Litcius/Paper detail

Changes in ferrous iron and glutathione promote ferroptosis and frailty in aging Caenorhabditis elegans

Nicole L. Jenkins, Simon James, Agus Salim, Fransisca Sumardy, Terence P. Speed, Marcus Conrad, Des R. Richardson, Ashley I. Bush, Gawain McColl

2020eLife146 citationsDOIOpen Access PDF

Abstract

All eukaryotes require iron. Replication, detoxification, and a cancer-protective form of regulated cell death termed ferroptosis, all depend on iron metabolism. Ferrous iron accumulates over adult lifetime in Caenorhabditis elegans. Here, we show that glutathione depletion is coupled to ferrous iron elevation in these animals, and that both occur in late life to prime cells for ferroptosis. We demonstrate that blocking ferroptosis, either by inhibition of lipid peroxidation or by limiting iron retention, mitigates age-related cell death and markedly increases lifespan and healthspan. Temporal scaling of lifespan is not evident when ferroptosis is inhibited, consistent with this cell death process acting at specific life phases to induce organismal frailty, rather than contributing to a constant aging rate. Because excess age-related iron elevation in somatic tissue, particularly in brain, is thought to contribute to degenerative disease, post-developmental interventions to limit ferroptosis may promote healthy aging.

Topics & Concepts

FerrousCaenorhabditis elegansProgrammed cell deathCell biologyBiologyGlutathioneSomatic cellGPX4AgeingLipid peroxidationProteostasisOxidative stressChemistryGeneticsBiochemistryApoptosisEnzymeGeneOrganic chemistryGlutathione peroxidaseGenetics, Aging, and Longevity in Model OrganismsGDF15 and Related BiomarkersSelenium in Biological Systems