Alternative Mitochondrial Fuel Extends Life Span

In this issue of Cell Metabolism, Ristow and colleagues (Zarse et al., 2012) elucidate a conserved mechanism through which reduced insulin-IGF1 signaling activates an AMP-kinase-driven metabolic shift toward oxidative proline metabolism. This, in turn, produces an adaptive mitochondrial ROS signal that extends worm life span. These findings further bolster the concept of mitohormesis as a critical component of conserved aging and longevity pathways