Skeletal muscle regeneration requires extracellular matrix (ECM) remodeling including an acute and transient breakdown of collagen that produces gelatin. However, the physiological function of such a remodeling process on muscle tissue repair is unclear. Here we elaborate on a bi-phasic effect of gelatin in skeletal muscle regeneration, mediated by hormetic effects of reactive oxygen species (ROS). Low-dose gelatin stimulates ROS production from NADPH oxidase 2 (NOX2) and simultaneously upregulates antioxidant system for cellular defense, reminiscent of the adaptive compensatory process during mild stress. This response triggers the release of myokine IL-6 which stimulates myogenesis and facilitates muscle regeneration. By contrast, high-dose gelatin stimulates ROS overproduction from NOX2 and mitochondrial chain complex, and ROS accumulation by suppressing antioxidant system, triggering release of TNFα, which inhibits myogenesis and regeneration. Our findings reveal gelatin-ROS-IL-6/TNFα signaling cascades underlying a hormetic response of myogenic cells to gelatin.
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