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Individual cell types in C. elegans age differently and activate distinct cell-protective responses

Antoine E. Roux, Han Yuan, Katie Podshivalova, David G. Hendrickson, Rex Kerr, Cynthia Kenyon, David R. Kelley

2023Cell Reports98 citationsDOIOpen Access PDF

Abstract

Aging is characterized by a global decline in physiological function. However, by constructing a complete single-cell gene expression atlas, we find that Caenorhabditis elegans aging is not random in nature but instead is characterized by coordinated changes in functionally related metabolic, proteostasis, and stress-response genes in a cell-type-specific fashion, with downregulation of energy metabolism being the only nearly universal change. Similarly, the rates at which cells age differ significantly between cell types. In some cell types, aging is characterized by an increase in cell-to-cell variance, whereas in others, variance actually decreases. Remarkably, multiple resilience-enhancing transcription factors known to extend lifespan are activated across many cell types with age; we discovered new longevity candidates, such as GEI-3, among these. Together, our findings suggest that cells do not age passively but instead react strongly, and individualistically, to events that occur during aging. This atlas can be queried through a public interface.

Topics & Concepts

ProteostasisCaenorhabditis elegansBiologyCellCell typeTranscription factorDownregulation and upregulationCell biologyLongevityCell growthGeneGeneticsGenetics, Aging, and Longevity in Model OrganismsSingle-cell and spatial transcriptomics