Redox Regulation in Aging Muscles: Exercise as a Key Modulator to Combat Sarcopenia and Frailty

Wang ZhimingYang GuiZhanguo Su^*

• Central Hospital of Enshi Tujia and Miao Autonomous Prefecture, Wuhan University, Enshi, China

Abstract Background and Context: Aging is characterized by progressive decline in skeletal muscle function, which can lead to sarcopenia (loss of muscle mass and strength) and frailty (increased vulnerability to stressors), with oxidative stress—arising from an imbalance between reactive oxygen species (ROS) production and antioxidant defenses—playing a central role. This narrative review synthesizes evidence on how exercise modulates redox homeostasis to mitigate these conditions in older adults. Objectives: To explore the sources and consequences of oxidative stress in aging muscle, examine exercise's role in restoring redox balance, evaluate its impact on sarcopenia and frailty, and identify relevant biomarkers and future research directions. We achieve this by exploring key sources through representative studies, examining molecular mechanisms via pathway analyses, evaluating intervention effects using RCTs and meta-analyses, and identifying biomarkers and gaps through critical synthesis. Methods: This narrative review involved a comprehensive literature search in databases such as PubMed, Web of Science, and Scopus, focusing on studies from 2000–2025 on oxidative stress, exercise, sarcopenia, and frailty in adults aged 60+. Inclusion criteria prioritized peer-reviewed articles, meta-analyses, and RCTs; exclusion applied to non-English or irrelevant studies. Over 100 articles were selected qualitatively for synthesis. Key Findings: Aerobic and resistance exercises reduce oxidant markers (e.g., MDA decreased by 10–20% in meta-analyses) and enhance antioxidants (e.g., SOD increased by 15–30%), upregulating pathways like Nrf2, AMPK, and PGC-1α. Multicomponent programs improve muscle strength (e.g., 20–40% gains in RCTs) and frailty scores (e.g., reductions in Fried Frailty Phenotype by 1–2 points). However, heterogeneous responses exist, with some studies showing neutral effects on certain markers. Conclusions: Exercise emerges as a non-pharmacological intervention to attenuate oxidative stress-driven muscle aging, promoting healthy aging. Future studies should focus on personalized regimens and long-term biomarkers for clinical translation.