Whole genome sequencing of families diagnosed with cardiac channelopathies reveals structural variants missed by whole exome sequencing

IF 2.6 3区 生物学 Q2 GENETICS & HEREDITY Journal of Human Genetics Pub Date : 2024-06-18 DOI:10.1038/s10038-024-01265-2
Vigneshwar Senthivel, Bani Jolly, Arvinden VR, Anjali Bajaj, Rahul Bhoyar, Mohamed Imran, Harie Vignesh, Mohit Kumar Divakar, Gautam Sharma, Nitin Rai, Kapil Kumar, Jayakrishnan MP, Maniram Krishna, Jeyaprakash Shenthar, Muzaffar Ali, Shaad Abqari, Gulnaz Nadri, Vinod Scaria, Nitish Naik, Sridhar Sivasubbu
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Abstract

Cardiac channelopathies are a group of heritable disorders that affect the heart’s electrical activity due to genetic variations present in genes coding for ion channels. With the advent of new sequencing technologies, molecular diagnosis of these disorders in patients has paved the way for early identification, therapeutic management and family screening. The objective of this retrospective study was to understand the efficacy of whole-genome sequencing in diagnosing patients with suspected cardiac channelopathies who were reported negative after whole exome sequencing and analysis. We employed a 3-tier analysis approach to identify nonsynonymous variations and loss-of-function variations missed by exome sequencing, and structural variations that are better resolved only by sequencing whole genomes. By performing whole genome sequencing and analyzing 25 exome-negative cardiac channelopathy patients, we identified 3 pathogenic variations. These include a heterozygous likely pathogenic nonsynonymous variation, CACNA1C:NM_000719:exon19:c.C2570G:p. P857R, which causes autosomal dominant long QT syndrome in the absence of Timothy syndrome, a heterozygous loss-of-function variation CASQ2:NM_001232.4:c.420+2T>C classified as pathogenic, and a 9.2 kb structural variation that spans exon 2 of the KCNQ1 gene, which is likely to cause Jervell-Lange-Nielssen syndrome. In addition, we also identified a loss-of-function variation and 16 structural variations of unknown significance (VUS). Further studies are required to elucidate the role of these identified VUS in gene regulation and decipher the underlying genetic and molecular mechanisms of these disorders. Our present study serves as a pilot for understanding the utility of WGS over clinical exomes in diagnosing cardiac channelopathy disorders.

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对确诊为心脏通道病的家族进行全基因组测序,发现了全外显子测序所遗漏的结构变异。
心脏通道病是一组遗传性疾病,由于编码离子通道的基因发生变异而影响心脏的电活动。随着新测序技术的出现,对这些疾病患者的分子诊断为早期识别、治疗管理和家庭筛查铺平了道路。这项回顾性研究的目的是了解全基因组测序在诊断经全外显子组测序和分析后报告为阴性的疑似心脏通道疾病患者中的疗效。我们采用了一种三层分析方法来识别外显子组测序所遗漏的非同义变异和功能缺失变异,以及只有通过全基因组测序才能更好解决的结构变异。通过进行全基因组测序并分析 25 例外显子组阴性的心脏通道病患者,我们发现了 3 个致病变异。其中包括一个杂合的可能致病的非同义变异,CACNA1C:NM_000719:exon19:c.C2570G:p.P857R,该变异可导致常染色体显性长 QT 综合征,但不伴有蒂莫西综合征;一个杂合子功能缺失变异 CASQ2:NM_001232.4:c.420+2T>C 被归类为致病性变异;以及一个跨越 KCNQ1 基因第 2 外显子的 9.2 kb 结构变异,该变异可能导致 Jervell-Lange-Nielssen 综合征。此外,我们还发现了一个功能缺失变异和 16 个意义不明的结构变异(VUS)。要阐明这些已发现的 VUS 在基因调控中的作用,并破译这些疾病的潜在遗传和分子机制,还需要进一步的研究。本研究是了解 WGS 与临床外显子相比在诊断心脏通道病变方面的效用的一个试点。
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来源期刊
Journal of Human Genetics
Journal of Human Genetics 生物-遗传学
CiteScore
7.20
自引率
0.00%
发文量
101
审稿时长
4-8 weeks
期刊介绍: The Journal of Human Genetics is an international journal publishing articles on human genetics, including medical genetics and human genome analysis. It covers all aspects of human genetics, including molecular genetics, clinical genetics, behavioral genetics, immunogenetics, pharmacogenomics, population genetics, functional genomics, epigenetics, genetic counseling and gene therapy. Articles on the following areas are especially welcome: genetic factors of monogenic and complex disorders, genome-wide association studies, genetic epidemiology, cancer genetics, personal genomics, genotype-phenotype relationships and genome diversity.
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