When it seeps into the brain, fibrinogen activates innate immune responses that zap dendrites. And amyloid deposition has little to do with it.
Among cognitively normal people with amyloid plaques, women have more tau tangles in the entorhinal cortex than do men. Does this indicate susceptibility, or resilience?
In cognitively normal people, a set of blood proteins may predict whether or not amyloid plaques have deposited in a person’s brain.
Reducing these esters with statins and cholesterol-hydroxylase-activating drugs lowers phospho-tau and Aβ in neurons. One such drug is approved to treat HIV AIDS.
Building on results in AD mouse models, researchers now report that immune checkpoint inhibitors reduce pathology and improve cognition in tauopathy mice, too. Other scientists are skeptical.
Neural progenitor cells derived from people with sporadic AD are missing the transcriptional repressor REST in the nucleus. This lets neurogenesis run wild, exhausting a person’s stem cell pool.
Binding occurs around lipid deposits in the choroid plexus, near Aβ deposits, and also in atherosclerotic plaques in blood vessels.
Amyloid plaques in postmortem human cortex correlated with the proportion of microglia that were activated, not with microglial numbers. Tau pathology and cognitive decline come later.
The FDA has prioritized review of C2N’s blood test for amyloid-β. A pivotal clinical trial will correlate the test with amyloid PET scans.
An interim analysis predicted the antibody would not slow Alzheimer’s progression; a crenezumab trial in autosomal-dominant AD is continuing.
Reducing systolic blood pressure staves off cognitive decline, but what about dementia?
A periodontal pathogen found in human brains triggers AD pathology in mice. Will an antibiotic stave off dementia?
Frail people may be more likely to have Aβ plaques and neurofibrillary tangles; when they do, they are more likely to have dementia. Physical activity correlated with better global cognition, regardless of brain pathology.
Studies in mice and humans show that sleep suppresses extracellular tau and slows its spread.
Ever wonder why it’s so easy to nod off in a hammock? Turns out swaying back and forth improves sleep and even enhances memory in people.