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Exercise preserves physical fitness during aging through AMPK and mitochondrial dynamics.

Juliane Cruz CamposLuiz Henrique Marchesi BoziBarbara KrumLuiz Roberto Grassmann BecharaNikolas Dresch FerreiraGabriel Santos AriniRudá Prestes AlbuquerqueAnnika TraaTakafumi OgawaAlexander M van der BliekAfshin BeheshtiEdward T ChouchaniJeremy M Van RaamsdonkT Keith BlackwellJulio Cesar Batista Ferreira
Published in: Proceedings of the National Academy of Sciences of the United States of America (2023)
Exercise is a nonpharmacological intervention that improves health during aging and a valuable tool in the diagnostics of aging-related diseases. In muscle, exercise transiently alters mitochondrial functionality and metabolism. Mitochondrial fission and fusion are critical effectors of mitochondrial plasticity, which allows a fine-tuned regulation of organelle connectiveness, size, and function. Here we have investigated the role of mitochondrial dynamics during exercise in the model organism Caenorhabditis elegans . We show that in body-wall muscle, a single exercise session induces a cycle of mitochondrial fragmentation followed by fusion after a recovery period, and that daily exercise sessions delay the mitochondrial fragmentation and physical fitness decline that occur with aging. Maintenance of proper mitochondrial dynamics is essential for physical fitness, its enhancement by exercise training, and exercise-induced remodeling of the proteome. Surprisingly, among the long-lived genotypes we analyzed ( isp-1 , nuo-6 , daf-2 , eat-2 , and CA-AAK-2 ), constitutive activation of AMP-activated protein kinase (AMPK) uniquely preserves physical fitness during aging, a benefit that is abolished by impairment of mitochondrial fission or fusion. AMPK is also required for physical fitness to be enhanced by exercise, with our findings together suggesting that exercise may enhance muscle function through AMPK regulation of mitochondrial dynamics. Our results indicate that mitochondrial connectivity and the mitochondrial dynamics cycle are essential for maintaining physical fitness and exercise responsiveness during aging and suggest that AMPK activation may recapitulate some exercise benefits. Targeting mechanisms to optimize mitochondrial fission and fusion, as well as AMPK activation, may represent promising strategies for promoting muscle function during aging.
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