线粒体DNA
硫胺素
遗传学
利氏病
基因
生物
核基因
DNA测序
粒线体疾病
线粒体
基因组
分子生物学
生物化学
作者
Meriem Hechmi,Majida Charif,Ichraf Kraoua,Meriem Fassatoui,Hamza Dallali,Valérie Desquiret‐Dumas,Céline Bris,David Goudenège,C. Drissi,Saïd Galaï,Slah Ouerhani,Vincent Procaccio,Patrizia Amati‐Bonneau,Sonia Abdelhak,Ilhem Ben Youssef-Turki,Guy Lenaers,Rym Kéfi
摘要
Abstract Mitochondrial cytopathies, among which the Leigh syndrome (LS), are caused by variants either in the mitochondrial or the nuclear genome, affecting the oxidative phosphorylation process. The aim of the present study consisted in defining the molecular diagnosis of a group of Tunisian patients with LS. Six children, belonging to five Tunisian families, with clinical and imaging presentations suggestive of LS were recruited. Whole mitochondrial DNA and targeted next-generation sequencing of a panel of 281 nuclear genes involved in mitochondrial physiology were performed. Bioinformatic analyses were achieved in order to identify deleterious variations. A single m.10197G>A (p.Ala47Thr) variant was found in the mitochondrial MT-ND3 gene in one patient, while the others were related to autosomal homozygous variants: two c.1412delA (p.Gln471ArgfsTer42) and c.1264A>G (p.Thr422Ala) in SLC19A3, one c.454C>G (p.Pro152Ala) in SLC25A19 and one c.122G>A (p.Gly41Asp) in ETHE1. Our findings demonstrate the usefulness of genomic investigations to improve LS diagnosis in consanguineous populations and further allow for treating the patients harboring variants in SLC19A3 and SLC25A19 that contribute to thiamine transport, by thiamine and biotin supplementation. Considering the Tunisian genetic background, the newly identified variants could be screened in patients with similar clinical presentation in related populations.
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