Gupta Neerja, Aggarwal Bhawana, Mishra Anushree, Chowdhury Madhumita Roy, Gulati Sheffali, Kumar Atin, Kabra Madhulika
Division of Genetics, Department of Pediatrics, All India Institute of Medical Sciences, New Delhi, India.
Division of Pediatric Neurology, Department of Pediatrics, All India Institute of Medical Sciences, New Delhi, India.
Indian J Pediatr. 2025 Mar;92(3):287-291. doi: 10.1007/s12098-024-05266-z. Epub 2024 Oct 9.
Mitochondrial disorders are a diverse group of diseases caused by mutations in genes encoded by either nuclear or mitochondrial DNA. In a group of patients with nuclear mitochondriopathies, the authors analysed the clinico-radiological and genotypic spectrum. The study included 25 patients with a genetic diagnosis of nuclear mitochondrial cytopathy who were seen over a 5 y period. There were 25 patients in the study cohort (Mean age of presentation- 14 mo). Biallelic mutations involving nuclear mitochondrial genes were identified in all 25 of them. In 13 and 9 patients, respectively, respiratory chain defects (complex I and complex IV) and mitochondrial DNA depletion syndromes were identified. Twelve novel variants were identified. Interestingly, NDUFV1 with a south Indian founder variant c.1156 C > T (p.Arg386Cys) was the commonest variant. Accurate phenotyping combined with next generation sequencing aids in the precise diagnosis of mitochondrial nuclear gene defects and provides the opportunity for appropriate counseling.
线粒体疾病是由核DNA或线粒体DNA编码的基因突变引起的一组多样化疾病。在一组患有核线粒体病的患者中,作者分析了临床放射学和基因型谱。该研究纳入了25例在5年期间就诊的经基因诊断为核线粒体细胞病的患者。研究队列中有25例患者(平均发病年龄为14个月)。所有25例患者均鉴定出涉及核线粒体基因的双等位基因突变。分别在13例和9例患者中鉴定出呼吸链缺陷(复合体I和复合体IV)和线粒体DNA耗竭综合征。鉴定出12个新变体。有趣的是,带有南印度奠基者变体c.1156 C>T(p.Arg386Cys)的NDUFV1是最常见变体。准确的表型分析与下一代测序相结合有助于线粒体核基因缺陷的精确诊断,并为适当的咨询提供机会。
