Molecular mechanisms underlying exercise-enhanced autophagy in improving neuroplasticity in Alzheimer’s disease
Qian Li, Renqing Zhao, Xin Tian, Haocheng Xu

TL;DR
This study explores how exercise improves brain function in Alzheimer's by boosting autophagy, a process that clears harmful proteins.
Contribution
The study identifies molecular mechanisms through which exercise enhances autophagy to improve neuroplasticity in Alzheimer’s disease.
Findings
Exercise promotes autophagosome formation and lysosomal function, reducing toxic protein accumulation.
Enhanced autophagy through exercise may mitigate cognitive decline by clearing amyloid-β and phosphorylated tau proteins.
The study aims to uncover novel therapeutic targets for Alzheimer’s treatment via exercise-induced autophagy modulation.
Abstract
Alzheimer’s disease (AD), the most prevalent form of dementia, is characterized by progressive memory impairment and cognitive dysfunction. The neuropathological hallmarks of this neurodegenerative disorder encompass two principal pathological features: extracellular deposition of amyloid-β (Aβ) plaques due to abnormal protein aggregation, and intracellular accumulation of neurofibrillary tangles (NFTs) caused by hyperphosphorylation of tau proteins (p-Tau). These pathological changes induce synaptic loss and neuronal apoptosis, which leads to impaired neuroplasticity and progressive deterioration of cognitive function. Autophagy, a critical mechanism in the central nervous system (CNS) responsible for clearing misfolded protein aggregates and damaged organelles, plays a pivotal role in maintaining neuronal homeostasis and synaptic plasticity. However, AD is associated with autophagy…
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Taxonomy
TopicsAlzheimer's disease research and treatments · Autophagy in Disease and Therapy · Parkinson's Disease Mechanisms and Treatments
