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The serine phosphorylations in the IRS-1 PIR domain abrogate IRS-1 and IR interaction

Ju Rang Woo, Seung-Hyun Bae, Thomas E. Wales, John R. Engen, Jongsoon Lee, Hyonchol Jang, SangYoun Park

2024Proceedings of the National Academy of Sciences30 citationsDOIOpen Access PDF

Abstract

Serine phosphorylations on insulin receptor substrate 1 (IRS-1) by diverse kinases aoccur widely during obesity-, stress-, and inflammation-induced conditions in models of insulin resistance and type 2 diabetes. In this study, we define a region within the human IRS-1, which is directly C-terminal to the PTB domain encompassing numerous serine phosphorylation sites including Ser307 (mouse Ser302) and Ser312 (mouse 307) creating a phosphorylation insulin resistance (PIR) domain. We demonstrate that the IRS-1 PTB-PIR with its unphosphorylated serine residues interacts with the insulin receptor (IR) but loses the IR-binding when they are phosphorylated. Surface plasmon resonance studies further confirm that the PTB-PIR binds stronger to IR than just the PTB domain, and that phosphorylations at Ser307, Ser312, Ser315, and Ser323 within the PIR domain result in abrogating the binding. Insulin-responsive cells containing the mutant IRS-1 with all these four serines changed into glutamates to mimic phosphorylations show decreased levels of phosphorylations in IR, IRS-1, and AKT compared to the wild-type IRS-1. Hydrogen-deuterium exchange mass spectrometry experiments indicating the PIR domain interacting with the N-terminal lobe and the hinge regions of the IR kinase domain further suggest the possibility that the IRS-1 PIR domain protects the IR from the PTP1B-mediated dephosphorylation.

Topics & Concepts

PhosphorylationIRS1SerineInsulin receptorDephosphorylationPhosphotyrosine-binding domainKinaseProtein kinase domainChemistryCell biologyInsulin receptor substrateInsulin resistanceBiologyBiochemistryMutantInsulinEndocrinologyPhosphataseTyrosine phosphorylationSH2 domainGeneProtein Kinase Regulation and GTPase SignalingProtein Tyrosine PhosphatasesMetabolism, Diabetes, and Cancer
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