RRC ID 76088
Author Wang F, Dai Y, Zhu X, Chen Q, Zhu H, Zhou B, Tang H, Pang S.
Title Saturated very long chain fatty acid configures glycosphingolipid for lysosome homeostasis in long-lived C. elegans.
Journal Nat Commun
Abstract The contents of numerous membrane lipids change upon ageing. However, it is unknown whether and how any of these changes are causally linked to lifespan regulation. Acyl chains contribute to the functional specificity of membrane lipids. In this study, working with C. elegans, we identified an acyl chain-specific sphingolipid, C22 glucosylceramide, as a longevity metabolite. Germline deficiency, a conserved lifespan-extending paradigm, induces somatic expression of the fatty acid elongase ELO-3, and behenic acid (22:0) generated by ELO-3 is incorporated into glucosylceramide for lifespan regulation. Mechanistically, C22 glucosylceramide is required for the membrane localization of clathrin, a protein that regulates membrane budding. The reduction in C22 glucosylceramide impairs the clathrin-dependent autophagic lysosome reformation, which subsequently leads to TOR activation and longevity suppression. These findings reveal a mechanistic link between membrane lipids and ageing and suggest a model of lifespan regulation by fatty acid-mediated membrane configuration.
Volume 12(1)
Pages 5073
Published 2021-8-20
DOI 10.1038/s41467-021-25398-6
PII 10.1038/s41467-021-25398-6
PMID 34417467
PMC PMC8379269
MeSH Animals Caenorhabditis elegans / physiology* Caenorhabditis elegans Proteins / metabolism Ceramides / metabolism Cholesterol / metabolism Clathrin / metabolism Fatty Acids, Nonesterified / metabolism* Germ-Line Mutation / genetics Glycosphingolipids / metabolism* Green Fluorescent Proteins / metabolism Homeostasis* Larva / metabolism Longevity / physiology* Lysosomes / metabolism* Models, Biological RNA Interference Stress, Physiological
Resource
C.elegans tm3425