Cell Metabolism
Volume 11, Issue 1, 6 January 2010, Pages 84-92
Journal home page for Cell Metabolism

Short Article
Irs1 Serine 307 Promotes Insulin Sensitivity in Mice

https://doi.org/10.1016/j.cmet.2009.11.003Get rights and content
Under an Elsevier user license
open archive

Summary

Phosphorylation of the insulin receptor substrates (Irs) on serine residues—typified by Ser307 of rodent Irs1—is thought to mediate insulin resistance. To determine whether Ser307 negatively regulates Irs1 in vivo, we generated knockin mice in which Ser307 (human Ser312) was replaced with alanine (A/A). Unexpectedly, A/A mice that were fed a high-fat diet developed more severe insulin resistance than control mice, accompanied by enhanced pancreatic compensation and impaired muscle insulin signaling. Chow-fed mice whose livers lacked Irs2 but retained a single knockin allele (A/lox::LKO2) were profoundly insulin resistant (versus +/lox::LKO2 mice), and their hepatocytes showed impaired insulin signaling ex vivo. Similarly, mutant A307 Irs1 adenovirus only partially restored the response to injected insulin in mice lacking hepatic Irs1 and Irs2. Thus, contrary to the results of cell-based experiments, Ser307 in mice is a positive regulatory site that moderates the severity of insulin resistance by maintaining proximal insulin signaling.

Highlights

► The function of Irs1 Ser307 was examined in Ser307Ala knockin mice (A/A) ► A/A mice showed more severe diet-induced insulin resistance than controls ► A307 Irs1 only weakly mediated the insulin signal in Irs2-deficient liver ► Impaired sensitivity was correlated with decreased PI3 kinase binding by A307 Irs1

HUMDISEASE
SIGNALING

Cited by (0)