Litcius/Paper detail

Global, cell non-autonomous gene regulation drives individual lifespan among isogenic C. elegans

Holly E. Kinser, Matthew C. Mosley, Isaac Plutzer, Zachary Pincus

2021eLife28 citationsDOIOpen Access PDF

Abstract

reared in homogeneous environments are as variable in lifespan as outbred human populations. We hypothesized that persistent inter-individual differences in expression of key regulatory genes drives this lifespan variability. As a test, we examined the relationship between future lifespan and the expression of 22 microRNA promoter::GFP constructs. Surprisingly, expression of nearly half of these reporters, well before death, could effectively predict lifespan. This indicates that prospectively long- vs. short-lived individuals have highly divergent patterns of transgene expression and transcriptional regulation. The gene-regulatory processes reported on by two of the most lifespan-predictive transgenes do not require DAF-16, the FOXO transcription factor that is a principal effector of insulin/insulin-like growth factor (IGF-1) signaling. Last, we demonstrate a hierarchy of redundancy in lifespan-predictive ability among three transgenes expressed in distinct tissues, suggesting that they collectively report on an organism-wide, cell non-autonomous process that acts to set each individual's lifespan.

Topics & Concepts

Caenorhabditis elegansBiologyGeneGeneticsGene driveComputational biologyCell biologyCRISPRGenetics, Aging, and Longevity in Model OrganismsSpaceflight effects on biology