"Protein-Based Approach Reverses Alzheimer's Memory Loss by Repairing Synapses"
A study presents a novel Alzheimer’s treatment strategy focusing on memory restoration through the repair of damaged synapses, leveraging the critical role of the KIBRA protein. This approach shows promise in reversing memory loss without directly addressing the accumulation of toxic proteins. The research team found that brains with Alzheimer’s disease are deficient in KIBRA, and higher levels of KIBRA in the cerebrospinal fluid corresponded to the severity of dementia. By creating a functional version of the KIBRA protein, the team demonstrated its ability to reverse memory impairment in mice with a condition mimicking human Alzheimer’s disease, offering potential for future therapies to repair synapses and improve memory.
- Scientists Reverse Alzheimer's Memory Loss by Repairing Damaged Synapses SciTechDaily
- Scientists propose new way to repair memory issues caused by Alzheimer's The Indian Express
- Alzheimer's Tau Tolerated Better When Synapse Repair Protein Present Genetic Engineering & Biotechnology News
- Brain and kidney protein could restore memories taken by Alzheimer's disease Courthouse News Service
- Buck scientists discover a potential way to repair synapses damaged in Alzheimer's disease EurekAlert
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