MG53-IRS-1 (Mitsugumin 53-Insulin Receptor Substrate-1) Interaction Disruptor Sensitizes Insulin Signaling in Skeletal Muscle

Abstract: Edited by Jeffrey PessinMitsugumin 53 (MG53) is an E3 ligase that interacts with and ubiquitinates insulin receptor substrate-1 (IRS-1) in skeletal muscle; thus, an MG53-IRS-1 interaction disruptor (MID), which potentially sensitizes insulin signaling with an elevated level of IRS-1 in skeletal muscle, is an excellent candidate for treating insulin resistance. To screen for an MID, we developed a bimolecular luminescence complementation system using an N-terminal luciferase fragment fused with IRS-1 and a C-te… Show more

“…The IRS family of proteins serves a central role in insulin signal transduction. Studies have demonstrated that elevated MG53 in skeletal muscle may ubiquitinate IRS-1 and subsequently decrease AKT phosphorylation, which is considered to be one important mechanism of insulin resistance in T2D or metabolic disorders (24,27). Thus, in the present study, the protein expression levels of insulin receptor, IRS-1 and p-AKT in skeletal muscle were analyzed to further confirm whether skeletal muscle MG53 may be a potential therapeutic target during the treatment of T2D by MSC infusion.…”

“…Therefore, the expression of MG53 in skeletal muscle during T2D should be investigated in greater detail. In addition, the aforementioned studies (19,24,27) identified that MSC infusion and MG53 may exert their effects via certain common molecules in the insulin signaling pathway, including IRS-1, AKT phosphorylation and Glut4, and our previous results indicated that MSC infusion inhibited MG53 elevation in the cardiac muscle of T2D rats (30). Therefore, it was hypothesized that MG53 in skeletal muscle may be a promising novel therapeutic target protein for MSC-mediated amelioration of insulin resistance in T2D.…”

“…Recent studies have demonstrated that the muscle-specific TRIM family protein mitsugumin 53 (MG53; also termed TRIM72) is implicated in insulin resistance (24)(25)(26)(27). In addition to acting as a key component of plasma membrane repair during normal cellular physiology (28,29), MG53 is also an E3 ligase that interacts with IRS-1 (24,25,27,29). Certain studies have demonstrated that MG53 expression is elevated in the skeletal muscle of rodents and humans with insulin resistance or metabolic disorders (24,27).…”

“…In addition to acting as a key component of plasma membrane repair during normal cellular physiology (28,29), MG53 is also an E3 ligase that interacts with IRS-1 (24,25,27,29). Certain studies have demonstrated that MG53 expression is elevated in the skeletal muscle of rodents and humans with insulin resistance or metabolic disorders (24,27). In addition, it has been indicated that elevated MG53 in skeletal muscle may interact with and ubiquitinated IRS-1, thereby disrupting insulin signaling and inducing insulin resistance or metabolic disorders (24,27).…”

“…Certain studies have demonstrated that MG53 expression is elevated in the skeletal muscle of rodents and humans with insulin resistance or metabolic disorders (24,27). In addition, it has been indicated that elevated MG53 in skeletal muscle may interact with and ubiquitinated IRS-1, thereby disrupting insulin signaling and inducing insulin resistance or metabolic disorders (24,27). Notably, the role of MG53 in metabolic disorders is controversial, as other studies have indicated that muscle samples derived from human diabetic patients and mice with insulin resistance exhibit normal expression of MG53 (25,26).…”

Infusion of adipose‑derived mesenchymal stem cells inhibits skeletal muscle mitsugumin 53 elevation and thereby alleviates insulin resistance in type 2 diabetic rats

“…The IRS family of proteins serves a central role in insulin signal transduction. Studies have demonstrated that elevated MG53 in skeletal muscle may ubiquitinate IRS-1 and subsequently decrease AKT phosphorylation, which is considered to be one important mechanism of insulin resistance in T2D or metabolic disorders (24,27). Thus, in the present study, the protein expression levels of insulin receptor, IRS-1 and p-AKT in skeletal muscle were analyzed to further confirm whether skeletal muscle MG53 may be a potential therapeutic target during the treatment of T2D by MSC infusion.…”

“…Therefore, the expression of MG53 in skeletal muscle during T2D should be investigated in greater detail. In addition, the aforementioned studies (19,24,27) identified that MSC infusion and MG53 may exert their effects via certain common molecules in the insulin signaling pathway, including IRS-1, AKT phosphorylation and Glut4, and our previous results indicated that MSC infusion inhibited MG53 elevation in the cardiac muscle of T2D rats (30). Therefore, it was hypothesized that MG53 in skeletal muscle may be a promising novel therapeutic target protein for MSC-mediated amelioration of insulin resistance in T2D.…”

“…Recent studies have demonstrated that the muscle-specific TRIM family protein mitsugumin 53 (MG53; also termed TRIM72) is implicated in insulin resistance (24)(25)(26)(27). In addition to acting as a key component of plasma membrane repair during normal cellular physiology (28,29), MG53 is also an E3 ligase that interacts with IRS-1 (24,25,27,29). Certain studies have demonstrated that MG53 expression is elevated in the skeletal muscle of rodents and humans with insulin resistance or metabolic disorders (24,27).…”

“…In addition to acting as a key component of plasma membrane repair during normal cellular physiology (28,29), MG53 is also an E3 ligase that interacts with IRS-1 (24,25,27,29). Certain studies have demonstrated that MG53 expression is elevated in the skeletal muscle of rodents and humans with insulin resistance or metabolic disorders (24,27). In addition, it has been indicated that elevated MG53 in skeletal muscle may interact with and ubiquitinated IRS-1, thereby disrupting insulin signaling and inducing insulin resistance or metabolic disorders (24,27).…”

“…Certain studies have demonstrated that MG53 expression is elevated in the skeletal muscle of rodents and humans with insulin resistance or metabolic disorders (24,27). In addition, it has been indicated that elevated MG53 in skeletal muscle may interact with and ubiquitinated IRS-1, thereby disrupting insulin signaling and inducing insulin resistance or metabolic disorders (24,27). Notably, the role of MG53 in metabolic disorders is controversial, as other studies have indicated that muscle samples derived from human diabetic patients and mice with insulin resistance exhibit normal expression of MG53 (25,26).…”

Infusion of adipose‑derived mesenchymal stem cells inhibits skeletal muscle mitsugumin 53 elevation and thereby alleviates insulin resistance in type 2 diabetic rats

MG53 marks poor beta cell performance and predicts onset of type 2 diabetes in subjects with different degrees of glucose tolerance.

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