John P. Hussman Institute for Human Genomics, University of Miami Miller School of Medicine, Miami, FL, USA.
Dr. John T. Macdonald Foundation Department of Human Genetics, University of Miami Miller School of Medicine, Miami, FL, USA.
J Hum Genet. 2023 Oct;68(10):657-669. doi: 10.1038/s10038-023-01159-9. Epub 2023 May 22.
Hearing loss (HL) is a common heterogeneous trait that involves variants in more than 200 genes. In this study, we utilized exome (ES) and genome sequencing (GS) to effectively identify the genetic cause of presumably non-syndromic HL in 322 families from South and West Asia and Latin America. Biallelic GJB2 variants were identified in 58 probands at the time of enrollment these probands were excluded. In addition, upon review of phenotypic findings, 38/322 probands were excluded based on syndromic findings at the time of ascertainment and no further evaluation was performed on those samples. We performed ES as a primary diagnostic tool on one or two affected individuals from 212/226 families. Via ES we detected a total of 78 variants in 30 genes and showed their co-segregation with HL in 71 affected families. Most of the variants were frameshift or missense and affected individuals were either homozygous or compound heterozygous in their respective families. We employed GS as a primary test on a subset of 14 families and a secondary tool on 22 families which were unsolved by ES. Although the cumulative detection rate of causal variants by ES and GS is 40% (89/226), GS alone has led to a molecular diagnosis in 7 of 14 families as the primary tool and 5 of 22 families as the secondary test. GS successfully identified variants present in deep intronic or complex regions not detectable by ES.
听力损失(HL)是一种常见的异质性特征,涉及 200 多个基因的变异。在这项研究中,我们利用外显子组(ES)和基因组测序(GS)有效地鉴定了来自南亚和拉丁美洲的 322 个家庭中假定的非综合征性 HL 的遗传原因。在登记时,我们在 58 名先证者中鉴定出双等位基因 GJB2 变异,这些先证者被排除在外。此外,在审查表型发现后,根据确定时的综合征发现,从 322 名先证者中排除了 38 名,对这些样本没有进行进一步评估。我们对 226 个家庭中的 212 个家庭中的一个或两个受影响的个体进行了 ES 作为主要诊断工具。通过 ES,我们在 30 个基因中总共检测到 78 个变体,并在 71 个受影响的家庭中显示了它们与 HL 的共分离。大多数变体是移码或错义,受影响的个体在各自的家庭中是纯合或复合杂合的。我们将 GS 作为 14 个家庭的主要测试,将 22 个家庭的次要测试,并将 GS 作为次要测试。尽管 ES 和 GS 的因果变异累积检测率为 40%(89/226),但 GS 作为主要工具在 14 个家庭中的 7 个家庭和次要工具在 22 个家庭中的 5 个家庭中导致了分子诊断。GS 成功地鉴定了 ES 无法检测到的深内含子或复杂区域中的变体。
