Deakin University
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A founder mutation in PET100 causes isolated complex IV deficiency in Lebanese individuals with Leigh syndrome

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journal contribution
posted on 2014-02-06, 00:00 authored by Sze Chern Lim, Katherine R Smith, David A Stroud, Alison G Compton, Elena J Tucker, Ayan Dasvarma, Luke C Gandolfo, Justine E Marum, Matthew McKenzieMatthew McKenzie, Heidi L Peters, David Mowat, Peter G Procopis, Bridget Wilcken, John Christodoulou, Garry K Brown, Michael T Ryan, Melanie Bahlo, David R Thorburn
Leigh syndrome (LS) is a severe neurodegenerative disorder with characteristic bilateral lesions, typically in the brainstem and basal ganglia. It usually presents in infancy and is genetically heterogeneous, but most individuals with mitochondrial complex IV (or cytochrome c oxidase) deficiency have mutations in the biogenesis factor SURF1. We studied eight complex IV-deficient LS individuals from six families of Lebanese origin. They differed from individuals with SURF1 mutations in having seizures as a prominent feature. Complementation analysis suggested they had mutation(s) in the same gene but targeted massively parallel sequencing (MPS) of 1,034 genes encoding known mitochondrial proteins failed to identify a likely candidate. Linkage and haplotype analyses mapped the location of the gene to chromosome 19 and targeted MPS of the linkage region identified a homozygous c.3G>C (p.Met1?) mutation in C19orf79. Abolishing the initiation codon could potentially still allow initiation at a downstream methionine residue but we showed that this would not result in a functional protein. We confirmed that mutation of this gene was causative by lentiviral-mediated phenotypic correction. C19orf79 was recently renamed PET100 and predicted to encode a complex IV biogenesis factor. We showed that it is located in the mitochondrial inner membrane and forms a ∼300 kDa subcomplex with complex IV subunits. Previous proteomic analyses of mitochondria had overlooked PET100 because its small size was below the cutoff for annotating bona fide proteins. The mutation was estimated to have arisen at least 520 years ago, explaining how the families could have different religions and different geographic origins within Lebanon.



American Journal of Human Genetics






209 - 222




Amsterdam, The Netherlands







Publication classification

C Journal article; C1.1 Refereed article in a scholarly journal

Copyright notice

2014, The American Society of Human Genetics