Summary
Twenty-eight years following the breakthrough discovery that a single-gene mutation of daf-2 can double the lifespan of Caenorhabditis elegans, it remains unclear where this gene, which encodes an insulin/IGF-1 receptor, is expressed and where it acts to regulate aging. Here, by inserting DNA sequences of fluorescent tags into the genomic locus of daf-2 and that of its downstream transcription factor daf-16, we determined that both genes are expressed in most or all tissues from embryos through adulthood, in line with their diverse functions. Using tissue-specific auxin-induced protein degradation, we determined that both DAF-2 and DAF-16 act in the intestine to regulate organismal aging. Strikingly, loss of DAF-2 in the intestine nearly doubled C. elegans lifespan but did not produce the adverse developmental or reproductive phenotypes associated with genetic daf-2 mutants. These findings unify the mechanism of lifespan regulation by genes and that by dietary restriction, and begin to focus anti-aging research on nutrient supply.
Highlights
daf-2 and daf-16 are expressed in most or all cells of C. elegans using genome editing.
DAF-2 and DAF-16 both regulate lifespan from the intestine as determined using auxin-induced protein degradation.
Reduced insulin signaling in the intestine nearly doubles C. elegans lifespan without adverse effects on development or reproduction.
Lifespan regulation by genes and dietary restriction are unified by intestinal supply of nutrients and metabolism.
Competing Interest Statement
The authors have declared no competing interest.