Literature DB >> 21862587

Caenorhabditis elegans UCP4 protein controls complex II-mediated oxidative phosphorylation through succinate transport.

Matthew Pfeiffer1, Ernst-Bernhard Kayzer, Xianmei Yang, Ellen Abramson, M Alexander Kenaston, Cory U Lago, Herng-Hsiang Lo, Margaret M Sedensky, Adam Lunceford, Catherine F Clarke, Sarah J Wu, Chris McLeod, Toren Finkel, Philip G Morgan, Edward M Mills.   

Abstract

The novel uncoupling proteins (UCP2-5) are implicated in the mitochondrial control of oxidant production, insulin signaling, and aging. Attempts to understand their functions have been complicated by overlapping expression patterns in most organisms. Caenorhabditis elegans nematodes are unique because they express only one UCP ortholog, ceUCP4 (ucp4). Here, we performed detailed metabolic analyzes in genetically modified nematodes to define the function of the ceUCP4. The knock-out mutant ucp4 (ok195) exhibited sharply decreased mitochondrial succinate-driven (complex II) respiration. However, respiratory coupling and electron transport chain function were normal in ucp4 mitochondria. Surprisingly, isolated ucp4 mitochondria showed markedly decreased succinate uptake. Similarly, ceUCP4 inhibition blocked succinate respiration and import in wild type mitochondria. Genetic and pharmacologic inhibition of complex I function was selectively lethal to ucp4 worms, arguing that ceUCP4-regulated succinate transport is required for optimal complex II function in vivo. Additionally, ceUCP4 deficiency prolonged lifespan in the short-lived mev1 mutant that exhibits complex II-generated oxidant production. These results identify a novel function for ceUCP4 in the regulation of complex II-based metabolism through an unexpected mechanism involving succinate transport.

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Year:  2011        PMID: 21862587      PMCID: PMC3199514          DOI: 10.1074/jbc.M111.271452

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.486


  52 in total

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