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Insulin signaling regulates longevity through protein phosphorylation in Caenorhabditis elegans

Wen-Jun Li, Chenwei Wang, Tao Li, Yong-Hong Yan, Mei-Jun Zhang, Zexian Liu, Yu-Xin Li, Han‐Qing Zhao, Xue-mei Li, Xian-Dong He, Yu Xue, Meng‐Qiu Dong

2021Nature Communications87 citationsDOIOpen Access PDF

Abstract

Insulin/IGF-1 Signaling (IIS) is known to constrain longevity by inhibiting the transcription factor FOXO. How phosphorylation mediated by IIS kinases regulates lifespan beyond FOXO remains unclear. Here, we profile IIS-dependent phosphorylation changes in a large-scale quantitative phosphoproteomic analysis of wild-type and three IIS mutant Caenorhabditis elegans strains. We quantify more than 15,000 phosphosites and find that 476 of these are differentially phosphorylated in the long-lived daf-2/insulin receptor mutant. We develop a machine learning-based method to prioritize 25 potential lifespan-related phosphosites. We perform validations to show that AKT-1 pT492 inhibits DAF-16/FOXO and compensates the loss of daf-2 function, that EIF-2α pS49 potently inhibits protein synthesis and daf-2 longevity, and that reduced phosphorylation of multiple germline proteins apparently transmits reduced DAF-2 signaling to the soma. In addition, an analysis of kinases with enriched substrates detects that casein kinase 2 (CK2) subunits negatively regulate lifespan. Our study reveals detailed functional insights into longevity.

Topics & Concepts

Caenorhabditis elegansPhosphorylationBiologyProto-Oncogene Proteins c-aktLongevityKinaseInsulin receptorCasein kinase 1Cell biologyMutantSignal transductionCasein kinase 2Transcription factorProtein kinase BGeneticsInsulinProtein kinase AGeneMitogen-activated protein kinase kinaseInsulin resistanceEndocrinologyGenetics, Aging, and Longevity in Model Organisms
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