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Exercise couples mitochondrial function with skeletal muscle fiber type via ROS-mediated epigenetic modification

Jialin Li, Ziyi Zhang, Bo Hai, Yong Zhang

2024Free Radical Biology and Medicine26 citationsDOIOpen Access PDF

Abstract

Skeletal muscle is a heterogeneous tissue composed of different types of muscle fibers, demonstrating substantial plasticity. Physiological or pathological stimuli can induce transitions in muscle fiber types. However, the precise regulatory mechanisms behind these transitions remains unclear. This paper reviews the classification and characteristics of muscle fibers, along with the classical mechanisms of muscle fiber type transitions. Additionally, the role of exercise-induced muscle fiber type transitions in disease intervention is reviewed. Epigenetic pathways mediate cellular adaptations and thus represent potential targets for regulating muscle fiber type transitions. This paper focuses on the mechanisms by which epigenetic modifications couple mitochondrial function and contraction characteristics. Reactive Oxygen Species (ROS) are critical signaling regulators for the health-promoting effects of exercise. Finally, we discuss the role of exercise-induced ROS in regulating epigenetic modifications and the transition of muscle fiber types.

Topics & Concepts

EpigeneticsSkeletal muscleCell biologyFiber typeMitochondrionBiologyNeuroscienceChemistryAnatomyBiochemistryGeneAdipose Tissue and MetabolismMuscle Physiology and DisordersMitochondrial Function and Pathology
Exercise couples mitochondrial function with skeletal muscle fiber type via ROS-mediated epigenetic modification | Litcius