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

In the nematode , 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...

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Veröffentlicht in:	eLife 2020-02, Vol.9
Hauptverfasser:	Martinez, Bryan A, Reis Rodrigues, Pedro, Nuñez Medina, Ricardo M, Mondal, Prosenjit, Harrison, Neale J, Lone, Museer A, Webster, Amanda, Gurkar, Aditi U, Grill, Brock, Gill, Matthew S
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Schlagworte:	Aging Alternative Splicing Animals Caenorhabditis elegans - genetics Caenorhabditis elegans - metabolism Caenorhabditis elegans Proteins - genetics CRISPR DAF-2 dauer formation Developmental Biology Diapause Genes, Helminth Genetic research Genetics and Genomics Genomes Growth factors Insulin Insulin - chemistry Insulin - metabolism Insulin resistance insulin sensitivity Intracellular signalling Journalists Kinases Larvae Life span Ligands Mammals Molecular weight Mutation Novels Peptides Proteins Receptor, Insulin - genetics Roundworms Signal Transduction Transcription Young adults
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description	In the nematode , 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 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 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 alternative splicing at the locus generates a truncated IR that fine-tunes insulin signaling in response to the environment.
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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 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 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. 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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 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 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. 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subjects	Aging Alternative Splicing Animals Caenorhabditis elegans - genetics Caenorhabditis elegans - metabolism Caenorhabditis elegans Proteins - genetics CRISPR DAF-2 dauer formation Developmental Biology Diapause Genes, Helminth Genetic research Genetics and Genomics Genomes Growth factors Insulin Insulin - chemistry Insulin - metabolism Insulin resistance insulin sensitivity Intracellular signalling Journalists Kinases Larvae Life span Ligands Mammals Molecular weight Mutation Novels Peptides Proteins Receptor, Insulin - genetics Roundworms Signal Transduction Transcription Young adults
title	An alternatively spliced, non-signaling insulin receptor modulates insulin sensitivity via insulin peptide sequestration in C. elegans
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