Literature DB >> 19735676

Synthesis of cytochrome c oxidase subunit 1 is translationally downregulated in the absence of functional F1F0-ATP synthase.

Ileana C Soto1, Flavia Fontanesi, Melvys Valledor, Darryl Horn, Rajiv Singh, Antoni Barrientos.   

Abstract

The mitochondrial F(1)F(0)-ATP synthase or ATPase is a key enzyme for aerobic energy production in eukaryotic cells. Mutations in ATPase structural and assembly genes are the primary cause of severe human encephalomyopathies, frequently associated with a pleiotropic decrease in cytochrome c oxidase (COX) activity. We have studied the structural and functional constraints underlying the COX defect using Saccharomyces cerevisiae genetic and pharmacological models of ATPase deficiency. In both yeast Deltaatp10 and oligomycin-treated wild type cells, COX assembly is selectively impaired in the absence of functional ATPase. The COX biogenesis defect does not involve a primary alteration in the expression of the COX subunits as previously suggested but in their maturation and/or assembly. Expression of COX subunit 1, however, is translationally regulated as in most bona fide COX assembly mutants. Additionally, the COX defect in oligomycin-inhibited ATPase-deficient yeast cells, but not in atp10 cells could be partially prevented by partially dissipating the mitochondrial membrane potential using the uncoupler CCCP. Similar results were obtained with oligomycin-treated and ATP12-deficient human fibroblasts respectively. Our findings imply that fully assembled ATPase and its proton pumping function are both required for COX biogenesis in yeast and mammalian cells through a mechanism independent of Cox1p synthesis.

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Year:  2009        PMID: 19735676      PMCID: PMC2764804          DOI: 10.1016/j.bbamcr.2009.09.002

Source DB:  PubMed          Journal:  Biochim Biophys Acta        ISSN: 0006-3002


  63 in total

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  21 in total

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7.  Responses of macrophages against Salmonella infection compared with phagocytosis.

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10.  Experimental relocation of the mitochondrial ATP9 gene to the nucleus reveals forces underlying mitochondrial genome evolution.

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Journal:  PLoS Genet       Date:  2012-08-16       Impact factor: 5.917
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