Leptin down-regulates insulin action through phosphorylation of serine-318 in insulin receptor substrate 1

doi:10.1096/fj.05-4635fje

Leptin down-regulates insulin action through phosphorylation of serine-318 in insulin receptor substrate 1

Anita M. Hennige, Norbert Stefan, Katja Kapp, Rainer Lehmann, Cora Weigert, Alexander Beck, Klaus Moeschel, Joanne Mushack, Erwin Schleicher and Hans-Ulrich Häring¹

University of Tuebingen, Department of Internal Medicine IV, Tuebingen, Germany

¹Correspondence: University of Tuebingen, Department of Internal Medicine IV, Tuebingen D-72076, Germany. E-mail: hans-ulrich.haering{at}med.uni-tuebingen.de

ABSTRACT

Insulin resistance in skeletal muscle is found in obesity andtype 2 diabetes. A mechanism for impaired insulin signalingin peripheral tissues is the inhibition of insulin action throughserine phosphorylation of insulin receptor substrate (Irs) proteinsthat abolish the coupling of Irs proteins to the activated insulinreceptor. Recently, we described serine-318 as a protein kinaseC (PKC)-dependent phosphorylation site in Irs1 (Ser-318) activatedby hyperinsulinemia. Here we show in various cell models thatthe adipose hormone leptin, a putative mediator in obesity-relatedinsulin resistance, promotes phosphorylation of Ser-318 in Irs1by a janus kinase 2, Irs2, and PKC-dependent pathway. Mutationof Ser-318 to alanine abrogates the inhibitory effect of leptinon insulin-induced Irs1 tyrosine phosphorylation and glucoseuptake in L6 myoblasts. In C57Bl/6 mice, Ser-318 phosphorylationlevels in muscle tissue were enhanced by leptin and insulinadministration in lean animals while in diet-induced obesitySer-318 phosphorylation levels were already up-regulated inthe basal state, and further stimulation was diminished. Inanalogy, in lymphocytes of obese hyperleptinemic human subjectsbasal Ser-318 phosphorylation levels were increased comparedto lean individuals. During a hyperinsulinemic euglycemic clamp,the increment in Ser-318 phosphorylation observed in lean individualswas absent in obese. In summary, these data suggest that phosphorylationof Ser-318 in Irs1 mediates the inhibitory signal of leptinon the insulin-signaling cascade in obese subjects.—HennigeA. M., Stefan N., Kapp K., Lehmann R., Weigert C., Beck A.,Moeschel K., Mushack J., Schleicher E., and Häring H. U.Leptin down-regulates insulin action through phosphorylationof serine-318 in insulin receptor substrate 1.

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