Abstract
Alzheimer's disease (AD), characterized by Aβ plaques and cognitive decline, remains a significant therapeutic challenge due to limited efficacy of current pharmacotherapies, while Rehmannioside A (ReA) has shown promising neuroprotective effects against neurodegenerative diseases. This research focuses on investigating the therapeutic effects of ReA on 5×FAD mice, emphasizing its potential application in AD treatment. The 5×FAD mice were divided into experimental groups and treated with ReA at varied dosages or donepezil for a twelve-week continuous treatment period. A series of evaluation methods, including behavioral tests, histopathological analysis, Western blotting, and measurement of oxidative and inflammatory markers, were implemented. The findings demonstrated that optimal ReA doses significantly improved learning, memory, and cognitive functions in 5×FAD mice, reduced Aβ plaque accumulation in the hippocampus, decreased microglial cell counts, increased PSD 95 and synapsin-1 protein expression, mitigated oxidative stress and inflammation, and showed no harmful effects on liver or kidney function. ReA's diverse biological activities suggest its potential in reducing neural damage. More extensive studies are needed to fully understand its molecular mechanisms in AD, which could lead to the development of innovative and effective treatments for this severe neurodegenerative condition.