Temporal pattern of neuronal insulin release during Caenorhabditis elegans aging: Role of redox homeostasis

AbstractThe insulin ‐IGF‐1/DAF‐2 pathway has a central role in the determination of aging and longevity inCaenorhabditis elegans and other organisms. In this paper, we measured neuronal insulin secretion (using INS ‐22::Venus) duringC.  elegans lifespan and monitored how this secretion is modified by redox homeostasis. We showed that INS ‐22::Venus secretion fluctuates during the organism lifetime reaching maximum levels in the active reproductive stage. We also demonstrate that long‐liveddaf ‐2 insulin receptor mutants show remarkable low levels of INS ‐22::Venus secretion. In contrast, we found that short‐lived mutant worms that lack the oxidation repair enzyme MSRA‐1 show increased levels of INS‐22::Venus secretion, specifically during the reproductive stage. MSRA‐1 is a target of the insulin‐IGF‐1/DAF‐2 pathway, and the expressi on of this antioxidant enzyme exclusively in the nervous system rescues the mutant insulin release phenotype and longevity. Themsra ‐1 mutant phenotype can also be reverted by antioxidant treatment during the active reproductive stage. We showed for the first time that there is a pattern of neuronal insulin release with a noticeable increment during the peak of reproduction. Our results suggest that redox homeostasis can modulate longevity through the regulation of insulin secretion, and that the insulin ‐IGF‐1/DAF‐2 pathway could be regulated, at least in part, by a feedback loop. These findings highlight th...
Source: Aging Cell - Category: Cytology Authors: Tags: ORIGINAL PAPER Source Type: research