Mutation of daf‐2 extends lifespan via tissue‐specific effectors that suppress distinct life‐limiting pathologies

Mutation of daf‐2 extends lifespan via tissue‐specific effectors that suppress distinct life‐limiting pathologies

In aging Caenorhabditis elegans, as in higher organisms, there is more than one cause of death. C. elegans exhibit early death with a swollen, infected pharynx (P death), and later death with pharyngeal atrophy (p death). Interventions that alter lifespan can differentially affect frequency and timi...

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Veröffentlicht in:Aging cell 2021-03, Vol.20 (3), p.e13324-n/a
Hauptverfasser: Zhao, Yuan, Zhang, Bruce, Marcu, Ioan, Athar, Faria, Wang, Hongyuan, Galimov, Evgeniy R., Chapman, Hannah, Gems, David
Format: Artikel
Sprache:eng
Schlagworte:
Age
Aging
Analysis
Atrophy
Caenorhabditis elegans
Carbenicillin
Death
Forkhead protein
Genetic engineering
genetics
Genotype & phenotype
Hatching
Health aspects
Insulin
Insulin-like growth factors
insulin/IGF‐1 signaling
Kinases
Life span
Mortality
Mutants
Mutation
Necropsy
Nematodes
Original
Original Paper
Pharynx
Phenotypes
Phosphorylation
Worms
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container_issue 3
container_start_page e13324
container_title Aging cell
container_volume 20
creator Zhao, Yuan
Zhang, Bruce
Marcu, Ioan
Athar, Faria
Wang, Hongyuan
Galimov, Evgeniy R.
Chapman, Hannah
Gems, David
description In aging Caenorhabditis elegans, as in higher organisms, there is more than one cause of death. C. elegans exhibit early death with a swollen, infected pharynx (P death), and later death with pharyngeal atrophy (p death). Interventions that alter lifespan can differentially affect frequency and timing of each type of death, generating complex survival curve shapes. Here, we use mortality deconvolution analysis to investigate how reduction of insulin/IGF‐1 signaling (IIS), which increases lifespan (the Age phenotype), affects different forms of death. All daf‐2 insulin/IGF‐1 receptor mutants exhibit increased lifespan in the p subpopulation (p Age), while pleiotropic class 2 daf‐2 mutants show an additional marked reduction in P death frequency. The latter is promoted by pharyngeal expression of the IIS‐regulated DAF‐16 FOXO transcription factor, and at higher temperature by reduced pharyngeal pumping rate. Pharyngeal DAF‐16 also promotes p Age in class 2 daf‐2 mutants, revealing a previously unknown role for the pharynx in the regulation of aging. Necropsy analysis of daf‐2 interactions with the daf‐12 steroid receptor implies that previously described opposing effects of daf‐12 on daf‐2 longevity are attributable to internal hatching of larvae, rather than complex interactions between insulin/IGF‐1 and steroid signaling. These findings support the view that wild‐type IIS acts through multiple distinct mechanisms which promote different life‐limiting pathologies, each of which contribute to late‐life mortality. This study further demonstrates the utility of mortality deconvolution analysis to better understand the genetics of lifespan. Different daf‐2 insulin/IGF‐1 receptor mutations differentially affect different forms of death in C. elegans. This involves tissue‐ and isoform‐specific action of the DAF‐16 FOXO transcription factor, notably in the pharynx where it protects not only against lethal pharyngeal pathology, but also aging more widely. Thus, wild‐type daf‐2 promotes death from old age through multiple effectors with distinct effects on the various senescent pathologies that cause it.
doi_str_mv 10.1111/acel.13324
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Necropsy analysis of daf‐2 interactions with the daf‐12 steroid receptor implies that previously described opposing effects of daf‐12 on daf‐2 longevity are attributable to internal hatching of larvae, rather than complex interactions between insulin/IGF‐1 and steroid signaling. These findings support the view that wild‐type IIS acts through multiple distinct mechanisms which promote different life‐limiting pathologies, each of which contribute to late‐life mortality. This study further demonstrates the utility of mortality deconvolution analysis to better understand the genetics of lifespan. Different daf‐2 insulin/IGF‐1 receptor mutations differentially affect different forms of death in C. elegans. This involves tissue‐ and isoform‐specific action of the DAF‐16 FOXO transcription factor, notably in the pharynx where it protects not only against lethal pharyngeal pathology, but also aging more widely. 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C. elegans exhibit early death with a swollen, infected pharynx (P death), and later death with pharyngeal atrophy (p death). Interventions that alter lifespan can differentially affect frequency and timing of each type of death, generating complex survival curve shapes. Here, we use mortality deconvolution analysis to investigate how reduction of insulin/IGF‐1 signaling (IIS), which increases lifespan (the Age phenotype), affects different forms of death. All daf‐2 insulin/IGF‐1 receptor mutants exhibit increased lifespan in the p subpopulation (p Age), while pleiotropic class 2 daf‐2 mutants show an additional marked reduction in P death frequency. The latter is promoted by pharyngeal expression of the IIS‐regulated DAF‐16 FOXO transcription factor, and at higher temperature by reduced pharyngeal pumping rate. Pharyngeal DAF‐16 also promotes p Age in class 2 daf‐2 mutants, revealing a previously unknown role for the pharynx in the regulation of aging. Necropsy analysis of daf‐2 interactions with the daf‐12 steroid receptor implies that previously described opposing effects of daf‐12 on daf‐2 longevity are attributable to internal hatching of larvae, rather than complex interactions between insulin/IGF‐1 and steroid signaling. These findings support the view that wild‐type IIS acts through multiple distinct mechanisms which promote different life‐limiting pathologies, each of which contribute to late‐life mortality. This study further demonstrates the utility of mortality deconvolution analysis to better understand the genetics of lifespan. Different daf‐2 insulin/IGF‐1 receptor mutations differentially affect different forms of death in C. elegans. This involves tissue‐ and isoform‐specific action of the DAF‐16 FOXO transcription factor, notably in the pharynx where it protects not only against lethal pharyngeal pathology, but also aging more widely. Thus, wild‐type daf‐2 promotes death from old age through multiple effectors with distinct effects on the various senescent pathologies that cause it.</abstract><cop>England</cop><pub>John Wiley &amp; Sons, Inc</pub><pmid>33609424</pmid><doi>10.1111/acel.13324</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-6653-4676</orcidid><orcidid>https://orcid.org/0000-0003-4358-9540</orcidid><oa>free_for_read</oa></addata></record>
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source Wiley Journals; Wiley Online Library Open Access; DOAJ Directory of Open Access Journals; PubMed Central; Alma/SFX Local Collection; EZB Electronic Journals Library
subjects Age
Aging
Analysis
Atrophy
Caenorhabditis elegans
Carbenicillin
Death
Forkhead protein
Genetic engineering
genetics
Genotype & phenotype
Hatching
Health aspects
Insulin
Insulin-like growth factors
insulin/IGF‐1 signaling
Kinases
Life span
Mortality
Mutants
Mutation
Necropsy
Nematodes
Original
Original Paper
Pharynx
Phenotypes
Phosphorylation
Worms
title Mutation of daf‐2 extends lifespan via tissue‐specific effectors that suppress distinct life‐limiting pathologies
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