Removing aging brain cells eases epilepsy in mice

Researchers at the University of California, San Francisco, have discovered a mechanism by which exercise helps protect the brain from age-related damage associated with Alzheimer's disease. Physical activity prompts the liver to release an enzyme that repairs the blood-brain barrier, reducing inflammation and improving memory in older mice. The findings, published in the journal Cell, highlight a body-to-brain pathway that could lead to new therapies.

January 26, 2026 Reported by AI

Researchers have uncovered how amyloid beta and inflammation may both trigger synapse pruning in Alzheimer's disease through a common receptor, potentially offering new treatment avenues. The findings challenge the notion that neurons are passive in this process, showing they actively erase their own connections. Led by Stanford's Carla Shatz, the study suggests targeting this receptor could preserve memory more effectively than current amyloid-focused drugs.

Researchers at Baylor College of Medicine report that raising levels of the protein Sox9 in astrocytes enables these brain support cells to remove existing amyloid plaques and preserve cognitive performance in mouse models of Alzheimer’s disease that already show memory deficits. The findings, published in Nature Neuroscience, highlight astrocytes as a potential target for slowing neurodegenerative decline.

January 10, 2026 Reported by AI

New research reveals that blood from younger mice can protect against Alzheimer's-like brain damage, while older blood accelerates it. Scientists conducted experiments infusing mouse blood over 30 weeks to observe effects on memory and protein buildup. The findings highlight blood's role in brain health and potential new treatments.

Preliminary research published in Neurology suggests that GLP-1 medications, including drugs such as Ozempic, may be associated with a modestly lower risk of developing epilepsy in people with type 2 diabetes compared with DPP-4 inhibitors. In the analysis, GLP-1 users were 16 percent less likely to develop epilepsy after statistical adjustment, but researchers stress that the findings show an association, not proof of cause and effect.

November 23, 2025 Reported by AI Fact checked

Scientists at Tulane University and collaborating institutions have found that neurons release an enzyme called vertebrate lonesome kinase (VLK) outside cells to help switch on pain signals after injury. Removing VLK from pain-sensing neurons in mice sharply reduced post-surgical pain–like responses without impairing normal movement or basic sensation, according to a study in Science, suggesting a potential new route to more targeted pain treatments.