Exerkine-loaded exosomes in muscle aging: a nexus of exercise, regeneration, and crosstalk
Yang Li, Qingzhong Wu, Junmin Wang, Jiahao Ding, Jinpeng He

TL;DR
This review explores how exercise influences muscle aging through exosomes, which may help maintain muscle health and treat age-related decline.
Contribution
The paper integrates recent evidence on how exercise modulates muscle-derived exosomes and their role in muscle regeneration and systemic crosstalk.
Findings
Exercise modulates the release and molecular composition of muscle-derived exosomes.
Exosomal cargo regulates muscle stem cell activation and counteracts age-related decline.
Engineered exosomes show therapeutic potential for musculoskeletal health.
Abstract
This review examines the critical role of extracellular vesicles, specifically exosomes, as mediators of intercellular and inter-organ communication in the context of skeletal muscle aging and regeneration. Skeletal muscle, traditionally viewed as a simple contractile tissue, is now recognized as a potent endocrine organ that secretes a diverse array of signaling molecules, collectively termed “exerkines,” in response to physical activity. We integrate contemporary evidence demonstrating how exercise modulates the release and molecular composition of muscle-derived exosomes, which in turn influence key cellular processes. The report details how exosomal cargo, including non-coding RNAs and proteins, regulates muscle stem cell activation and differentiation, counteracts age-related decline (sarcopenia) by modulating protein homeostasis and inflammation, and facilitates systemic metabolic…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsExtracellular vesicles in disease · Muscle Physiology and Disorders · Caveolin-1 and cellular processes
