Literature DB >> 16083427

Tissue-specific cytochrome c oxidase assembly defects due to mutations in SCO2 and SURF1.

Lukas Stiburek1, Katerina Vesela, Hana Hansikova, Petr Pecina, Marketa Tesarova, Leona Cerna, Josef Houstek, Jiri Zeman.   

Abstract

The biogenesis of eukaryotic COX (cytochrome c oxidase) requires several accessory proteins in addition to structural subunits and prosthetic groups. We have analysed the assembly state of COX and SCO2 protein levels in various tissues of six patients with mutations in SCO2 and SURF1. SCO2 is a copper-binding protein presumably involved in formation of the Cu(A) centre of the COX2 subunit. The function of SURF1 is unknown. Immunoblot analysis of native gels demonstrated that COX holoenzyme is reduced to 10-20% in skeletal muscle and brain of SCO2 and SURF1 patients and to 10-30% in heart of SCO2 patients, whereas liver of SCO2 patients' contained normal holoenzyme levels. The steady-state levels of mutant SCO2 protein ranged from 0 to 20% in different SCO2 patient tissues. In addition, eight distinct COX subcomplexes and unassembled subunits were found, some of them identical with known assembly intermediates of the human enzyme. Heart, brain and skeletal muscle of SCO2 patients contained accumulated levels of the COX1.COX4.COX5A subcomplex, three COX1-containing subcomplexes, a COX4.COX5A subcomplex and two subcomplexes composed of only COX4 or COX5A. The accumulation of COX1.COX4.COX5A subcomplex, along with the virtual absence of free COX2, suggests that the lack of the Cu(A) centre may result in decreased stability of COX2. The appearance of COX4.COX5A subcomplex indicates that association of these nucleus-encoded subunits probably precedes their addition to COX1 during the assembly process. Finally, the consequences of SCO2 and SURF1 mutations suggest the existence of tissue-specific functional differences of these proteins that may serve different tissue-specific requirements for the regulation of COX biogenesis.

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Year:  2005        PMID: 16083427      PMCID: PMC1316303          DOI: 10.1042/BJ20050807

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  41 in total

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Authors:  J Yao; E A Shoubridge
Journal:  Hum Mol Genet       Date:  1999-12       Impact factor: 6.150

3.  Clinical, biochemical and molecular analyses of six patients with isolated cytochrome c oxidase deficiency due to mutations in the SCO2 gene.

Authors:  K Vesela; H Hansikova; M Tesarova; P Martasek; M Elleder; J Houstek; J Zeman
Journal:  Acta Paediatr       Date:  2004-10       Impact factor: 2.299

4.  Human recombinant mutated forms of the mitochondrial COX assembly Sco2 protein differ from wild-type in physical state and copper binding capacity.

Authors:  Parthena F Foltopoulou; George A Zachariadis; Anastasia S Politou; Asterios S Tsiftsoglou; Lefkothea C Papadopoulou
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5.  Functional alteration of cytochrome c oxidase by SURF1 mutations in Leigh syndrome.

Authors:  Petr Pecina; Markéta Capková; Subir K R Chowdhury; Zdenek Drahota; Audrey Dubot; Alena Vojtísková; Hana Hansíková; Hana Houst'ková; Jirí Zeman; Catherine Godinot; Josef Houstek
Journal:  Biochim Biophys Acta       Date:  2003-09-01

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8.  Novel SCO2 mutation (G1521A) presenting as a spinal muscular atrophy type I phenotype.

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  39 in total

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Review 2.  Biogenesis and assembly of eukaryotic cytochrome c oxidase catalytic core.

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Journal:  Biochim Biophys Acta       Date:  2011-09-16

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5.  Analysis of Leigh syndrome mutations in the yeast SURF1 homolog reveals a new member of the cytochrome oxidase assembly factor family.

Authors:  Megan Bestwick; Mi-Young Jeong; Oleh Khalimonchuk; Hyung Kim; Dennis R Winge
Journal:  Mol Cell Biol       Date:  2010-07-12       Impact factor: 4.272

6.  A targetable fluorescent sensor reveals that copper-deficient SCO1 and SCO2 patient cells prioritize mitochondrial copper homeostasis.

Authors:  Sheel C Dodani; Scot C Leary; Paul A Cobine; Dennis R Winge; Christopher J Chang
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7.  Association of intronic DNA methylation and hydroxymethylation alterations in the epigenetic etiology of dilated cardiomyopathy.

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Review 8.  Building the CuA site of cytochrome c oxidase: A complicated, redox-dependent process driven by a surprisingly large complement of accessory proteins.

Authors:  Kimberly A Jett; Scot C Leary
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9.  Analysis of mouse models of cytochrome c oxidase deficiency owing to mutations in Sco2.

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