外显子组测序在致心律失常性右心室心肌病/发育不良基因诊断中的作用
Contribution of exome sequencing for genetic diagnostic in arrhythmogenic right ventricular cardiomyopathy/dysplasia.
作者信息
Fedida Joel, Fressart Veronique, Charron Philippe, Surget Elodie, Hery Tiphaine, Richard Pascale, Donal Erwan, Keren Boris, Duthoit Guillaume, Hidden-Lucet Françoise, Villard Eric, Gandjbakhch Estelle
机构信息
INSERM, UMR_S1166, ICAN, Hôpital Pitié-Salpêtrière, Paris, France.
AP-HP, Groupe Hospitalier Pitié-Salpêtrière, Institut de Cardiologie, Paris, France.
出版信息
PLoS One. 2017 Aug 2;12(8):e0181840. doi: 10.1371/journal.pone.0181840. eCollection 2017.
BACKGROUND
Arrhythmogenic Right Ventricular Cardiomyopathy/Dysplasia (ARVC/D) is an inherited cardiomyopathy mainly caused by heterozygous desmosomal gene mutations, the major gene being PKP2. The genetic cause remains unknown in ~50% of probands with routine desmosomal gene screening. The aim of this study was to assess the diagnostic accuracy of whole exome sequencing (WES) in ARVC/D with negative genetic testing.
METHODS
WES was performed in 22 patients, all without a mutation identified in desmosomal genes. Putative pathogenic variants were screened in 96 candidate genes associated with other cardiomyopathies/channelopathies. The sequencing coverage depth of PKP2, DSP, DSG2, DSC2, JUP and TMEM43 exons was compared to the mean coverage distribution to detect large insertions/deletions. All suspected deletions were verified by real-time qPCR, Multiplex-Ligation-dependent-Probe-Amplification (MLPA) and cGH-Array. MLPA was performed in 50 additional gene-negative probands.
RESULTS
Coverage-depth analysis from the 22 WES data identified two large heterozygous PKP2 deletions: one from exon 1 to 14 and one restricted to exon 4, confirmed by qPCR and MLPA. MLPA identified 2 additional PKP2 deletions (exon 1-7 and exon 1-14) in 50 additional probands confirming a significant frequency of large PKP2 deletions (5.7%) in gene-negative ARVC/D. Putative pathogenic heterozygous variants in EYA4, RBM20, PSEN1, and COX15 were identified in 4 unrelated probands.
CONCLUSION
A rather high frequency (5.7%) of large PKP2 deletions, undetectable by Sanger sequencing, was detected as the cause of ARVC/D. Coverage-depth analysis through next-generation sequencing appears accurate to detect large deletions at the same time than conventional putative mutations in desmosomal and cardiomyopathy-associated genes.
背景
致心律失常性右室心肌病/发育不良(ARVC/D)是一种遗传性心肌病,主要由桥粒基因突变杂合子引起,主要基因是PKP2。在约50%经常规桥粒基因筛查的先证者中,遗传病因仍不明。本研究旨在评估全外显子组测序(WES)在基因检测阴性的ARVC/D中的诊断准确性。
方法
对22例患者进行WES,所有患者桥粒基因均未发现突变。在与其他心肌病/离子通道病相关的96个候选基因中筛选可能的致病变异。将PKP2、DSP、DSG2、DSC2、JUP和TMEM43外显子的测序覆盖深度与平均覆盖分布进行比较,以检测大片段插入/缺失。所有疑似缺失均通过实时定量PCR、多重连接依赖探针扩增(MLPA)和比较基因组杂交阵列(cGH-Array)进行验证。对另外50例基因阴性的先证者进行MLPA检测。
结果
对22例WES数据的覆盖深度分析发现两个PKP2大片段杂合缺失:一个从外显子1至14,另一个局限于外显子4,经定量PCR和MLPA证实。MLPA在另外五十例先证者中又发现2个PKP2缺失(外显子1-7和外显子1-14),证实基因阴性的ARVC/D中大片段PKP2缺失频率较高(5.7%)。在4例无关先证者中鉴定出EYA4、RBM20、PSEN1和COX15的可能致病杂合变异。
结论
检测到相当高频率(5.7%)的PKP2大片段缺失是ARVC/D的病因,这是Sanger测序无法检测到的。通过下一代测序进行的覆盖深度分析似乎能准确检测大片段缺失,同时检测桥粒和心肌病相关基因中的传统可能突变。
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