Abstract
Mitsugumin 53 (MG53, also TRIM72) is a muscle-enriched tripartite motif protein with a well-established role in acute membrane repair and cytoprotection in striated muscle and other stressed tissues. MG53 is a core component of cellular repair machinery, rapidly sensing membrane disruption and coordinating membrane resealing, mitochondrial preservation, and anti-inflammatory modulation. In contrast to its high expression in skeletal muscle, endogenous MG53 expression in the adult human heart is minimal, raising the question of how MG53 exerts cardioprotective effects in the human heart. Recent studies help address this by identifying MG53 as a circulating regenerative myokine. MG53 is secreted from skeletal muscle into the bloodstream and can reach distal organs, including the heart. These findings support a muscle-to-heart endocrine model in which MG53 mediates tissue crosstalk and helps provide repair capacity to the myocardium when intrinsic cardiac MG53 is low. Here, we summarize recent advances in MG53 biology, emphasizing molecular mechanisms and inter-organ communication underlying cardioprotection. We further highlight translational strategies leveraging recombinant MG53- and MG53-based therapeutics and discuss challenges that must be addressed for future clinical applications. Collectively, these insights support MG53 as an endocrine repair factor linking skeletal muscle to cardiac repair and a potential regenerative cardiovascular target.