Institute of Human Genetics, University Hospital of Bonn, Bonn, Germany.
Department of Pediatric Cardiology, Pediatric Heart Center, University Hospital of Bonn, Bonn, Germany.
Eur J Hum Genet. 2022 Aug;30(8):946-954. doi: 10.1038/s41431-022-01100-2. Epub 2022 Apr 26.
The birth prevalence of laterality defects is about 1.1/10,000 comprising different phenotypes ranging from situs inversus totalis to heterotaxy, mostly associated with complex congenital heart defects (CHD) and situs abnormalities such as intestinal malrotation, biliary atresia, asplenia, or polysplenia. A proportion of laterality defects arise in the context of primary ciliary dyskinesia (PCD) accompanied by respiratory symptoms or infertility. In this study, exome sequencing (ES) was performed in 14 case-parent trios/quattros with clinical exclusion of PCD prior to analysis. Moreover, all cases and parents underwent detailed clinical phenotyping including physical examination, echocardiography by a skilled paediatric cardiologist and abdominal ultrasound examinations not to miss mildly affected individuals. Subsequent survey of the exome data comprised filtering for monoallelic de novo, rare biallelic, and X-linked recessive variants. In two families, rare variants of uncertain significance (VUS) in PKD1L1 and ZIC3 were identified. Both genes have been associated with laterality defects. In two of the remaining families, biallelic variants in LMBRD1 and DNAH17, respectively, were prioritized. In another family, an ultra-rare de novo variant in WDR47 was found. Extensive exome survey of 2,109 single exomes of individuals with situs inversus totalis, heterotaxy, or isolated CHD identified two individuals with novel monoallelic variants in WDR47, but no further individuals with biallelic variants in DNAH17 or LMBRD1. Overall, ES of 14 case-parent trios/quattros with cardiovascular laterality defects identified rare VUS in two families in known disease-associated genes PKD1L1 and ZIC3 and suggests DNAH17, LMBRD1, and WDR47 as potential genes involved in laterality defects.
左右侧结构缺陷的出生患病率约为 1.1/10000,包括从完全内脏反位到异构的不同表型,主要与复杂的先天性心脏病 (CHD) 和内脏位置异常如肠旋转不良、胆道闭锁、脾缺失或多脾有关。一部分左右侧结构缺陷是在原发性纤毛运动障碍 (PCD) 的背景下发生的,伴有呼吸症状或不孕。在这项研究中,对 14 个先证者-父母三/四重体进行了外显子组测序 (ES),在分析前排除了 PCD 的临床可能性。此外,所有病例和父母都接受了详细的临床表型分析,包括体格检查、熟练儿科心脏病专家进行的超声心动图检查和腹部超声检查,以不遗漏轻度受影响的个体。随后对外显子组数据进行了调查,包括过滤单等位基因新生、罕见双等位基因和 X 连锁隐性变异。在两个家庭中,发现 PKD1L1 和 ZIC3 中的罕见意义未明变异 (VUS)。这两个基因都与左右侧结构缺陷有关。在其余两个家庭中,分别优先考虑 LMBRD1 和 DNAH17 中的双等位基因变异。在另一个家庭中,发现了 WDR47 中的超罕见新生变异。对 2109 个完全内脏反位、异构或孤立 CHD 个体的单外显子组进行广泛外显子组调查,发现两个个体的 WDR47 中存在新的单等位基因变异,但没有进一步发现 DNAH17 或 LMBRD1 中的双等位基因变异。总的来说,对 14 个心血管左右侧结构缺陷的先证者-父母三/四重体进行外显子组测序,在两个已知与疾病相关的基因 PKD1L1 和 ZIC3 中发现了罕见的 VUS,并提示 DNAH17、LMBRD1 和 WDR47 可能是左右侧结构缺陷的潜在相关基因。
