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下一代测序时代线粒体疾病的遗传图谱:一项葡萄牙队列研究。

The genetic landscape of mitochondrial diseases in the next-generation sequencing era: a Portuguese cohort study.

作者信息

Nogueira C, Pereira C, Silva L, Laranjeira Mateus, Lopes A, Neiva R, Rodrigues E, Campos T, Martins E, Bandeira A, Coelho M, Magalhães M, Damásio J, Gaspar A, Janeiro P, Gomes A Levy, Ferreira A C, Jacinto S, Vieira J P, Diogo L, Santos H, Mendonça C, Vilarinho L

机构信息

Research & Development Unit, Human Genetics Department, National Institute of Health Doutor Ricardo Jorge, Lisbon, Portugal.

Newborn Screening, Metabolism & Genetics Unit, Human Genetics Department, National Institute of Health Doutor Ricardo Jorge, Lisbon, Portugal.

出版信息

Front Cell Dev Biol. 2024 Feb 23;12:1331351. doi: 10.3389/fcell.2024.1331351. eCollection 2024.

DOI:10.3389/fcell.2024.1331351
PMID:38465286
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10920333/
Abstract

Rare disorders that are genetically and clinically heterogeneous, such as mitochondrial diseases (MDs), have a challenging diagnosis. Nuclear genes codify most proteins involved in mitochondrial biogenesis, despite all mitochondria having their own DNA. The development of next-generation sequencing (NGS) technologies has revolutionized the understanding of many genes involved in the pathogenesis of MDs. In this new genetic era, using the NGS approach, we aimed to identify the genetic etiology for a suspected MD in a cohort of 450 Portuguese patients. We examined 450 patients using a combined NGS strategy, starting with the analysis of a targeted mitochondrial panel of 213 nuclear genes, and then proceeding to analyze the whole mitochondrial DNA. In this study, we identified disease-related variants in 134 (30%) analyzed patients, 88 with nuclear DNA (nDNA) and 46 with mitochondrial DNA (mtDNA) variants, most of them being pediatric patients (66%), of which 77% were identified in nDNA and 23% in mtDNA. The molecular analysis of this cohort revealed 72 already described pathogenic and 20 novel, probably pathogenic, variants, as well as 62 variants of unknown significance. For this cohort of patients with suspected MDs, the use of a customized gene panel provided a molecular diagnosis in a timely and cost-effective manner. Patients who cannot be diagnosed after this initial approach will be further selected for whole-exome sequencing. As a national laboratory for the study and research of MDs, we demonstrated the power of NGS to achieve a molecular etiology, expanding the mutational spectrum and proposing accurate genetic counseling in this group of heterogeneous diseases without therapeutic options.

摘要

遗传性和临床异质性的罕见疾病,如线粒体疾病(MDs),诊断具有挑战性。尽管所有线粒体都有自己的DNA,但大多数参与线粒体生物发生的蛋白质是由核基因编码的。新一代测序(NGS)技术的发展彻底改变了人们对许多参与MDs发病机制的基因的理解。在这个新的基因时代,我们采用NGS方法,旨在确定450名葡萄牙患者队列中疑似MD的遗传病因。我们使用联合NGS策略对450名患者进行了检查,首先分析了一个包含213个核基因的靶向线粒体基因panel,然后进行全线粒体DNA分析。在这项研究中,我们在134名(30%)分析的患者中鉴定出与疾病相关的变异,其中88名有核DNA(nDNA)变异,46名有线粒体DNA(mtDNA)变异,大多数是儿科患者(66%),其中77%在nDNA中鉴定出,23%在mtDNA中鉴定出。该队列的分子分析揭示了72个已描述的致病和20个新的、可能致病的变异,以及62个意义未明的变异。对于这个疑似MDs患者队列,使用定制的基因panel以及时且具有成本效益的方式提供了分子诊断。在这种初始方法后仍无法诊断的患者将进一步被选作全外显子测序。作为MDs研究的国家实验室,我们展示了NGS在确定分子病因方面的能力,扩大了突变谱,并在这组没有治疗选择的异质性疾病中提供了准确的遗传咨询。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/770c/10920333/a7706d07e733/fcell-12-1331351-g009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/770c/10920333/1d7c7fb9924b/fcell-12-1331351-g001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/770c/10920333/a7706d07e733/fcell-12-1331351-g009.jpg
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