Dynamic Response of Musclin, a Myokine, to Aerobic Exercise and Its Interplay With Natriuretic Peptides and Receptor C

Abstract

Objectives: Musclin, recently identified as a myokine, has been recognized for its physiological significance in potentiating the functional properties of natrieutic peptides (NPs) through competitive inhibition of their clearance receptor, natrieutic peptide receptor C (NPR-C). This study, for the first time in the literature, investigated the dynamic response of musclin during and after aerobic exercise in humans, exploring its potential as a myokine and its interaction with NPs and NPR-C in the context of exercise-induced metabolic responses.

Methods: Twenty-one inactive young males participated, and we assessed changes in serum levels of musclin, atrial natriuretic peptide (ANP), brain natriuretic peptide, epinephrine, and glycerol as indicative of lipid mobilization, during and after moderate-intensity aerobic exercise. Furthermore, we evaluated the gene expression of NPR-C in subcutaneous fat biopsies.

Results: Serum musclin levels increased significantly during aerobic exercise, followed by a decline during recovery, remaining elevated compared to baseline. Significant correlations were found between musclin responses and lean body mass (LBM), indicating its regulation by skeletal muscle mass and exercise. Exercise-induced changes in musclin positively correlated with those of ANP, potentially preventing ANP degradation. Additionally, a potential interplay between NPR-C expression and musclin dynamics on ANP was suggested. However, musclin's influence on lipid mobilization was not predominant when considering other lipolytic factors during exercise.

Discussion: Musclin's classification as a myokine is supported by its response to aerobic exercise and its association with LBM. Additionally, its interactions with NPR-C and NPs suggest its physiological relevance and potential clinical implications.