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The hypoxia response pathway promotes PEP carboxykinase and gluconeogenesis in C. elegans

Mehul Vora, Stephanie M. Pyonteck, Tatiana Popovitchenko, Tarmie L. Matlack, Aparna Prashar, Nanci S. Kane, John Favate, Premal Shah, Christopher Rongo

2022Nature Communications56 citationsDOIOpen Access PDF

Abstract

Actively dividing cells, including some cancers, rely on aerobic glycolysis rather than oxidative phosphorylation to generate energy, a phenomenon termed the Warburg effect. Constitutive activation of the Hypoxia Inducible Factor (HIF-1), a transcription factor known for mediating an adaptive response to oxygen deprivation (hypoxia), is a hallmark of the Warburg effect. HIF-1 is thought to promote glycolysis and suppress oxidative phosphorylation. Here, we instead show that HIF-1 can promote gluconeogenesis. Using a multiomics approach, we reveal the genomic, transcriptomic, and metabolomic landscapes regulated by constitutively active HIF-1 in C. elegans. We use RNA-seq and ChIP-seq under aerobic conditions to analyze mutants lacking EGL-9, a key negative regulator of HIF-1. We integrate these approaches to identify over two hundred genes directly and functionally upregulated by HIF-1, including the PEP carboxykinase PCK-1, a rate-limiting mediator of gluconeogenesis. This activation of PCK-1 by HIF-1 promotes survival in response to both oxidative and hypoxic stress. Our work identifies functional direct targets of HIF-1 in vivo, comprehensively describing the metabolome induced by HIF-1 activation in an organism.

Topics & Concepts

GlycolysisWarburg effectMetabolomeGluconeogenesisCell biologyOxidative phosphorylationBiologyTranscription factorAnaerobic glycolysisTranscriptomeRegulatorDownregulation and upregulationMediatorBiochemistryMetabolomicsGeneMetabolismGene expressionBioinformaticsGenetics, Aging, and Longevity in Model OrganismsCancer, Hypoxia, and MetabolismAdipose Tissue and Metabolism
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