tau hyperphosphorylation, synapse loss in hippocampus, and loss of basal forebrain cholinergic neurons.

When tested at 6 months of age, the performance of PA-Rab5 mice differed from wild-type controls in a novel object recognition test.

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PDAPP(line109)

Observed
  1. X
    Plaques at 26

    In heterozygous mice no plaque pathology at 4-6 months. At 6-9 months mice begin to exhibit deposits of human Aβ in the hippocampus, corpus callosum, and cerebral cortex. Plaques become more extensive with age and vary in size and structure including diffuse irregular plaques and compact cored plaques (Games et al., 1995).

  2. X
    Gliosis at 26

    GFAP-positive astrocytes and activated microglia associated with plaques (Games et al., 1995).

  3. X
    Synaptic Loss at 35

    Decreased synaptic density in the dentate gyrus as measured by synaptophysin immunoreactivity. Also decreased dendritic density as measured by MAP2 immunoreactivity (Games et al., 1995).

  4. X
    Changes in LTP/LTD at 17

    Alterations in LTP induced by theta burst stimulation at 4-5 months which is prior to plaque formation; although the potentiation immediately after TBS was comparable to control mice, the potentiation decayed more rapidly in PDAPP mice. Also paired pulse facilitation was enhanced. Responses to high frequency stimulation bursts were distorted (Larson et al., 1999).

  5. X
    Cognitive Impairment at 13

    Deficits in a variety of memory paradigms from a young age. Robust deficits in the radial arm maze at 3 months (deficits appear before amyloid plaque deposits). Object recognition, 6, 9-10 months. Operant learning, 3, 6 months (Dodart et al., 1999).

Absent
  • Tangles at

    No paired helical filaments or aggregates, but phosphorylated tau immunoreactivity is observed in dystrophic neurites after 14 months (Masliah et al., 2001).

  • Neuronal Loss at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

Amyloid plaques in the hippocampus, cerebral cortex. Gliosis. Dystrophic neurites. Decreased synaptic and dendritic density in the hippocampus.

Deficits in a variety of memory paradigms from a young age. Deficits in the radial arm maze at 3 months (before plaques), object recognition, operant learning, spatial reference memory (starting at 3-4 months), cued fear conditioning at 11 months.

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PDGF-APPSw,Ind (line J9)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

Amyloid plaques at 8-10 months, but not at 2-4 months when deficits in synaptic transmission are observed. Approximately 20% of mice had plaques at 5-7 months, 50% at 8-10 months, and 100% by 21-25 months.

Unknown.

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PDGF-APP(WT) (line I5)

Observed
  1. X
    Synaptic Loss at 9

    By 2-4 months of age, there is a decrease in synaptophysin-immunoreactive presynaptic terminals compared to nonTg controls. Synaptophysin immunoreactivity decreases further with age.

Absent
  • Tangles at

    Not observed.

  • Neuronal Loss at

    Not observed.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Transgenic Alzheimer's Disease

Expression of human APP in the brain especially in the neocortex and hippocampus. No plaques up to 24 months.

Unknown.

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PLB1-triple (hAPP/hTau/hPS1)

Observed
  1. X
    Gliosis at 52

    Increased inflammation (GFAP labelling) detected at 12 months in cortex and hippocampus (Platt, unpublished observation).

  2. X
    Changes in LTP/LTD at 26

    Impairments in long-term and short-term hippocampal plasticity. LTP following theta-burst stimulation decayed faster and paired-pulse facilitation was reduced relative to wild-type mice at both six and 12 months of age. Synaptic transmission impacted at 12 months.

  3. X
    Cognitive Impairment at 22

    Social recognition memory was impaired by five months and further impaired by 12 months. Similarly, object recognition memory was impaired by eight months. Spatial learning impairments were seen later; at 12 months deficits in spatial acquisition learning were seen in the open field water maze that were not apparent at 5 months.

Absent
  • Plaques at

    Sparse plaques out to 21 months of age. Only marginally increased compared with wild-types and overall very low compared to over-expression models. However, Aβ accumulated intracellularly and also formed oligomers.

  • Tangles at

    No overt tangle pathology; however, hyyperphosphorylated tau accumulated in the hippocampus and cortex from six months of age.

  • Neuronal Loss at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, MAPT, PSEN1 APP V717I (London), APP K670_M671delinsNL (Swedish), PSEN1 A246E, MAPT P301L, MAPT R406W APP: Multi-transgene; MAPT: Multi-transgene; PSEN1: Multi-transgene Alzheimer's Disease

Age-related neuropathology including intraneuronal and oligomeric Aβ accumulation and hyperphosphorylated tau in the hippocampus and cortex from six months. Minimal amyloid plaques up to 21 months. Subtle tau pathology, but no overt tangles. Cortical hypometabolism with increased metabolic activity in basal forebrain and ventral midbrain by FDG-PET/CT.

Cognitive deficits in recognition memory and spatial learning emerging between five and 12 months. Impairments in hippocampal plasticity.

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PLB4 (hBACE1)

Observed
  1. X
    Gliosis at 52

    Increased GFAP-positive astrocytes at 12 months of age in the dentate gyrus, CA1 region of the hippocampus, and the piriform cortex. Gliosis is suspected to begin earlier than 12 months.

  2. X
    Cognitive Impairment at 13

    Impaired spatial representation in a habituation task by 3 months of age. By 6 months, impaired learning and memory by a variety of tasks including the Y-maze, Morris water maze, and a test of the social transmission of food preference. These effects appear to be distinct from reduced motor activity and reduced anxiety.

Absent
  • Plaques at

    Plaques virtually absent, minimal small sparse plaques. However, prominent extracellular Aβ staining surrounding neuronal cell bodies, including Aβ multimers (e.g. Aβ*56 and Aβ hexamers).

  • Tangles at

    Preliminary analysis did not find abnormal phosphorylation or conformational changes in tau.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
BACE1 BACE1: Transgenic Alzheimer's Disease

Elevated extracellular multimeric Aβ, including Aβ*56 and Aβ hexamers, in the absence of plaques. At 12 months of age, astrogliosis was observed in a region- and genotype-dependent manner, especially in the dentate gyrus, hippocampal CA1, and piriform cortex. No overt tau pathology.

Largely intact motor coordination and gait (Rotarod, CatWalk). Age-associated changes in multiple measures of learning and memory. Early deficits in habituation to a novel environment and semantic-like memory (three-four months). Impaired spatial learning and long-term reference (Morris water maze) and working memory (Y-maze) at six months, distinct from reduced locomotor activity and anxiety.

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Plcγ2-P522R knock-in

Observed
  1. X
    Gliosis at 24

    Astrogliosis revealed by GFAP immunohistochemistry in 6-month-old males. Microglial activation revealed by TSPO PET imaging in year-old females.

Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Plcg2 Plcg2: Knock-In Alzheimer's Disease, Dementia with Lewy Bodies, Frontotemporal Dementia

Hypertrophic astrocytes in the hippocampi, revealed by GFAP immunohistochemistry. Microglial activation revealed by TSPO PET imaging.

Unknown.

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Plcg2 KO

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Plcg2 Plcg2: Knock-Out Alzheimer's Disease

Unknown.

Unknown.

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Plcg2*M28L/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, Plcg2, Trem2 TREM2 R47H APOE: Knock-In; Plcg2: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Plcg2*M28L x 5xFAD

Observed
  1. X
    Plaques at 30

    Diffuse and compact amyloid plaques observed in mice studied at 7.5 months of age. Higher plaque burdens than 5xFAD.

  2. X
    Gliosis at 31

    Microgliosis observed in mice studied at 7.5 months of age.

  3. X
    Synaptic Loss at 32

    Decreased basal synaptic transmission, lower frequencies and amplitudes of spontaneous excitatory postsynaptic currents and spontaneous inhibitory postsynaptic currents recorded in hippocampal CA1 region, compared with wild-type mice.

  4. X
    Changes in LTP/LTD at 33

    Impaired LTP at Schaffer collateral-CA1 synapses, compared with wild-type.

  5. X
    Cognitive Impairment at 24

    Deficits in working memory (decreased spontaneous alternation in the Y-maze), compared with wild-type.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Plcg2, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V Plcg2: Knock-In; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Plaque burdens in the cortex and subiculum were elevated in 5xFADM28L mice but microglia showed less interaction with plaques, compared with 5xFAD.

Six-month-old 5xFADM28L and 5xFAD mice showed similar deficits in working memory, assessed in the Y-maze.

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Plcg2*P522R

Observed
  1. X
    Gliosis at 24

    Plcg2*P522R knock-in mice had a slightly higher density of Iba1-positive microglia than wild-type mice. Microglia in the knock-in animals were simpler in shape—with less ramified processes—and contained a greater density of puncta immunoreactive for the lysosomal marker CD68, compared with wild-type microglia.

Absent
  • Synaptic Loss at

    Synapse number in hippocampal CA1—assessed as the density of puncta immunoreactive for the presynaptic marker bassoon or the postsynaptic marker PSD95—did not differ between Plcg2*P522R and wild-type mice. However, a slight decrease in the number of thin spines was observed in mutation carriers, while numbers of stubby and mushroom spines did not differ between the genotypes.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Plcg2 Plcg2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Plcg2*P522R x 5xFAD

Observed
  1. X
    Plaques at 30

    Diffuse and compact amyloid plaques observed in mice studied at 7.5 months of age. Lower plaque burdens than 5xFAD.

  2. X
    Gliosis at 31

    Microgliosis observed in mice studied at 7.5 months of age.

Absent
  • Synaptic Loss at

    No deficits in synaptic transmission—including basal synaptic transmission, frequencies and amplitudes of spontaneous excitatory postsynaptic currents and spontaneous inhibitory postsynaptic currents, and AMPA/NMDA current ratios—recorded in hippocampal CA1 region of 7.5-month-old mice.

  • Changes in LTP/LTD at

    Normal LTP at Schaffer collateral-CA1 synapses at 7.5 months of age.

  • Cognitive Impairment at

    Normal working memory (spontaneous alternation in the Y-maze) at 6 months of age.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Plcg2, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V Plcg2: Knock-In; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Plaque burdens in the cortex and subiculum were lower in 5xFADP522R mice and microglia showed increased interaction with plaques, compared with 5xFAD.

The PLCγ2 P522R variant protected against deficits in the Y-maze test of working memory in 5xFAD mice.

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Plcg2*P522R x APP NL-G-F

Observed
  1. X
    Plaques at 24

    ThioflavinS-positive amyloid plaques observed in mice studied at 6 months of age. Higher plaque burdens than APPNL-G-F.

  2. X
    Gliosis at 24

    Microgliosis observed in mice studied at 6 months of age. Attenuated microglia-plaque interactions in the hippocampus, compared with APPNL-G-F.

Absent
  • Synaptic Loss at

    The P522R variant attenuated the synapse loss observed in APPNL-G-F mice with wild-type PLCγ2.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Plcg2, App APP K670_M671delinsNL (Swedish), APP I716F (Iberian), APP E693G (Arctic) Plcg2: Knock-In; App: Knock-In Alzheimer's Disease

Sex- and region-dependent increases in plaque burden, and decreases in microglia-plaque interactions, in Plcg2*P552R x APPNL-G-F mice, compared with APPNL-G-F.

Unknown.

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Prnp-APP

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Transgenic Alzheimer's Disease

Unknown.

Unknown.

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PS19 with humanized TREM2 (common variant)

Observed
  1. X
    Tangles at 37

    Tangles revealed using antibody PG5 at 9 months.

  2. X
    Neuronal Loss at 38

    At 9 months, atrophy of hippocampus and entorhinal/piriform cortex and pronounced ventricular expansion. Thinning of the granule cell layer of the dentate gyrus and pyramidal cell layer of the piriform cortex, compared with PS19 mice carrying TREM2-R47H.

  3. X
    Gliosis at 39

    Elevated expression of markers of astroglial and microglial reactivity, compared with PS19 mice carrying the R47H variant of TREM2.

  4. X
    Synaptic Loss at 40

    Fewer synapses and more dystrophic synapses, compared with PS19 mice carrying the R47H variant of TREM2.

Absent
No Data
  • Plaques at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT, TREM2, Trem2 MAPT P301S MAPT: Transgenic; TREM2: Transgenic; Trem2: Knock-Out Alzheimer's Disease, Frontotemporal Dementia

Brain atrophy by 9 months of age. Increased microgliosis, astrogliosis and synapse loss, compared with PS19 mice carrying TREM2 with the R47H mutation.

Not known.

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PS19 with humanized TREM2 (R47H)

Observed
  1. X
    Tangles at 36

    Tangles revealed using antibody PG5 at 9 months.

Absent
No Data
  • Plaques at

    No data.

  • Neuronal Loss at

    No data relative to wild-type mice, but at 9 months of age, the volumes of the hippocampus and entorhinal/piriform cortex are larger, and the granule cell layer of the dentate gyrus and pyramidal cell layer of the piriform cortex are thicker, in PS19-TREM2R47H mice, compared with PS19 mice carrying the common variant of human TREM2.

  • Gliosis at

    At 9 months of age, decreased expression of markers of astroglial and microglial reactivity, compared with PS19 mice carrying the common variant of TREM2, but no data relative to wild-type mice.

  • Synaptic Loss at

    At 9 months of age, more synapses and fewer dystrophic synapses, compared with PS19 mice carrying the common variant of TREM2, but no data relative to wild-type mice.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT, TREM2, Trem2 MAPT P301S, TREM2 R47H MAPT: Transgenic; TREM2: Transgenic; Trem2: Knock-Out Alzheimer's Disease, Frontotemporal Dementia

Decreased brain atrophy, microgliosis, astrogliosis, and synapse loss, compared with PS19 mice carrying the common variant of TREM2.

Not known.

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PS1(A246E)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 A246E PSEN1: Transgenic Alzheimer's Disease

Histologically normal up to 2 years old by hematoxylin-eosin, silver, and thioflavin-S staining.

Learning and spatial memory were unaffected in the water maze test. Neither the escape latency nor escape pathway was different from PSEN1 wild-type mice at 1 and 9 months of age.

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PS1 conditional Knock-out

Observed
  1. X
    Cognitive Impairment at 22

    Mild impairment of spatial learning and memory in the Morris water maze observed in 5 month-old mice (Yu et al., 2001).

Absent
  • Plaques at

    Absent.

  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

  • Changes in LTP/LTD at

    Mice at 3-6 months of age exhibit normal paired-pulse facilitation, LTP, and LTD in the Schaffer collateral pathway of the hippocampus (Yu et al., 2001).

No Data
  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1: Conditional Knock-out Alzheimer's Disease

Reduction in Aβ40 and Aβ42 peptides; accumulation of APP C-terminal fragments.

Subtle but significant deficits in long-term spatial memory in the Morris water maze.

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PS1(M146L)

Observed
  1. X
    Changes in LTP/LTD at 4

    An increase in synaptic (EPSP) potentiation was observed in CA1 stratum radiatum by stimulation of CA3, in hippocampal slices from 4 to 6 week old animals (Barrow et al., 2000).

Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 M146L (A>C) PSEN1: Transgenic Alzheimer's Disease

No abnormal pathology up to 2.5 years. Elevated Aβ2(43); no effect on Aβ40. Altered mitochondrial activity. Disregulation of calcium homeostasis.

No difference from wild-type mice in the “Y” maze (alternation performance or activity) at 12-14 weeks.

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PS1(M146V)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 M146V PSEN1: Transgenic Alzheimer's Disease

No abnormal neuropathology up to 2.5 years. Elevated Aβ42(43). Altered mitochondrial activity and disregulation of calcium homeostasis.

Unknown.

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PS1 P264L

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 P264L PSEN1: Knock-In Alzheimer's Disease

Not observed.

Unknown.

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PS2APP

Observed
  1. X
    Plaques at 26

    Age-associated development of plaques: none at 3 months, overt Aβ deposition at approximately 6 months, with heavy plaque load in the hippocampus, frontal cortex, and subiculum at 10 months (Ozmen et al., 2009; Weidensteiner et al. 2009).

  2. X
    Gliosis at 26

    Gliosis at 6 months (personal communication, Laurence Ozmen).

  3. X
    Changes in LTP/LTD at 43

    A strong increase in LTP and post-tetanic potentiation induced by tetanic stimulation in hippocampal slices of 10 month-old animals compared to wild-type mice (Poirier et al., 2010).

  4. X
    Cognitive Impairment at 35

    Cognitive impairment is detected by the Morris water maze (probe trial 2) at 8 and 12 months of age, not at 3 months (personal communication Laurence Ozmen).

Absent
  • Tangles at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN2 APP K670_M671delinsNL (Swedish), PSEN2 N141I APP: Transgenic; PSEN2: Transgenic Alzheimer's Disease

Age-associated development of plaques: none at 3 months, overt Aβ deposition in the brain at approximately 6 months, with heavy plaque load in the hippocampus, frontal cortex, and subiculum at 10 months. Aβ deposits in blood vessels were sporadic, mainly in large vessels. Cerebral amyloid deposits correlate with levels of the human APP transcript at 12 months.

Cognitive impariment detected by the Morris water maze at 8 and 12 months of age, but not at 3 months.

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PS2APP (PS2(N141I) x APPswe)

Observed
  1. X
    Plaques at 39

    Rare amyloid deposits at 5 months, with consistent deposits in the subiculum and frontolateral cortices by 9 months. Plaques increase in number and distribution over time, spreading throughout the neocortex and hippocampus as well as the amygdala and thalamic and pontine nuclei (Richards et al., 2003).

  2. X
    Gliosis at 39

    An inflammatory response indicated by the presence of activated microglia and astrocytes begins around 9 months. The onset, distribution, and abundance of activated microglia and astrocytes correlate with Aβ deposition.

  3. X
    Cognitive Impairment at 35

    Age-associated cognitive impairment from 8 months with impaired acquisition of spatial learning in the water maze (Richards et al., 2003).

Absent
  • Tangles at

    Absent.

  • Changes in LTP/LTD at

    No difference in LTP in the dentate gyrus at 3 and 10 months compared to wild-type mice (Richards et al., 2003).

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN2 APP K670_M671delinsNL (Swedish), PSEN2 N141I APP: Transgenic; PSEN2: Transgenic Alzheimer's Disease

Rare amyloid deposits at 5 months, with consistent deposits in the subiculum and frontolateral cortices by 9 months. Plaques increase in number and distribution with time, spreading throughout the neocortex and hippocampus as well as the amygdala and thalamic and pontine nuclei. The distribution and abundance of activated microglia and astrocytes correlate with Aβ deposition.

Mice develop age-associated cognitive impairment from 8 months with impaired acquisition of spatial learning in the water maze.

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PS2(N141I)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN2 PSEN2 N141I PSEN2: Transgenic Alzheimer's Disease

Unknown.

Unknown.

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PS/APP

Observed
  1. X
    Plaques at 26

    Large amounts of Aβ accumulate in the cerebral cortex and hippocampus, starting around 6 months and increasing with age. Other brain regions are affected later. Both diffuse and fibrillar plaques form (Gordon et al., 2002).

  2. X
    Neuronal Loss at 79

    Neuronal loss in the CA1 region of the hippocampus has been reported at 22 months accompanied by reduced glucose utilization (Sadowski et al., 2004).

  3. X
    Gliosis at 26

    GFAP-positive astrocytes appear first in the cortex in the vicinity of the developing Aβ deposits. Numbers increase with age, becoming confluent. Numbers of resting microglia (positive for complement receptor-3) increase in the vicinity of deposits at 6 months, but activated microglia (positive for MHC-II) are negligible before 12 months and more variable (Gordon et al., 2002).

  4. X
    Cognitive Impairment at 12

    Double and single transgenic mice had reduced spontaneous alternation performance in a “Y” maze, a test of spatial memory, at 12-14 weeks, before substantial Aβ deposition (Holcomb et al., 1998). Progressive age-related cognitive impairment is seen later in select tasks (e.g. water maze acquisition and radial arm water maze working memory)(Arendash et al., 2001).

Absent
  • Tangles at

    Neurofibrillary tangles are not associated with this model, but hyperphosphorylated tau is detected, starting at 24 weeks, appearing as punctate deposits near amyloid deposits in the cortex and hippocampus (Kurt et al., 2003).

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1 M146L (A>C) APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Aβ accumulates in the cerebral cortex and hippocampus starting ~6 months and increasing with age. Other regions affected later. Deposition occurs in white matter,  cerebrovasculature, and grey matter in the form of diffuse and fibrillar plaques. Fibrillar deposits are associated with dystrophic neurites and GFAP-positive astrocytes at ~ 6 months with later microglial activation.

Progressive impairment between 5–7 and 15–17 months in some tests of cognitive performance, but not others. No change in anxiety levels.

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PS cDKO

Observed
  1. X
    Neuronal Loss at 9

    Significant increase (about 8-fold) in apoptotic neurons at 2 months of age, although the total number of cortical neurons is not significantly altered due to the low basal level of apoptosis in the cerebral cortex. By 4 months of age, the cumulative loss of cortical neurons reaches about 9 percent of all cortical neurons.

  2. X
    Gliosis at 17

    Astrogliosis and microgliosis; up-regulation of GFAP and other inflammatory markers are observed in the neocortex and hippocampus at 6 months, and this increases with age (Wines-Samuelson et al., 2010, Beglopoulos et al., 2004). 

  3. X
    Synaptic Loss at 26

    Reduction in synaptophysin immunoreactivity in hippocampal CA1 pyramidal neurons by 6 months. Reduction in dendritic spines by 9 months (Saura et al., 2004).

  4. X
    Cognitive Impairment at 9

    Deficits in the Morris water maze and contextual fear conditioning are mild at 2 months, but become more severe with age (Saura et al., 2004). 

Absent
  • Plaques at

    Absent.

  • Tangles at

    Tangles are absent, but hyperphosphorylation of tau has been reported in 9 month-old mice.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1, PSEN2 PSEN1: Conditional Knock-out; PSEN2: Knock-Out Alzheimer's Disease

At 2 months the number of apoptotic neurons is elevated about 8-fold. By 6 months, about 18 percent of of cortical neurons are lost. Up-regulation of inflammatory markers and progressive astrogliosis and microgliosis in the neocortex and hippocampus.

Impairments in hippocampal learning and memory as indicated by Morris water maze and contextual fear conditioning evident by 2 months and worsens with age.

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PSEN1-flox

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1: Knock-Out Alzheimer's Disease

No morphological abnormalities. When crossed with Cre recombinase driven by Thy1, brain levels of Aβ40 and Aβ42 decrease and C-terminal fragments of APP accumulate.

When crossed with Cre recombinase driven by Thy1, no cognitive deficit in an object recognition task.

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PSEN1 Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1: Knock-Out Alzheimer's Disease

Impaired neurogenesis. Massive neuronal loss. Hemorrhages in the CNS.

Unknown.

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PSEN1(M146V) Knock-In

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 M146V PSEN1: Knock-In Alzheimer's Disease

Hypersensitive to kainate-induced degeneration and death of CA3, CA1 and hilar neurons. Cultured hippocampal neurons have increased vulnerability to death induced by glutamate. Disrupted calcium homeostasis. Increased oxidative stress and mitochondrial dysfunction.

Unknown.

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PSEN1(P117L) (line 13)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 P117L PSEN1: Transgenic Alzheimer's Disease

No plaques or diffuse amyloid deposits at 2-3 months. Elevated generation of Aβ42.

Unknown.

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PSEN1(WT)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1: Transgenic Alzheimer's Disease

No pathological changes have been observed in these mice.

Unknown.

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PSEN1-YAC (line G9)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 H163R PSEN1: Transgenic Alzheimer's Disease

Elevated Aβ42 in the brain and plasma. Higher levels and earlier Aβ deposition when crossed with APP YAC line R1.40.

Unknown.

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PSEN2 Knock-out

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN2 PSEN2: Knock-Out Alzheimer's Disease

No gross brain abnormalities or astrogliosis.

Unknown.

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PWK.APP/PS1

Observed
  1. X
    Plaques at 32

    Thioflavin S-positive amyloid plaques are present in the cortex and CA1 region of the hippocampus by 8 months of age, with females having more plaques in the cortex than males.

  2. X
    Gliosis at 33

    Plaque-associated microgliosis observed by 8 months.

Absent
  • Tangles at

    Not observed.

  • Neuronal Loss at

    Not observed.

  • Cognitive Impairment at

    Working memory and short-term memory were intact at 7 to 8 months, as assessed by tests in the Y-maze.

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques and plaque-associated gliosis by 8 months.

Transgenic mice are hyperactive and aggressive. Working memory and short-term memory are intact at 7 to 8 months, as assessed by tests in the Y-maze.

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rTg9191

Observed
  1. X
    Plaques at 35

    Plaques emerge first in the cerebral cortex, starting around 8 months of age. This is followed by plaques in the hippocampus at 10.5 to 12.5 months of age. Some dense core plaques develop.

  2. X
    Neuronal Loss at 9

    Expression of the tetracycline transactivator (tTA) resulted in reduced forebrain weight and smaller dentate gyri in rTg9191 mice compared to non-Tg littermates. This effect was also observed in mice expressing tTA alone, and is thought to be a developmental effect, as it was observed even in young mice (e.g., 2-6 months of age).

  3. X
    Gliosis at 104

    rTg9191 mice develop reactive gliosis (astrocytosis and microgliosis) in the vicinity of dense-core plaques by 24 months of age.

Absent
  • Tangles at

    Tangles are not observed, but hyperphosphorylated tau develops with age.

  • Cognitive Impairment at

    No transgene-related deficits seen in Morris water maze (4, 12, 21, 24 months of age) or fixed consecutive number test (23 months of age).

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717I (London) APP: Transgenic Alzheimer's Disease

Age-associated pathology in the cerebral cortex and hippocampus starting at 8 and 10½-12½ months of age, respectively. Gliosis and hyperphosphorylated tau in the vicinity of dense-core plaques. Fibrillar oligomeric species, e.g., Aβ dimers.

No transgene-related deficits seen in Morris water maze (4, 12, 21, 24, months of age) or fixed consecutive-number (23 months of age) tests.

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rTgTauEC

Observed
  1. X
    Tangles at 78

    By 18 months of age, Gallyas silver-positive staining is observed, indicative of paired helical filaments. This is followed by thioflavin-S staining at 24 months. Tau pathology develops first in neurons of the medial EC expressing human tau, followed by neurons in the dentate gyrus, CA1 and CA2/3(de Calignon et al., 2012).

  2. X
    Neuronal Loss at 83

    Neuronal loss is detectable by 24 months of age in areas with transgene expression (e.g. layer II of the EC and parasubiculum), compared with age-matched mice expressing only tTA. Significant neuronal loss was not observed at 21 months (de Calignon et al., 2012).

  3. X
    Gliosis at 104

    Microglial activation and astrogliosis by 24 months of age, in conjunction with axonal degeneration and neuronal loss (de Calignon et al., 2012).

  4. X
    Synaptic Loss at 104

    By 24 months of age pre- and post-synaptic densities were reduced in the middle third of the molecular layer of the dentate gyrus as measured by synapsin-1 and PSD-95 staining (de Calignon et al., 2012).

  5. X
    Changes in LTP/LTD at 70

    At 16 months of age, subtle differences in electrophysiological properties have been observed in the perforant pathway, including a decrease in LTP and an increase in the probability of neurotransmitter release (Polydoro et al., 2014).

  6. X
    Cognitive Impairment at 70

    Very mild and specific deficits in contextual fear conditioning at 16 months of age, but no deficits in the radial arm maze (Polydoro et al., 2014).

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301L MAPT: Transgenic Frontotemporal Dementia, Alzheimer's Disease

Propagating tau pathology starting in the entorhinal cortex and spreading to regions functionally connected to the EC (e.g., dentate gyrus). Neurodegeneration and axonal degeneration, first in EC and parasubiculum. Gliosis and synaptic loss.

Subtle cognitive deficit in contextual fear conditioning, but not in the radial arm maze, at 16 months. Mild specific deficit in locomotor activity in the open field test.

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rTg(tauP301L)4510

Observed
  1. X
    Tangles at 17

    Pretangles as early as 2.5 months. Argyrophilic tangle-like inclusions in cortex by 4 months and in hippocampus by 5.5 months.

  2. X
    Neuronal Loss at 24

    Decreased (~60%) CA1 hippocampal neurons by 5.5 months with significant loss in brain weight. Progressive loss of neurons and brain weight in 7 and 8.5 month mice with ~23% of CA1 pyramidal cells remaining at 8.5 months. Gross atrophy of the forebrain by 10 months.

  3. X
    Synaptic Loss at 35

    Significant loss of dendritic spines at 8-9 months (~30% decrease in spine density in somatosensory cortex).

  4. X
    Cognitive Impairment at 11

    Retention of spatial memory (Morris Water Maze) became impaired from 2.5 to 4 months. No significant motor impairments up to 6 months. Spatial memory improved when transgene suppressed by dox.

Absent
  • Plaques at

    Absent.

No Data
  • Changes in LTP/LTD at

    LTP at the Schaffer collateral-CA1 synapse is normal at 1.3 months, but impaired at 4.5 months.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301L MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

Argyrophilic tangle-like inclusions in cortex by 4 months and in hippocampus by 5.5 months. Decreased CA1 neurons (~60 percent) by 5.5 months. Gross forebrain atrophy by 10 months. The number of CA1 neurons stabilized after a brief (six to eight week) suppression of transgenic tau.

Spatial memory impairments by 2.5 to 4 months. No significant motor impairment up to 6 months of age. When the transgene was suppressed with dox at 2.5 months, spatial memory improved.

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Senescence Accelerated Mouse (SAMP8)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Spontaneous Alzheimer's Disease

Age-associated increase in hippocampal Aβ from 4 to 12 months, but no plaque-like structures by Congo red or thioflavine S. Spongiform degeneration: vacuoles of various size in the neuropil in the brain stem. Microglial cell proliferation. Degeneration of dopamine neurons in the substantia nigra and noradrenaline neurons in the locus coeruleus.

Age-associated behavioral impairments including learning and memory difficulties, emotional disorders (reduced anxiety-like behavior and depressive behavior) and altered circadian rhythms of spontaneous motor activity and drinking behaviours.

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Snx1*D465N/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Snx1, APOE, Trem2 TREM2 R47H Snx1: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Sorl1*A528T

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Sorl1 SORL1 A528T (SNP 13) Sorl1: Knock-In Alzheimer's Disease

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Sorl1*A528T/APOE4/Trem2*R47H

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Sorl1, APOE, Trem2 TREM2 R47H, SORL1 A528T (SNP 13), APOE C130R (ApoE4) Sorl1: Knock-In; APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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SORL1 transgenic (Cre-inducible)

Observed
Absent
  • Changes in LTP/LTD at

    LTP at Schaffer collateral-CA synapses was similar in hippocampal slices from 3-month-old Rosa26Tg/+ and wild-type mice. The application of Aβ oligomers impaired LTP in slices from wild-type mice but did not affect LTP in SORL1 transgenic mice.

  • Cognitive Impairment at

    Three-month-old Rosa26Tg/+ SORL1 transgenic mice performed similarly to wild-type mice in the acquisition and retention phases of the Morris Water Maze test. Hippocampal injection of Aβ oligomers prevented wild-type mice from learning the location of the escape platform but did not affect the performance of the transgenic mice.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
SORL1 SORL1: Transgenic Alzheimer's Disease

Unknown.

Normal performance in the Morris Water Maze.

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SORLA-deficient

Observed
Absent
  • Plaques at

    No amyloid plaques observed up to 10 months of age. When SORLA-deficient mice are crossed with APP transgenic models of amyloidosis, amyloid deposition is accelerated, compared with the parental APP transgenic line.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    Neuron loss was not seen in the substantia nigra and ventral tegmental areas, assessed at 5 weeks and 45 weeks. Data on neuron numbers are not available from other brain regions. Nigrostriatal connectivity appears to be disrupted in SORLA-deficient mice.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No differences in LTP were observed in hippocampal slices from 10- to 12-month-old Sorl1-/- mice and slices from littermates heterozygous for the Sorl1 deletion (Rohe et al., 2008). It is not known whether LTP in these genotypes differs from that of wild-type mice.

  • Cognitive Impairment at

    Compared with wild-type mice, SORLA-deficient mice exhibited more arm entries and more time spent in the open arms of the elevated plus maze—behaviors interpreted as evidence of hyperactivity and reduced anxiety. Hyperactivity was also noticed in the open field test.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Sorl1 Sorl1: Knock-Out Alzheimer's Disease

Mice do not generate amyloid plaques. Disrupted nigrostriatal connectivity and thinner inner nuclear layer of the retina.

Hyperactivity and reduced anxiety, compared with wild-type mice.

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TAS10 (thy1-APPswe)

Observed
  1. X
    Plaques at 52

    Fibrillar amyloid plaques develop by 12 months in the cortex and hippocampus.

  2. X
    Gliosis at 26

    Astrogliosis and microgliosis underway by 6 months of age in the dentate gyrus.

  3. X
    Synaptic Loss at 104

    TAS10 mice initially have more synapses than non-Tg mice; specifically, greater numbers of synapses per neuron were documented at 12 and 18 months of age. However, by 24 months of age, TAS10 mice have fewer synapses than non-Tg mice.

  4. X
    Cognitive Impairment at 26

    Deficits in spatial learning present by 6 months of age as measured by the Morris water maze. No difference from non-Tg at 2 months of age. Deficits in Y maze at 12 months. No deficit in fear conditioning up to 24 months of age.

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Qualitative difference in neuronal numbers at 24 months in specific regions of the hippocampus, but no significant neuronal loss.

  • Changes in LTP/LTD at

    At 12 to 14 months of age, deficits in basal synaptic transmission have been observed in the CA1 region, but short- and long-term synaptic plasticity are relatively normal (Brown et al., 2005).

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Age-related accumulation of Aβ in the hippocampus and cortex leading to plaque deposition by 12 months of age. Early gliosis and dystrophic neurites, not limited to the vicinity around plaques. Changes in synaptic morphology and number, along with increased number of lysosomes.

Deficits in spatial memory prior to Aβ deposition, including deficits in the Morris water maze by 6 months Deficits in spontaneous alternation behavior in the Y maze by 12 months. No deficit in fear conditioning.

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TASTPM (TAS10 x TPM)

Observed
  1. X
    Plaques at 26

    Aβ begins to deposit at 3 months of age, with fibrillar plaques evident by 6 months in the cerebral cortex and hippocampus. Some vascular amyloid is also observed. Plaque pathology is more severe in female mice.

  2. X
    Gliosis at 28

    Greater numbers of reactive astrocytes and microglia by 6 months of age in the hippocampus and cortex, predominantly near amyloid plaques.

  3. X
    Cognitive Impairment at 26

    Age-dependent impairment in object recognition memory starting around 6 months of age for both sexes. No impairment at 3 to 4 months of age.

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Minimal neuronal loss up to 10 months of age. Some signs of loss in the immediate vicinity of plaques in the hippocampus (Howlett et al., 2008).

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1 M146V APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Aβ deposits beginning at 3 months of age, with fibrillar plaques by 6 months in the cerebral cortex and hippocampus. Some vascular amyloid. Plaques surrounded by dystrophic neurites and reactive glia. No tangles or neuronal loss. Female mice have more rapid and severe amyloid pathology.

Age-dependent impairment in object recognition memory starting around 6 months of age. 

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Tau264

Observed
Absent
  • Plaques at

    Absent.

  • Tangles at

    Absent. Tau264 mice had no Gallyas silver-positive inclusions in the hippocampus or cerebral cortex even at 24 months of age.

  • Neuronal Loss at

    Tau264 transgenics had a comparable number of NeuN positive cells in the hippocampus and cerebral cortex as non-Tg mice, even at 24 months of age.

  • Gliosis at

    Tau264 transgenics had almost no GFAP-positive cells and only a few scattered Iba-1-positive cells in the hippocampus at 24 months of age. 

  • Synaptic Loss at

    Tau264 transgenics had a relatively constant and comparable synaptic density to non-Tg at 4 to 24 months of age.

  • Cognitive Impairment at

    Tau264 transgenic mice exhibit normal cognitive behavior in the Morris water maze c at four and six months of age compared with non-Tg mice.

No Data
  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

No overt neuropathology even at the advanced age of 24 months.

Comparable to non-Tg mice in Morris water maze tasks at 4 and 6 months of age.

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Tau35

Observed
  1. X
    Tangles at 35

    Abnormally phosphorylated tau detected at two months and by eight months tau was mislocalized and misfolded and dystrophic neurites were observed. Tangle-like structures observed in the hippocampus by 14 months.

  2. X
    Synaptic Loss at 61

    At 14 months synapsin1 protein levels were decreased but synaptophysin levels remained at wild-type levels.

  3. X
    Cognitive Impairment at 36

    In the Morris water maze, Tau35 had the same performance as wild-type animals at six months but developed progressive deficits by eight months. 

Absent
  • Gliosis at

    Gliosis was not observed at 14 months.

No Data
  • Plaques at

    Unknown.

  • Neuronal Loss at

    Cell death was not formally assessed, however, overt neuronal death was not seen in the hippocampus.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Transgenic Progressive Supranuclear Palsy, Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Progressive tau pathology in the hippocampus, including abnormally phosphorylated and misfolded tau, mislocalized tau, and tangle-like structures. Dystrophic neurites.

Impaired spatial learning and memory in the Morris water maze. Early motor impairments, including abnormal limb clasping, Rotarod deficits and decreased grip strength.

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Tau4RTg2652

Observed
  1. X
    Cognitive Impairment at 13

    Deficits in spatial learning and memory as indicated by performance in the Barnes maze at multiple time points (3, 6, 11 months of age).

Absent
  • Plaques at

    Absent.

  • Tangles at

    Absence of mature neurofibrillary tangles, but extensive pretangle pathology throughout the brain (e.g. phospho-tau).

  • Neuronal Loss at

    Absent.

No Data
  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Transgenic Frontotemporal Dementia, Other Tauopathy, Alzheimer's Disease

Extensive pretangle pathology throughout the brain (e.g. phospho- tau) but no mature neurofibrillary tangles and only mild oligomeric tau, restricted to the CA1 region of the hippocampus. Dystrophic neurites and axonal pathology (spheroids). No overt neuronal loss.

Motor deficits develop with age, including decreased grip strength and impaired Rotarod performance. Cognitive deficits, indicative of impaired spatial learning and memory, as assessed by the Barnes maze.

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Tau609 (Tau 10 + 16)

Observed
  1. X
    Tangles at 65

    Gallyas silver-positive intracellular inclusions of hyperphosphorylated tau aggregates in the entorhinal cortex at 15 months, and in the hippocampus and cerebral cortex at 24 months, but not at 18 months.

  2. X
    Neuronal Loss at 65

    Significant loss of NeuN-positive neurons in layer II of the entorhinal cortex at 15 months, and in the hippocampal CA1 region at 24 months, compared with non-Tg controls. No difference in the hippocampus at 18 months.

  3. X
    Gliosis at 52

    At 12 months of age, Iba1-positive cells are observed. GFAP is observed at 24 months of age.

  4. X
    Synaptic Loss at 28

    Reduced synaptic density at 6 months of age in select hippocampal areas compared to non-Tg mice and those expressing wild-type human tau. Densities in other areas were comparable until later ages (i.e., 24 months).

  5. X
    Changes in LTP/LTD at 26

    Some changes in basal synaptic transmission and significant impairment of LTP evident by 6 months of age in some regions of the hippocampus.

  6. X
    Cognitive Impairment at 26

    Deficits in spatial reference memory by 6 months of age as measured by the Morris water maze. No difference from non-Tg littermates at 4 months of age.

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT IVS10+16 C>T MAPT: Transgenic Frontotemporal Dementia, Alzheimer's Disease, Other Tauopathy

Aggregated tau in neurons of the entorhinal cortex, hippocampus, and cerebral cortex at advanced ages. Intraneuronal accumulation of tau oligomers in the hippocampus. Neuronal loss in the entorhinal cortex and hippocampus. Gliosis. Some hippocampal areas affected by age-related synaptic dysfunction and reduced synaptic density.

Impaired spatial reference memory as measured by the Morris water maze by 6 months of age. 

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TauA152T-AAV

Observed
  1. X
    Neuronal Loss at 10

    Neuron loss in cortex, seen at 3 months.

  2. X
    Gliosis at 11

    Astrogliosis, but not microgliosis, seen at 3 months.

  3. X
    Cognitive Impairment at 12

    Deficits in contextual and cued fear conditioning, seen at 3 months.

Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT A152T MAPT: Virus Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Neuron loss and astrogliosis were observed in the cortices of 3-month-old mice.

Compared with GFP-AAV controls, TauA152T-AAV mice showed deficits in contextual and cued fear conditioning, increased hyperactivity, and decreased rearing in the open-field test, and spent more time in the open arms of the elevated plus maze. TauA152T-AAV mice also exhibited motor impairment on the Rotarod.

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TauC3 (Transgenic caspase-cleaved tau)

Observed
  1. X
    Synaptic Loss at 6

    Reduced levels of synaptic proteins as early as 1.3 months, including synaptophysin. Further reductions in 3 and 6-month-old animals.

  2. X
    Cognitive Impairment at 6

    Learning and memory impairments as early as 1.3 months in several behavioral tests including the Y-maze, passive avoidance, and novel object recognition.

Absent
  • Plaques at

    Amyloid plaques were absent.

  • Tangles at

    Neurofibrillary tangles were not observed; however, hyperphosphorylated tau occurred early in the form of oligomers and aggregates.

  • Neuronal Loss at

    No significant neurodegeneration by 12 months of age.

  • Gliosis at

    No significant astrogliosis in the hippocampus or cortex by 12 months of age.

No Data
  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

No significant cell loss or astrogliosis in the brain. Age-dependent reduction in synaptic proteins (e.g. synaptophysin, PSD95) by 1.3 to 3 months of age. Hyperphosphorylated tau oligomers and aggregates.

Learning and memory deficits by 1.3 to 3 months of age, as assessed by the Y-maze and passive avoidance tests. No significant motor impairment.

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Tau Exon 10 Knock-out

Observed
Absent
  • Plaques at

    Absent.

  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

  • Gliosis at

    No apparent difference in GFAP staining at 12 months of age between E10+/-. E10+/+, and E10-/-.

  • Cognitive Impairment at

    No difference in spatial learning or memory ability at 9 to 10 months of age.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT: Knock-Out Alzheimer's Disease, Frontotemporal Dementia

No overt neuropathology at 12 months of age.

Age-dependent deterioration of sensorimotor functions, including coordination deficits on the Rotarod and a decrease in muscle strength. No deficits in learning or memory.

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TauΔK280 ("Proaggregation mutant")

Observed
  1. X
    Tangles at 104

    Mature tangles are observed only at advanced age (>24 months), but extensive pre-tangle pathology develops with as little as three months of transgene expression. This includes mislocalization of tau to the somatodendritic compartment, conformational changes indicative of aggregation, and hyperphosphorylation (e.g. Ser 262, Ser 356).

  2. X
    Synaptic Loss at 57

    Electron microscopy showed a moderate decrease in spine synapses in the CA1 region of the hippocampus following 13 months of gene expression.

  3. X
    Changes in LTP/LTD at 52

    Impaired hippocampal LTP in the CA1 and CA3 areas.

  4. X
    Cognitive Impairment at 70

    Cognitive deficits in the Morris water maze and in passive-avoidance paradigms.

Absent
  • Plaques at

    Absent.

  • Neuronal Loss at

    Absent.

No Data
  • Gliosis at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT K280del MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

Abundant pre-tangle pathology, but only rare mature tangles, and only at advanced ages. Tau pathology included mislocalization of tau to the somatodendritic compartment, aggregation, and hyperphosphorylation.

Unknown.

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Tau P301L

Observed
  1. X
    Tangles at 35

    Hyperphosphorylation, conformational changes, and aggregation of tau resulting in tangle-like pathology by 8 months.

  2. X
    Gliosis at 30

    Astrogliosis by 7 months.

  3. X
    Changes in LTP/LTD at 26

    Deficit in LTP in CA1 region of the hippocampus at 6 months, but enhanced LTP in the dentate gyrus at a young age (8-10 weeks).

  4. X
    Cognitive Impairment at 22

    Age-associated deficit in two cognitive tests that do not depend heavily on motor ability, the passive avoidance task (significant deficit starting at 5 months, but not 2 or 3 months of age) and a novel object recognition task (significant deficit at 9 months, but not at 2, 3, 5, or 7 months of age) (Maurin et al., 2014).

Absent
  • Plaques at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown at advanced age. Young mice (1-2 months) have a significantly higher spine maturation index than controls. At 4-6 months, the spine maturation index remains high in the hippocampus, but is reduced to control levels in the cortex. Note, these results were generated using the progeny of Tau P301L x transgenic Thy1-YFP (Kremer et al., 2011).

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301L MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

Pathologic hyperphosphorylation and conformational change of parenchymal tau in brain tissues starting at 7 months. Tangle-like pathology is mainly observed in the brain stem and spinal cord, and to a lesser extent in the midbrain and cerebral cortex. Age-dependent increase in total tau in CSF.

Age-associated deficits in a passive avoidance task (starting at 5 months) and a novel object recognition task (starting at 9 months). At a young age (~2 months) outperforms wild-type littermates in object recognition memory. Progressive motor impairment and reduced activity, accompanied by increased clasping of hind and then forelimbs around seven months.

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TauP301L-AAV

Observed
  1. X
    Tangles at 24

    Argyrophilic, Thioflavin S-positive neurofibrillary tangles in cortex and hippocampus.

  2. X
    Gliosis at 12

    Astrogliosis and microgliosis observed at 3 months.

  3. X
    Cognitive Impairment at 24

    Deficits in cued and contextual fear conditioning observed at 6 months.

Absent
  • Neuronal Loss at

    No cortical neuron loss at 6 months.

No Data
  • Plaques at

    No data.

  • Synaptic Loss at

    The accumulation of a PSD95 fragment suggests the possibility of synaptic abnormalities, although synaptic structure and function have not been assessed directly.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301L MAPT: Virus Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy

Neurofibrillary tangles and gliosis, but no cortical neuron loss, at 6 months of age.

Hyperactivity in the open field, decreased time spent in the center of open field, more time spent in the open arms of the elevated plus maze, and deficits in cued and contextual fear conditioning at 6 months of age.

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Tau P301S (Line PS19)

Observed
  1. X
    Tangles at 23

    Neurofibrillary tangles in the neocortex, amygdala, hippocampus, brain stem and spinal cord at six months with progressive accumulation (Yoshiyama et al., 2007).

  2. X
    Neuronal Loss at 39

    Neuron loss in the hippocampus and entorhinal cortex by nine to12 months, as well as in the amygdala and neocortex becoming more severe by 12 months (Yoshiyama et al., 2007).

  3. X
    Gliosis at 11

    Microgliosis at three months, especially in the white matter of the brain and spinal cord. Increased microgliosis by six months in white and gray matter of the hippocampus, amygdala, entorhinal cortex, and spinal cord. Microglial activation precedes astrogliosis (Yoshiyama et al., 2007).

  4. X
    Synaptic Loss at 13

    Synaptophysin immunoreactivity decreased progressively from three to six months in the CA3 region of the hippocamus. Impaired synaptic function (Yoshiyama et al., 2007).

  5. X
    Changes in LTP/LTD at 26

    Reduced LTP in the CA1 region of the hippocampus at six months. Altered basal synaptic transmission (smaller fiber volley amplitude, fEPSP slopes, and amplitudes) (Yoshiyama et al., 2007). Impaired hippocampal LTP as measured in freely moving mice (Lasagna-Reeves, 2016).

  6. X
    Cognitive Impairment at 27

    Impairments in spatial learning and memory ability in the Morris water maze in six-month-old animals (Takeuchi et al., 2011). Impaired memory in assays of contextual fear conditioning (Lasagna-Reeves 2016).

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT P301S MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

Neuron loss and brain atrophy by eight to 12 months, especially in the hippocampus and spreading to the neocortex and entorhinal cortex. Neurofibrillary tangles in the neocortex, amygdala, hippocampus, brain stem, and spinal cord. Neuroinflammation with microgliosis and astrocytosis.

Impairments in spatial memory and learning ability in Morris water maze. Paralysis at seven to 10 months associated with a hunched-back posture followed by feeding difficulties. About 80 percent mortality by 12 months with median survival of about nine months.

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TauPS2APP

Observed
  1. X
    Plaques at 17

    Rare amyloid plaques at 4 months, plaques become more abundant with age. By 8 months the number of amyloid plaques increases considerably in the subiculum and the CA1 region of the hippocampus (Grueninger et al., 2010).

  2. X
    Tangles at 70

    Abnormally phosphorylated tau is detectable at 4 months in both TauPS2APP and tau single transgenic mice especially in the subiculum, amygdala, and the CA1 region of the hippocampus. Tau pathology increases with age with numerous tangle-like deposits in the hippocampus confirmed by Gallyas silver staining at 16 months (Grueninger et al., 2010).

  3. X
    Cognitive Impairment at 17

    Impairment is not age-associated and does not progress from age 4 months to 12 months (Grueninger et al., 2010).

Absent
  • Neuronal Loss at

    No overt neuronal loss in the hippocampus at 16 months (Grueninger et al., 2010).

No Data
  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, MAPT, PSEN2 APP K670_M671delinsNL (Swedish), MAPT P301L, PSEN2 N141I APP: Transgenic; MAPT: Transgenic; PSEN2: Transgenic Alzheimer's Disease

Phosphorylated tau accumulation in the subiculum and the CA1 region of the hippocampus at 4 months. Neurofibrillary tangles in these regions as well as the amygdala. Amyloid plaques. Dystrophic neurites and neuropil threads containing abnormally phosphorylated tau. No overt neuronal loss.

Impaired spatial learning in the Morris water maze at 4 months but impairment is not progressive between 4 and 12 months and appears to be independent of pathology.

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Tau R406W transgenic

Observed
  1. X
    Tangles at 78

    Congophilic tau inclusions in a subset of forebrain neurons around 18 months of age. Detected by Congo red, thioflavin S, and Gallyas silver stain.

  2. X
    Cognitive Impairment at 70

    Impairments in the contextual and cued fear conditioning test at 16–23 months compared with wild-type littermates. No detectable sensorimotor deficits.

Absent
  • Plaques at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT R406W MAPT: Transgenic Frontotemporal Dementia, Alzheimer's Disease

Argyrophilic and congophilic tau inclusions in neurons of the forebrain with age. Detectable with Congo red, thioflavin-S and Gallyas silver stain. Congophilic tau inclusions also in the hippocampus and amygdala. Mainly straight tau filaments.

Impairments in contextual and cued fear conditioning at 16–23 months compared with wild-type littermates. No detectable sensorimotor deficits.

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TauRDΔK280 (“Proaggregation mutant”)

Observed
  1. X
    Tangles at 9

    Tau tangles and aggregates with as little as 2-3 months of transgene expression. Tangles start in the entorhinal cortex and amygdala and spread to the neocortex by 15 months. Heterogeneous tangle morphology, including flame-shaped.

  2. X
    Neuronal Loss at 22

    Neuronal loss in the dentate gyrus (granule neurons) following 5 months of transgene expression. Shrinkage of the molecular layer of the hippocampus.

  3. X
    Gliosis at 91

    Astrogliosis in the hilus region of the hippocampus after 21 months of transgene expression. Additional increases in GFAP-positive astrocytes in the entorhinal and piriform cortices.

  4. X
    Synaptic Loss at 41

    Hippocampal synaptic loss as indicated by multiple measures following 9.5 months of transgene expression. Reduced synaptophysin immunoreactivity and reduced number of spine synapses as measured by electron microscopy.

  5. X
    Changes in LTP/LTD at 43

    Multiple deficits in synaptic plasticity, including deficits in LTP and LTD, after 10 months of transgene expression. Functional changes are associated with structural synaptic changes, local calcium dysregulation, and a decrease in the synaptic vesicle pool.

  6. X
    Cognitive Impairment at 43

    Learning and memory impairments are apparent after 10 months of transgene expression as assessed by the Morris water maze and passive avoidance tasks.

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT K280del MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

Tau aggregates and tangles as early as 2-3 months after gene expression. Gallyas silver-positive neurons abundant in the entorhinal cortex and amygdala, spreading to the neocortex by 15 months. “Ballooned” neurons. Astrogliosis. Synaptic structural changes and reduced synaptic number. Hippocampal neuronal loss.

Reversible learning and memory deficits in the Morris water maze and passive avoidance test. No significant motor deficit, although slight reduction in Rotarod performance.

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Tau V337M

Observed
  1. X
    Tangles at 48

    Fibrillar staining in the hippocampus of 11 month old animals by Congo red birefringence. Absent in 4 month old mice, indicating the formation of these neurofilament-like structures occurs between 4 and 11 months (Tanemura et al., 2001).

  2. X
    Neuronal Loss at 43

    Evidence of hippocampal neuronal degeneration in 10 month old animals: irregularly shaped neurons with tau pathology that stained with propidium iodide. As characteristics of apoptosis were not observed, the neurons were thought to be undergoing non-apoptotic atrophic degeneration (Tanemura et al., 2002).

  3. X
    Changes in LTP/LTD at 65

    In hippocampal slices there was an attenuation of the amplitude of Schaffer collateral evoked hippocampal depolarization (Tanemura et al., 2002).

  4. X
    Cognitive Impairment at 48

    Behavioral abnormalities measured in 11 month-old mice. They spent more time in the open arms of the elevated plus maze and had greater overall locomoter activity. No differences in the Morris water maze compared with non-transgenic mice, suggesting the transgenic animals retain spatial recognition abilities (Tanemura et al., 2002).

Absent
  • Plaques at

    Absent.

No Data
  • Gliosis at

    Unknown.

  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT V337M MAPT: Transgenic Alzheimer's Disease, Frontotemporal Dementia

SDS-insoluble tau aggregates in hippocampus. Degenerating neurons in the hippocampus containing phosphorylated and ubiquitinated tau aggregates with β-sheet structure.

Higher overall spontaneous locomotion than non-transgenic littermates in elevated plus maze. No differences in the Morris water maze.

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TBA42

Observed
  1. X
    Plaques at 52

    Very rare extracellular Aβ deposits.

  2. X
    Neuronal Loss at 52

    Age-dependent neuronal loss in the CA1 region of the hippocampus. No difference from wild-type mice at 3 and 6 months of age, but approximately 35% loss at 12 months of age.

  3. X
    Gliosis at 52

    Marked gliosis in the hippocampus as measured by GFAP staining at 12 months.

  4. X
    Cognitive Impairment at 54

    Age-dependent deficits in working and spatial reference memory at 12 months, but not at 3 and 6 months.

Absent
  • Tangles at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Transgenic Alzheimer's Disease

Intraneuronal accumulation of Aβ peptides in the hippocampus by 3 months and in cerebellar nuclei by 6 months. Marked gliosis in the hippocampus by 12 months. Very rare extracellular Aβ deposits.

Age-dependent behavioral deficits, including working memory as assessed by the cross maze at 12 months, but not at 3 or 6 months. Early and persistent decrease in anxiety in the elevated plus maze. Comparable to wild-type in general motor coordination at 3 and 6 months as indicated by the balance-beam test, but impairment at 12 months.

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TetO-APPSweInd (line 102)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

APP protein 10-30x higher than endogenous mouse APP. Progressive amyloid plaques starting at 2 months. Extensive amyloid pathology by 9 months especially in the cortex and hippocampus. Amyloid pathology is halted by transgene suppression but existing plaques are stable. Highest doxycycline sensitivity relative to lines 107 and 885.

Hyperactivity.

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TetO-APPSweInd (line 107)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

APP protein 10-30x higher than endogenous mouse APP. Progressive amyloid plaques starting at 2 months. Extensive amyloid pathology by 9 months especially in the cortex and hippocampus. Amyloid pathology is halted by transgene suppression but existing plaques are stable. Intermediate expression of transgene and doxycycline sensitivity relative to lines 102 and 885.

Hyperactivity.

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TetO-APPSweInd (line 885)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

APP protein 10-30x higher than endogenous mouse APP. Progressive amyloid plaques starting at 2 months. Extensive amyloid pathology by 9 months especially in the cortex and hippocampus. Amyloid pathology is halted by transgene suppression but existing plaques are stable. Highest transgene expression and highest doxycycline requirement relative to lines 102 and 107.

Hyperactivity.

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Tg2576

Observed
  1. X
    Plaques at 48

    Numerous parenchymal Aβ plaques by 11-13 months.

  2. X
    Gliosis at 43

    Increase in microglial density and size in plaque-forming areas of the brain including the hippocampus, frontal cortex, entorhinal cortex, and occipital cortex in 10-16 month old hemizygotes (Frautschy et al., 1998).

  3. X
    Synaptic Loss at 20

    Dendritic spine loss by 4.5 months In the CA1 region of the hippocampus (Lanz et al., 2003).

  4. X
    Changes in LTP/LTD at 22

    By 5 months, there was a decline in LTP in the dentate gyrus after perforant path stimulation compared to wild-type; impairment was not observed at 2 months (Jacobsen et al., 2006). Both the CA1 and dentate gyrus of aged mice (>15 months) are impaired (Chapman et al., 1999). Differences have been observed between the Schaffer collateral and mossy fiber pathways (Jung et al., 2011).

  5. X
    Cognitive Impairment at 26

    Impaired spatial learning, working memory, and contextual fear conditioning at <6 months although other studies have reported normal cognition at this age with progressive impairment by >12 months.

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent or very limited.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Numerous parenchymal Aβ plaques by 11-13 months with some vascular amyloid. Oxidative lipid damage, astrogliosis and microgliosis. No tangles or neuronal loss.

Impaired spatial learning, working memory, and contextual fear conditioning reported at <6 months although other studies have reported normal cognition at this age with progressive impairment by >12 months.

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Tg2576/Tau(P301L) (APPSwe-Tau)

Observed
  1. X
    Plaques at 39

    Plaques develop gradually with age. No plaques at 5 months. Very few small plaques at 6 and 7 months. By 9 months plaques scattered throughout the cortex, hippocampus and amygdala, continue to increase at 12 months. Similar distribution as Tg2576.

  2. X
    Tangles at 13

    Neurofibrillary tangles in the spinal cord and pons as early as 3 months, but more consistent and numerous by 6 months. Tangles morphologically similar to those in JNPL3 mice but older bigenic female mice had a marked increase in neurofibrillary tangles in limbic areas by 6 months, especially the olfactory cortex, entorhinal cortex and amygdala (Lewis et al., 2001).

  3. X
    Gliosis at 13

    Reactive astrocytes and microglia as early as 3 months in the hippocampus as measured by GFAP and CD45. Increased astrocytosis with age especially in limbic areas with the most neurofibrillary tangles. Microglia especially concentrated around plaques at 9 and 12 months (Lewis et al., 2001).

Absent
No Data
  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, MAPT APP K670_M671delinsNL (Swedish), MAPT P301L APP; MAPT: Transgenic Alzheimer's Disease

Gradual appearance of plaques; by 9 months plaques are scattered throughout the cortex, hippocampus, and amygdala similar to Tg2576. Tau pathology more extensive than JNPL3. Astrocytosis and microgliosis.

Motor disturbances similar to JNPL3, with identical range in age of onset. Reduced vocalization and decreased grooming.

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Tg4-42

Observed
  1. X
    Neuronal Loss at 35

    Age- and dose-dependent neuronal loss in the hippocampus CA1 region of hemizygous and homozygous mice. Compared with wild-type, hemizygous mice had 38% neuronal loss at 8 months, and 49% loss at 12 months. No difference at 3 months.

  2. X
    Gliosis at 9

    Reactive microglia and astrocytes in the hippocampus starting at 2 months.

  3. X
    Synaptic Loss at 37

    Altered synaptophysin staining in the CA3 region of the hippocampus. More pronounced in homozygous mice than hemizygous mice at 8 months.

  4. X
    Cognitive Impairment at 35

    Spatial reference memory is impaired as assessed by Morris water maze at 8 months in homozygous mice and 12 months in hemizygous mice. Deficit is age-dependent and is not detected at 3 months. Impaired contextual fear conditioning at 12 months.

Absent
  • Plaques at

    Absent.

  • Tangles at

    Absent.

No Data
  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP: Transgenic Alzheimer's Disease

Aβ4-42 is dectable starting at two months, predominantly in the CA1 region of the hippocampus, but also in the occipital cortex, piriform cortex, striatum, and superior colliculus. Age- and dose-dependent hippocampal neuronal loss is seen in the CA1 region as well as microgliosis and astrogliosis.

Age-dependent spatial learning deficit as demonstrated in the Morris water maze, specifically, the absence of a preference for the target quadrant starting at eight months in homozygous mice and at 12 months in hemizygous mice. Impaired contextual fear conditioning.

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TgAPParc

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP E693G (Arctic) APP: Transgenic Alzheimer's Disease

Mild amyloid pathology with a relatively late onset, starting with intracellular Aβ, then diffuse extracellular Aβ deposits in the subiculum, expanding to interconnected brain regions such as retrosplenial granular cortex, thalamus, and mammillary bodies. Pathology more severe in females.

Spatial learning and memory deficit in the Barnes maze test in heterozygous females mice at 15 months.

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tg-APPSwe

Observed
  1. X
    Plaques at 52

    Plaques are detectable at approximately 12 months and are heterogeneous in morphological structure and size, as well as in terms of fluorescence emitted when stained with luminescent polymers (conformational amyloid ligands)(Philipsson et al., 2009).

  2. X
    Gliosis at 52

    Microgliosis and astrogliosis are most prominent in the hippocampus, but also found locally around deposits in the cerebral cortex and in thalamus at approximately 12 months (Philipsson et al., 2009).

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

  • Cognitive Impairment at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Transgenic Alzheimer's Disease

Extracellular amyloid deposition begins at ~12 months. Intraneuronal Aβ aggregates at ~6 months. Extracellular pathology, both cerebrovascular amyloid angiopathy (CAA) and congophilic parenchymal plaques, mainly found in the cerebral cortex, hippocampus and thalamus. Aβ-burden in cerebral cortex is approximately 1.0% (at 12 months) and 2.8% (at 18 months).

Unknown.

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TgAPPSwe-KI

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish) APP: Knock-In Alzheimer's Disease

Accumulation of human Aβ.

Unknown.

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Tg-ArcSwe

Observed
  1. X
    Plaques at 22

    Extracellular amyloid plaque deposition starts at around 5-6 months of age (Lord et al., 2006) and is most consistently present in the cerebral cortex, hippocampus, and thalamus (Lillehaug et al., 2013).

  2. X
    Gliosis at 26

    Microgliosis and astrogliosis most prominent in the hippocampus, but also locally around deposits in the cerebral cortex and thalamus.

  3. X
    Cognitive Impairment at 17

    Transgene-dependent spatial learning impairment in the Morris water maze (4-8 months) (Lord et al., 2009) and in an Intellicage-based Passive Avoidance test (16 months)(Codita et al., 2010).

Absent
  • Tangles at

    Absent.

  • Neuronal Loss at

    Absent.

No Data
  • Synaptic Loss at

    Unknown.

  • Changes in LTP/LTD at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP E693G (Arctic) APP: Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy

Strong intraneuronal Aβ aggregation starting at 1 month and increasing with age. Extracellular amyloid plaque at 5-6 months, most consistent in the cerebral cortex, hippocampus, and thalamus. Congophilic parenchymal plaques are predominant, but some mice show marked CAA, particularly in the thalamus.

Mild spatial learning deficits at 4-8 months in Morris water maze and impaired functioning in a passive avoidance test at 16 months.

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TgCRND8

Observed
  1. X
    Plaques at 13

    Amyloid deposition progresses with age. Thioflavin S-positive amyloid deposits at 3 months; dense cored plaques and neuritic pathology by 5 months. Plaques appear first in the subiculum, amygdala and frontal cortex, spread to the dentate gyrus, the olfactory bulb, and later thalamus, cerebral vasculature, and striatum, followed by the cerebellum and brain stem (Chishti et al., 2001).

  2. X
    Neuronal Loss at 26

    Variable cell loss by region. No difference in overall cell count, but fewer hippocampal neurons at 6 months (Brautigam et al., 2012).

  3. X
    Gliosis at 13

    Microglia activation appears simultaneously with Aβ deposition, with only rare activated microglia at 9-10 weeks, but by 13-14 weeks microglia cluster around Aβ deposits in the cerebral cortex and hippocampus; numerous by 20 weeks. Robust astrogliosis slightly later with clusters of GFAP+ astrocytes emerging around plaques at 13-14 weeks (Dudal et al., 2004).

  4. X
    Synaptic Loss at 26

    Reduced synaptophysin immunoreactivity in the vicinity of plaques at 6 months (Adalbert et al., 2009).

  5. X
    Changes in LTP/LTD at 26

    In hippocampal slices from 6- to 12-month-old mice basal excitatory synaptic transmission (as assessed by I/O relationships) and LTP at CA1 are reduced in TgCRND8 mice compared with wild-type mice (Kimura et al., 2012).

  6. X
    Cognitive Impairment at 13

    Early impairment in acquisition and learning reversal in the reference memory version of the Morris water maze, present by 3 months (Chishti et al., 2001).

Absent
  • Tangles at

    Neurofibrillary tangles are absent (Chishti et al., 2001). Tau is hyperphosphorylated, nitrosylated and aggregated at 7-12 months especially in the neocortex, dentate gyrus, and the CA1 and CA3 areas of the hippocampus (Bellucci et al., 2007).

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic Alzheimer's Disease

Rapid, early plaque development, with thioflavin S-positive amyloid deposits at 3 months; dense cored plaques and neuritic pathology by 5 months. Plaques become more extensive with age. More Aβ42 than Aβ40. Activated microglia appear concurrently with plaques, whereas GFAP+ astrocytes follow later, about 13-14 weeks. Dystrophic neurites at 5 months .

Early impairment in acquisition and learning reversal in the reference memory version of the Morris water maze by 3 months. Cognitive deficits in the step-down inhibitory avoidance test at 7 months but not at 2 months. Similar to wild-type in motility, exploratory activity, or neuromuscular function at 7 months as evaluated by the rotarod, hole board and grip strength tests.

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TgDimer

Observed
  1. X
    Changes in LTP/LTD at 28

    LTP decays more rapidly, compared with wild-type mice.

  2. X
    Cognitive Impairment at 28

    Learning deficits in the Morris Water Maze.

Absent
  • Plaques at

    None observed through 24 months.

  • Tangles at

    None observed through 24 months.

  • Neuronal Loss at

    None observed through 24 months.

  • Gliosis at

    No transgene-related gliosis, but slight age-associated gliosis—also seen in wild-type mice—at 24 months.

No Data
  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP S679C APP: Transgenic Alzheimer's Disease, MCI due to AD

Intracellular Aβ immunoreactivity in the hippocampus and cortex, beginning by 12 months. No amyloid plaques, hyperphosphorylated tau, microgliosis, astrogliosis, or neuron loss through 24 months.

Learning deficits, as well as indicators of increased anxiety and depression, by 7 months.

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Tg-FDD

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
ITM2B (BRI2) BRI2: Familial Danish Dementia (FDD) duplication ITM2B (BRI2): Transgenic Familial Danish Dementia, Cerebral Amyloid Angiopathy, Alzheimer's Disease

Widespread cerebral amyloid angiopathy (CAA) starting around 7 months. Deposition of the Danish amyloid subunit (ADan) in brain parenchyma and vessels, along with amyloid-associated gliosis and inflammation, intracellular and extracellular deposition of oligomeric ADan, and tau-positive deposits in neuropil, but no neurofibrillary tangles.

Age-dependent abnormal grooming behavior. Around one year mice develop an arched back and walk with a wide-based gait and short steps. Feet clasping upon suspension of the mice by their tails.

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Tg-mAPP/DN-RAGE

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, RAGE (AGER) APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic; RAGE (AGER): Transgenic Alzheimer's Disease

Diminished neuropathology compared with mice expressing mutant APP alone at both 3–4 and 14–18 months of age.

Preservation of spatial learning and memory compared with Tg-mAPP/RAGE animals.

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Tg-mAPP/RAGE

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, RAGE (AGER) APP K670_M671delinsNL (Swedish), APP V717F (Indiana) APP: Transgenic; RAGE (AGER): Transgenic Alzheimer's Disease

Increased activation of microglia and astrocytes compared to mice expressing mutant APP alone.

Abnormalities in spatial learning and memory at 3-4 months of age, whereas deficits occur later in mice expressing mutant APP alone and are less severe.

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Tg-SwDI (APP-Swedish,Dutch,Iowa)

Observed
  1. X
    Plaques at 13

    Hemizygotes progressively accumulate insoluble Aβ40 and Aβ42, especially within brain microvessels starting at 3 months. Amyloid-β deposits in the subiculum, hippocampus, and cortex at ~3 months. By ~6 months deposits become more numerous and appear in the olfactory bulb and thalamic region as well, with deposits throughout most of the forebrain by 12 months (Davis et al., 2004).

  2. X
    Gliosis at 26

    Pronounced increase in the number of GFAP-positive astrocytes and activated microglia with age (6-24 months) especially in the thalamus and subiculum and to a lesser extent in the cortex (Miao et al., 2005).

  3. X
    Cognitive Impairment at 13

    Impaired learning and memory in the Barnes maze task at 3, 9, and 12 months; beginning at 3 months took longer to find the escape hole. No difference in mobility, strength or coordination (Xu et al., 2007).

Absent
  • Tangles at

    Absent.

No Data
  • Neuronal Loss at

    Unknown.

  • Synaptic Loss at

    Unknown.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP APP K670_M671delinsNL (Swedish), APP E693Q (Dutch), APP D694N (Iowa) APP: Transgenic Alzheimer's Disease, Cerebral Amyloid Angiopathy, Hereditary Cerebral Hemorrhage with Amyloidosis of the Dutch type

Hemizygotes progressively accumulate insoluble Aβ40 and Aβ42, especially within brain microvessels starting at 3 months. Fibrillar Aβ in micovessels around 6 months. Diffuse plaque-like deposits around 3 months in the subiculum, hippocampus and cortex. Aβ deposits throughout the forebrain by 12 months.

Impaired learning and memory in the Barnes maze task at 3, 9, and 12 months. Beginning at 3 months transgenic mice took longer to find the escape hole. No difference in mobility, strength or coordination.

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THY-Tau22

Observed
  1. X
    Tangles at 13

    Heterozygous animals develop tau pathology starting at 3-6 months. Pathology becomes more severe and widespread with age. Neurofibrillary tangle-like inclusions occur (Gallyas and MC1+) along with rare ghost tangles and paired helical filament-like structures (Schindowski et al., 2006).

  2. X
    Neuronal Loss at 52

    Loss of cells in the CA1 region of the hippocampus from 12 months as measured by DAPI staining and Nissl/cresyl-violet (Schindowski et al., 2006). Also, a significant reduction in the number of choline acetyltransferase (ChAT)-immunopositive cholinergic neurons in the medial septum has been reported (Belarbi et al., 2011).

  3. X
    Gliosis at 13

    Age-dependent increase in the number of GFAP+ astrocytes in the hippocampus (hilus, CA1, CA3), cerebral cortex, corpus callosum (Schindowski et al., 2006).

  4. X
    Changes in LTP/LTD at 39

    Altered paired pulse facilitation (PPF), a form of presynaptic short-term plasticity in 9-10 month old heterozygous animals: PPF increased at 10 ms. Also at this age, impaired maintenance of long term depression as compared with wild-type littermates (Van der Jeugd et al., 2011). Deficit in basal synaptic transmission in the hippocampus, but normal LTP (Schindowski et al., 2006).

  5. X
    Cognitive Impairment at 26

    Non-spatial memory affected as early as 6 months; spatial memory impaired only after 9 months (Van der Jeugd et al., 2013). Impaired appetitive responding (Lo et al., 2013).

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT G272V, MAPT P301S MAPT: Transgenic Frontotemporal Dementia, Alzheimer's Disease

A variety of tau pathologies starting at 3 months, including neurofibrillary tangle-like inclusions, rare ghost tangles, and paired helical filament-like structures. Hyperphosphorylation of tau on many epitopes (e.g. AT8, AT100, AT180, AT270, 12E8, tau-pSer396, and AP422) and mild astrogliosis.

Increased anxiety and delayed learning from 3 months, and reduced spatial memory at 10 months. No changes in overall motor activity and no gross motor deficits. Increased depression-like and aggressive behavior, co-occurring with disturbances in nocturnal activity.

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TMHT (Thy-1 mutated human tau)

Observed
  1. X
    Tangles at 17

    Tangles at 4 months and progress with age.

  2. X
    Cognitive Impairment at 22

    Cognitive impairment by 5 months as measured by the Morris Water Maze.

Absent
  • Plaques at

    Absent.

No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
MAPT MAPT V337M, MAPT R406W MAPT: Transgenic Alzheimer's Disease

Increased total tau, and phosphorylated tau (Thr181, Ser199, Thr231) in amygdala and hippocampus starting at 3 months.

Spatial memory deficits starting at 5 months (Morris water maze). Olfactory deficits at 5 months (Buried food test). No motor deficits (rota rod, beam walk) or depressive behavior (forced swim test).

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TPM (Thy-1 PS1.M146V)

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
PSEN1 PSEN1 M146V PSEN1: Transgenic Alzheimer's Disease

No plaques.

Unknown.

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TREM2-BAC

Observed
Absent
  • Plaques at

    Not observed at 7 months.

  • Gliosis at

    No microgliosis was observed at 7 months.

  • Changes in LTP/LTD at

    Normal LTP at 10 months.

  • Cognitive Impairment at

    Normal contextual fear conditioning at 10 months.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
TREM2 TREM2: Transgenic Alzheimer's Disease

No obvious neuropathology is observed at 4, 7 and 11 months of age.

Normal contextual fear conditioning at 10 months of age.

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TREM2-BAC X 5xFAD

Observed
  1. X
    Plaques at 28

    Observed at 7 months, the youngest age examined.

  2. X
    Gliosis at 28

    Microgliosis observed; however, fewer plaque-associated microglia and altered microglial morphology (more ramified processes) compared with 5xFAD at 7 months, the only age examined.

Absent
  • Cognitive Impairment at

    5xFAD/TREM2 mice perform comparably to wild-type mice in a contextual fear conditioning test, while 5xFAD mice are impaired.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
TREM2, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V TREM2: Transgenic; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques with plaque-associated microgliosis. Reduced plaque burden, altered microglial and plaque morphology, and less severe plaque-associated neuritic dystrophy, compared with 5xFAD.

5xFAD/TREM2 mice perform comparably to wild-type mice in a contextual fear conditioning test, while 5xFAD mice are impaired.

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Trem2 flox

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 Trem2: Knock-In Alzheimer's Disease, Frontotemporal Dementia, Nasu-Hakola Disease

No data.

No data.

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TREM2, humanized (common variant)

Observed
Absent
  • Gliosis at

    Expression of DAM (disease-associated microglia) genes is low at 8.5 months, suggesting that microglia are in a resting or homeostatic state.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
TREM2, Trem2 TREM2: Transgenic; Trem2: Knock-Out Alzheimer's Disease

Unknown.

Unknown.

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TREM2, humanized (common variant) X 5XFAD

Observed
  1. X
    Plaques at 34

    Plaques observed in 8.5-month-old mice, only age reported thus far.

  2. X
    Gliosis at 34

    Microgliosis observed in 8.5-month-old mice, only age reported thus far.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2, TREM2, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V Trem2: Knock-Out; TREM2: Transgenic; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques surrounded by activated microglia.

No data.

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TREM2, humanized (R47H)

Observed
Absent
  • Gliosis at

    Expression of DAM (disease-associated microglia) genes is low at 8.5 months, suggesting that microglia are in a resting or homeostatic state.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
TREM2, Trem2 TREM2 R47H TREM2: Transgenic; Trem2: Knock-Out Alzheimer's Disease

Unknown.

Unknown.

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TREM2, humanized (R47H) X 5XFAD

Observed
  1. X
    Plaques at 34

    Plaques observed in 8.5-month-old mice, the only age reported thus far.

  2. X
    Gliosis at 34

    Microgliosis observed in 8.5-month-old mice, the only age reported thus far. Fewer plaque-associated microglia in mice expressing the R47H variant, compared with the common variant of human TREM2.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2, TREM2, APP, PSEN1 TREM2 R47H, APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V Trem2: Knock-Out; TREM2: Transgenic; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Lower density of activated microglia surrounding amyloid plaques in 5XFAD mice expressing the R47H variant of human TREM2 compared with those expressing the common variant.

No data.

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Trem2 KO (Colonna)

Observed
Absent
  • Gliosis at

    No spontaneous gliosis, but impaired microglial response to injury.

  • Cognitive Impairment at

    Not observed.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 Trem2: Knock-Out Nasu-Hakola Disease, Frontotemporal Dementia, Alzheimer's Disease

Microglial number remains constant and microglial size decreases with age in the corpus callosum of Trem2 KO mice, while microglial number increases and microglial size remains stable in wild-type mice.

No cognitive/behaviorial deficits observed.

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Trem2 KO (Colonna) x 5XFAD

Observed
  1. X
    Plaques at 16

    Plaques present by 4 months, the earliest age studied.

  2. X
    Neuronal Loss at 32

    Loss of cortical layer V neurons by 8 months, the earliest age studied.

  3. X
    Gliosis at 16

    MIcrogliosis by 4 months, the earliest age studied.

Absent
No Data
  • Tangles at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2, APP, PSEN1 APP K670_M671delinsNL (Swedish), APP I716V (Florida), APP V717I (London), PSEN1 M146L (A>C), PSEN1 L286V Trem2: Knock-Out; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Compared with 5XFAD, mice deficient in TREM2 show an age- dependent increase in amyloid accumulation in the hippocampus, more severe plaque-associated neuritic dystrophy, and exaggerated neuron loss in the cortex. Microglial containment of plaques is compromised in TREM2-deficient animals. Microglia accumulate autophagosomes.

No data.

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Trem2 KO (Colonna) x PS19

Observed
  1. X
    Gliosis at 36

    Microgliosis and astrogliosis by 9 months (the earliest age studied).

Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2, MAPT MAPT P301S Trem2: Knock-Out; MAPT: Transgenic Frontotemporal Dementia, Alzheimer's Disease

Microgliosis, astrogliosis, and brain atrophy in Trem2-/-PS19 mice are greatly attenuated compared with Trem2+/+PS19 animals.

No data.

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Trem2 KO (JAX)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 Trem2: Knock-Out Alzheimer's Disease, Frontotemporal Dementia, Nasu-Hakola Disease

No data..

No data.

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Trem2 KO (KOMP)

Observed
Absent
  • Cognitive Impairment at

    At six months, mice perform normally in the open-field test, elevated plus maze, three-chamber social-interaction test, and contextual and cued fear-conditioning test.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 Trem2: Knock-Out Nasu-Hakola Disease, Frontotemporal Dementia, Alzheimer's Disease

No data.

At six months, mice perform normally in the open-field test, elevated plus maze, three-chamber social-interaction test, and contextual and cued fear-conditioning test.

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Trem2 KO (KOMP) x APPPS1

Observed
  1. X
    Plaques at 9

    Plaques are observed by 2 months.

  2. X
    Gliosis at 9

    Gliosis is observed by 2 months.

Absent
No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2, APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1 L166P Trem2: Knock-Out; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Reduced plaque burden at early stages of plaque deposition but increased plaque burden at later stages, fewer plaque-associated myeloid cells and astrocytes, less phospho-tau in plaque-associated dystrophic neurites, compared with APPPS1.

No data.

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Trem2 KO (KOMP) x htau

Observed
  1. X
    Gliosis at 24

    Microgliosis observed by 6 months, younger ages were not studied.

Absent
  • Neuronal Loss at

    Neuron loss not observed in cortex or hippocampal field CA3 at 6 months of age; later ages were not studied.

No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Mapt, MAPT, Trem2 Mapt: Knock-Out; MAPT: Transgenic; Trem2: Knock-Out Nasu-Hakola Disease, Alzheimer's Disease, Frontotemporal Dementia

Tau phosphorylation and aggregation in the cortex are enhanced in htau mice lacking TREM2, but reactive microglia are smaller and their processes have fewer branches.

No data.

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Trem2*R47H(HSS)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 TREM2 R47H Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Trem2 R47H KI (Haass)

Observed
Absent
No Data
  • Plaques at

    No data.

  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 TREM2 R47H Trem2: Knock-In Alzheimer's Disease

Unknown.

Unknown.

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Trem2 R47H KI (JAX)

Observed
Absent
  • Plaques at

    Not observed in cortex or hippocampus up to 24 months of age.

  • Tangles at

    Not observed in cortex or hippocampus up to 24 months of age.

  • Neuronal Loss at

    Not observed in cortex or hippocampus up to 24 months of age.

  • Cognitive Impairment at

    Locomotor activity, motor coordination, and working memory similar to wild-type at 2 and 12 months of age.

No Data
  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 TREM2 R47H Trem2: Knock-In Alzheimer's Disease

No neuron loss, amyloid plaques, or neurofibrillary tangles were observed in mice up to 24 months of age.

Locomotor activity, motor coordination, and working memory similar to wild-type at 2 and 12 months of age.

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Trem2 R47H KI (Lamb/Landreth)

Observed
Absent
  • Plaques at

    No 6E10- or Thioflavin S-positive amyloid plaques were observed at 4 months of age.

No Data
  • Tangles at

    No data.

  • Neuronal Loss at

    No data.

  • Gliosis at

    No data.

  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 TREM2 R47H Trem2: Knock-In Alzheimer's Disease

No 6E10- or Thioflavin S-positive amyloid plaques were observed at 4 months of age.

Unknown.

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Trem2 R47H KI (Lamb/Landreth) X APPPS1-21

Observed
  1. X
    Plaques at 16

    Reduction in the number and burden of fibrillar amyloid plaques in the hippocampus, compared with APPPS1-21 mice homozygous for wild-type Trem2.

  2. X
    Gliosis at 16

    Fewer plaque-associated myeloid cells in APPPS1-21;Trem2+/R47H, compared with APPPS1-21 mice homozygous for wild-type Trem2.

Absent
  • Tangles at

    Tangles were not observed at 4 months of age, but hyperphosphorylated tau was detected in dystrophic neurites surrounding plaques.

  • Neuronal Loss at

    No differences in neuron number in cotical layer V in APPPS1-21;Trem2+/R47H mice relative to APPPS1-21 mice homozygous for wild-type Trem2, at 4 months of age.

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2, APP, PSEN1 TREM2 R47H, APP K670_M671delinsNL (Swedish), PSEN1 L166P Trem2: Knock-In; APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Reduction in the number and burden of fibrillar amyloid plaques in the hippocampus, fewer plaque-associated myeloid cells, and worse plaque-associated neuritic dystrophy, compared with APPPS1-21 mice homozygous for wild-type Trem2.

Unknown.

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Trem2 R47H KI x APOE4

Observed
Absent
  • Plaques at

    Not observed in cortex or hippocampus up to 24 months of age.

  • Tangles at

    Not observed in cortex or hippocampus up to 24 months of age.

  • Neuronal Loss at

    Not observed in cortex or hippocampus up to 24 months of age.

  • Gliosis at

    Microgliosis not observed in cortex or hippocampus up to 24 months of age.

  • Cognitive Impairment at

    Age-related changes in locomotor activity, motor coordination, and working memory, but no genotype-dependent differences through 24 months of age, compared with wild-type mice.

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APOE, Trem2 TREM2 R47H, APOE C130R (ApoE4) APOE: Knock-In; Trem2: Knock-In Alzheimer's Disease

No neuron loss, amyloid plaques, neurofibrillary tangles, vascular leakage, myelin loss, or reactive microglia in mice up to 24 months of age.

Age-related changes in locomotor activity, motor coordination, and working memory, but no genotype-dependent differences through 24 months of age, compared with wild-type mice.

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Trem2*R47H(NSS)

Observed
  1. X
    Synaptic Loss at 50

    Synapse loss, assessed by co-localization of the pre-synaptic marker bassoon and postsynaptic marker PSD95, by 12 months.

  2. X
    Changes in LTP/LTD at 52

    Impaired basal synaptic transmission and LTP, by 12 months.

Absent
  • Plaques at

    Not observed.

  • Tangles at

    Not observed.

  • Gliosis at

    Similar numbers of Iba1-immunoreactive microglia in Trem2*R47HNSS and wild-type hippocampi and cortices, but differences in microglial morphology at 4 months that are gone by 12 months.

No Data
  • Neuronal Loss at

    No data.

  • Cognitive Impairment at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Trem2 TREM2 R47H Trem2: Knock-In Alzheimer's Disease

Changes in microglial morphology at 4 months but not 12 months, compared with wild-type.

Unknown.

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Ts65Dn

Observed
Absent
No Data
Genes Mutations Modification Disease Neuropathology Behavior/Cognition
Other Alzheimer's Disease, Down's Syndrome

Brain is grossly normal. Age-dependent cholinergic neurodegeneration and reduced NGF in the basal forebrain. Age-related elevation of APP and Aβ in the hippocampus but no β-amyloid pathology.

Early developmental delay. Deficits in behavioral and cognitive tasks including spatial learning and memory deficits as assessed by the Morris water maze and the radial arm maze. Developmental delay in sensorimotor milestones. Locomotor hyperactivity. Lack of behavioral inhibition. Stereotypic behavior.

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WSB.APP/PS1

Observed
  1. X
    Plaques at 32

    Thioflavin S-positive amyloid plaques are present in the cortex and CA1 region of the hippocampus by 8 months of age, with females having more plaques in the cortex than males.

  2. X
    Neuronal Loss at 34

    Compared with their non-transgenic littermates, female WSB.APP/PS1 mice have fewer neurons in the cortex and in CA1. Neuron numbers in male mice do not differ between the genotypes.

  3. X
    Gliosis at 33

    Plaque-associated microgliosis observed by 8 months.

  4. X
    Cognitive Impairment at 31

    Deficits in short-term memory by 8 months in females (data from males unavailable).

Absent
  • Tangles at

    Not observed.

No Data
  • Synaptic Loss at

    No data.

  • Changes in LTP/LTD at

    No data.

Genes Mutations Modification Disease Neuropathology Behavior/Cognition
APP, PSEN1 APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 APP: Transgenic; PSEN1: Transgenic Alzheimer's Disease

Amyloid plaques, plaque-associated gliosis, cerebral amyloid angiopathy; possible neuron loss in cortex and hippocampal area CA1 in females.

Transgenic mice are hyperactive. Working memory (spontaneous alternation in the Y-maze) is normal at 7 to 8 months, but short-term memory (tested in the Y-maze) is impaired in females (data from males is not available, as wild-type males are unable to perform this test).

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