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Cell metabolism

Increased levels of hydrogen peroxide induce a HIF-1-dependent modification of lipid metabolism in AMPK compromised C. elegans dauer larvae.


PMID 22921415

Abstract

Cells have evolved numerous mechanisms to circumvent stresses caused by the environment, and many of them are regulated by the AMP-activated kinase (AMPK). Unlike most organisms, C.xa0elegans AMPK-null mutants are viable, but they die prematurely in the "long-lived" dauer stage duexa0to exhaustion of triglyceride stores. Usingxa0a genome-wide RNAi approach, we demonstrate that the disruption of genes that increase hydrogen peroxide levels enhance the survival of AMPK mutant dauers by altering both the abundance and the nature of the fatty-acid content in the animal byxa0increasing the HIF-1-dependent expression of several key enzymes involved in fatty-acid biosynthesis. Our data provide a mechanistic foundation to explain how an optimal level of an often vilified ROS-generating compound such as hydrogen peroxide can provide cellular benefit, a phenomenon described as hormesis, by instructing cells to readjust their lipid biosynthetic capacity through downstream HIF-1 activation to correct cellular energy deficiencies.