A microRNA switch controls dietary restriction-induced longevity through Wnt signaling

Dietary restriction (DR) is known to have a potent and conserved longevity effect, yet its underlying molecular mechanisms remain elusive. DR modulates signaling pathways in response to nutrient status, a process that also regulates animal development. Here, we show that the suppression of Wnt signaling, a key pathway controlling development, is required for DR-induced longevity in Caenorhabditis elegans. We find that DR induces the expression of mir-235, which inhibits cwn-1/WNT4 expression by binding to the 3-UTR. The switch-on of mir-235 by DR occurs at the onset of adulthood, thereby minimizing potential disruptions in development. Our results therefore implicate that DR controls the adult lifespan by using a temporal microRNA switch to modulate Wnt signaling.