Mild Mitochondrial Impairment Activates Overlapping Longevity Pathways Converging on the Flavin-Containing Monooxygenase FMO-2

A mild impairment of mitochondrial function activates the hypoxia inducible factor (HIF-1)-mediated hypoxia stress response pathway leading to a HIF-1-dependent increase in lifespan. Lifespan extension resulting from HIF-1 stabilization is dependent on activation of flavin-containing monooxygenase-2 (FMO-2). In this work, we explored the role of fmo-2 in the long lifespan of genetic mitochondrial mutants in C. elegans. We found that fmo-2, but not other fmo genes, are specifically upregulated in the long-lived mitochondrial mutants clk-1, isp-1 and nuo-6. Disruption of fmo-2 through RNA interference or genetic mutation shortens the lifespan of these mitochondrial mutants indicating that fmo-2 is required for lifespan extension in these worms. Moreover, signaling molecules that have been shown to be involved in upregulation of fmo-2 are also required for the long life of clk-1, isp-1 and nuo-6 mutants including HLH-30, NHR-49 and MDT-15. Finally, we examined the effect of multiple lifespan-promoting pathways in clk-1 mutants on the expression of fmo-2. We found that in all cases, genes required for clk-1 longevity are also required for the upregulation of fmo-2 in clk-1 worms. These genes included DAF-16, PMK-1, SKN-1, CEH-23, AAK-2, HIF-1 and ELT-2. Combined, this work advances our understanding of the molecular mechanisms contributing to longevity in the long-lived mitochondrial mutants and identifies FMO-2 as a common downstream effector of multiple pathways that modulate longevity.