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线粒体疾病的双基因组下一代测序面板检测经验:全面的分子诊断

Experiences from dual genome next-generation sequencing panel testing for mitochondrial disorders: a comprehensive molecular diagnosis.

作者信息

Gorman Elizabeth, Dai Hongzheng, Feng Yanming, Craigen William James, Chen David C Y, Xia Fan, Meng Linyan, Liu Pengfei, Rigobello Robert, Neogi Arpita, Eng Christine M, Wang Yue

机构信息

Baylor Genetics, Houston, TX, United States.

Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, TX, United States.

出版信息

Front Genet. 2025 Mar 5;16:1488956. doi: 10.3389/fgene.2025.1488956. eCollection 2025.

DOI:10.3389/fgene.2025.1488956
PMID:40110048
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11920145/
Abstract

INTRODUCTION

The molecular diagnosis of mitochondrial disorders is complicated by phenotypic variability, genetic heterogeneity, and the complexity of mitochondrial heteroplasmy. Next-generation sequencing (NGS) of the mitochondrial genome in combination with a targeted panel of nuclear genes associated with mitochondrial disease provides the highest likelihood of obtaining a comprehensive molecular diagnosis. To assess the clinical utility of this approach, we describe the results from a retrospective review of patients having dual genome panel testing for mitochondrial disease.

METHODS

Dual genome panel testing by NGS was performed on a cohort of 1,509 unrelated affected individuals with suspected mitochondrial disorders. This test included 163 nuclear genes associated with mitochondrial diseases and the entire mitochondrial genome. A retrospective review was performed to evaluate diagnostic yield, disease-gene contributions, and heteroplasmy levels of pathogenic/likely pathogenic (P/LP) mitochondrial DNA (mtDNA) variants.

RESULTS

The overall diagnostic yield was 14.6%, with 7.7% from the nuclear genome and 6.9% from the mtDNA genome. P/LP variants in nuclear genes were enriched in both well-established genes (e.g., ) and more recently described genes (e.g., ), highlighting the importance of keeping the panel design updated.

CONCLUSION

Variants in nuclear and mitochondrial genomes equally contributed to a 14.6% diagnostic yield in this patient cohort. Dual genome NGS testing provides a comprehensive framework for diagnosing mitochondrial disorders, offering clinical utility that can be considered as first-tier approach compared to single genome testing. Characterizing disease-causing genes, variants, and mtDNA heteroplasmy enhances understanding of mitochondrial disorders. Testing alternative tissues can further increase diagnostic yield.

摘要

引言

线粒体疾病的分子诊断因表型变异性、遗传异质性以及线粒体异质性的复杂性而变得复杂。线粒体基因组的二代测序(NGS)与一组与线粒体疾病相关的靶向核基因相结合,提供了获得全面分子诊断的最大可能性。为了评估这种方法的临床实用性,我们描述了对进行线粒体疾病双基因组检测的患者进行回顾性分析的结果。

方法

对1509名疑似线粒体疾病的无亲缘关系的受影响个体进行了NGS双基因组检测。该检测包括163个与线粒体疾病相关的核基因和整个线粒体基因组。进行了回顾性分析,以评估诊断率、疾病基因贡献以及致病性/可能致病性(P/LP)线粒体DNA(mtDNA)变异的异质性水平。

结果

总体诊断率为14.6%,其中核基因组为7.7%,mtDNA基因组为6.9%。核基因中的P/LP变异在既定基因(如 )和最近描述的基因(如 )中均有富集,突出了保持检测面板设计更新的重要性。

结论

在该患者队列中,核基因组和线粒体基因组中的变异对14.6%的诊断率贡献相当。双基因组NGS检测为诊断线粒体疾病提供了一个全面的框架,与单基因组检测相比,其临床实用性可被视为一线方法。对致病基因、变异和mtDNA异质性的特征分析有助于增强对线粒体疾病的理解。检测替代组织可进一步提高诊断率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91f1/11920145/00f69d5f64fc/fgene-16-1488956-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91f1/11920145/8be18d19fdb0/fgene-16-1488956-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91f1/11920145/00f69d5f64fc/fgene-16-1488956-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91f1/11920145/8be18d19fdb0/fgene-16-1488956-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/91f1/11920145/00f69d5f64fc/fgene-16-1488956-g002.jpg

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