Improvements in Exercise for Alzheimer's Disease: Highlighting FGF21-Induced Cerebrovascular Protection.

Abstract

Alzheimer's disease (AD) is the most common neurodegenerative disease. Currently, it has shown a trend of earlier onset, with most patients experiencing a progressive decline in cognitive function following the disease's onset, which places a heavy burden on society and family. Since no drug cure for AD exists, exploring new ways for its treatment and prevention has become critical. Early vascular damage is an initial trigger for neuronal injury in AD, underscoring the importance of vascular health in the early stages of the disease. Patients with early AD experience abnormal blood-brain barrier transport of amyloid-β (Aβ) peptides, with excess Aβ being deposited in the cerebral vasculature. The toxic effects of Aβ lead to abnormalities in cerebrovascular structure and function. Fibroblast growth factor21 (FGF21) is an endocrine factor that positively regulates energy homeostasis and glucose-lipid metabolism. Notably, it is one of the effective targets for metabolic disease prevention and treatment. Recent studies have found that FGF21 has anti-aging and vasoprotective effects, with receptors for FGF21 present in the brain. Exercise stimulates the liver to produce large amounts of FGF21, which enters the blood-brain barrier with the blood to exert neurovascular protection. Therefore, we review the biological properties of FGF21, its role in the cerebrovascular structure and function in AD, and the mechanism of exercise-regulated FGF21 action on AD-related cerebrovascular changes, aiming to provide a new theoretical basis for using exercise to ameliorate degenerative neurological diseases.