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An alternatively spliced, non-signaling insulin receptor modulates insulin sensitivity via insulin peptide sequestration in C. elegans

Bryan Martinez, Pedro R. Rodrigues, Ricardo M Nuñez Medina, Prosenjit Mondal, Neale Harrison, Museer A. Lone, Amanda Webster, Aditi U. Gurkar, Brock Grill, Matthew S. Gill

2020eLife29 citationsDOIOpen Access PDF

Abstract

In the nematode C. elegans, insulin signaling regulates development and aging in response to the secretion of numerous insulin peptides. Here, we describe a novel, non-signaling isoform of the nematode insulin receptor (IR), DAF-2B, that modulates insulin signaling by sequestration of insulin peptides. DAF-2B arises via alternative splicing and retains the extracellular ligand binding domain but lacks the intracellular signaling domain. A daf-2b splicing reporter revealed active regulation of this transcript through development, particularly in the dauer larva, a diapause stage associated with longevity. CRISPR knock-in of mScarlet into the daf-2b genomic locus confirmed that DAF-2B is expressed in vivo and is likely secreted. Genetic studies indicate that DAF-2B influences dauer entry, dauer recovery and adult lifespan by altering insulin sensitivity according to the prevailing insulin milieu. Thus, in C. elegans alternative splicing at the daf-2 locus generates a truncated IR that fine-tunes insulin signaling in response to the environment.

Topics & Concepts

Insulin receptorBiologyInsulinAlternative splicingCell biologySignal transductionCaenorhabditis elegansRNA splicingInsulin receptor substrateGene isoformGeneticsGeneEndocrinologyInsulin resistanceRNAGenetics, Aging, and Longevity in Model OrganismsCircadian rhythm and melatoninMuscle Physiology and Disorders
An alternatively spliced, non-signaling insulin receptor modulates insulin sensitivity via insulin peptide sequestration in C. elegans | Litcius