Abstract
Dietary restriction (DR) robustly delays the aging process in all animals tested so far. DR slows aging by negatively regulating the target of rapamycin (TOR) and S6 kinase (S6K) signaling pathway and thus inhibiting translation. Translation inhibition in C. elegans is known to activate the innate immune signal ZIP‐2. Here, we show that ZIP‐2 is activated in response to DR and in feeding‐defective eat‐2 mutants. Importantly, ZIP‐2 contributes to the improvements in longevity and healthy aging, including mitochondrial integrity and physical ability, mediated by DR in C. elegans. We further show that ZIP‐2 is activated upon inhibition of TOR/S6K signaling. However, DR‐mediated activation of ZIP‐2 does not require the TOR/S6K effector PHA‐4/FOXA. Furthermore, zip‐2 was not activated or required for longevity in daf‐2 mutants, which mimic a low nutrition status. Thus, DR appears to activate ZIP‐2 independently of PHA‐4/FOXA and DAF‐2. The link between DR, aging, and immune activation provides practical insight into the DR‐induced benefits on health span and longevity.
Highlights
We hypothesized that ZIP‐2 activation contrib‐ utes to Dietary restriction (DR)‐induced longevity in C. elegans, downstream of translational inhibition
First we examined ZIP‐2 activity in response to DR in C. elegans
We found that the ZIP‐2 target gene irg‐1 was more highly expressed in wild‐type strains (N2) fed a DR regimen compared with those fed ad libitum (AL) (Figure 1a)
Summary
ZIP‐2 contributes to the improvements in longevity and healthy aging, including mi‐ tochondrial integrity and physical ability, mediated by DR in C. elegans. Zip‐2 was not activated or required for longevity in daf‐2 mutants, which mimic a low nutrition status. We hypothesized that ZIP‐2 activation contrib‐ utes to DR‐induced longevity in C. elegans, downstream of translational inhibition.
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