Litcius/Paper detail

Redox signaling and skeletal muscle adaptation during aerobic exercise

Yingsong Zhou, Xuan Zhang, Julien S. Baker, Gareth W. Davison, Xiaojun Yan

2024iScience36 citationsDOIOpen Access PDF

Abstract

Redox regulation is a fundamental physiological phenomenon related to oxygen-dependent metabolism, and skeletal muscle is mainly regarded as a primary site for oxidative phosphorylation. Several studies have revealed the importance of reactive oxygen and nitrogen species (RONS) in the signaling process relating to muscle adaptation during exercise. To date, improving knowledge of redox signaling in modulating exercise adaptation has been the subject of comprehensive work and scientific inquiry. The primary aim of this review is to elucidate the molecular and biochemical pathways aligned to RONS as activators of skeletal muscle adaptation and to further identify the interconnecting mechanisms controlling redox balance. We also discuss the RONS-mediated pathways during the muscle adaptive process, including mitochondrial biogenesis, muscle remodeling, vascular angiogenesis, neuron regeneration, and the role of exogenous antioxidants.

Topics & Concepts

Skeletal muscleAdaptation (eye)RedoxChemistryExercise physiologyAerobic exerciseCell biologyNeuroscienceBiologyMedicineInternal medicineOrganic chemistryExercise and Physiological ResponsesAdipose Tissue and MetabolismBiochemical effects in animals