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Mutations in CYC1, Encoding Cytochrome c1 Subunit of Respiratory Chain Complex III, Cause Insulin-Responsive Hyperglycemia
Author(s) -
Pauline Gaignard,
Minal Menezes,
Manuel Schiff,
Aurélien Bayot,
Malgorzata Rak,
Hélène Ogier de Baulny,
Chen-Hsien Su,
Martine Gilleron,
Anne Lombès,
Heni Abida,
Alexander Tzagoloff,
Lisa G. Riley,
Sandra T. Cooper,
Kym Mina,
Padma Sivadorai,
Mark R. Davis,
Richard J.N. Allcock,
Nina Kresoje,
Nigel G. Laing,
David R. Thorburn,
Abdelhamid Slama,
John Christodoulou,
Pierre Rustin
Publication year - 2013
Publication title -
the american journal of human genetics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 6.661
H-Index - 302
eISSN - 1537-6605
pISSN - 0002-9297
DOI - 10.1016/j.ajhg.2013.06.015
Subject(s) - protein subunit , respiratory chain , insulin , mitochondrial respiratory chain , cytochrome b , respiratory system , cytochrome , biology , genetics , medicine , mitochondrial dna , mitochondrion , gene , biochemistry , enzyme
Many individuals with abnormalities of mitochondrial respiratory chain complex III remain genetically undefined. Here, we report mutations (c.288G>T [p.Trp96Cys] and c.643C>T [p.Leu215Phe]) in CYC1, encoding the cytochrome c1 subunit of complex III, in two unrelated children presenting with recurrent episodes of ketoacidosis and insulin-responsive hyperglycemia. Cytochrome c1, the heme-containing component of complex III, mediates the transfer of electrons from the Rieske iron-sulfur protein to cytochrome c. Cytochrome c1 is present at reduced levels in the skeletal muscle and skin fibroblasts of affected individuals. Moreover, studies on yeast mutants and affected individuals' fibroblasts have shown that exogenous expression of wild-type CYC1 rescues complex III activity, demonstrating the deleterious effect of each mutation on cytochrome c1 stability and complex III activity.

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