Department of Neuromuscular Diseases, UCL Queen Square Institute of Neurology, London, UK.
National Institute for Health Research Oxford Biomedical Research Centre, Oxford, UK; Wellcome Centre for Human Genetics, University of Oxford, Oxford, UK.
HGG Adv. 2024 Oct 10;5(4):100352. doi: 10.1016/j.xhgg.2024.100352. Epub 2024 Sep 10.
The aim of this work was to identify the underlying genetic cause in a four-generation family segregating an unusual phenotype comprising a severe form of skeletal Class II malocclusion with gingival hyperplasia. SNP array identified a copy number gain on chromosome 1 (chr1); however, this chromosomal region did not segregate correctly in the extended family. Exome sequencing also failed to identify a candidate causative variant but highlighted co-segregating genetic markers on chr17 and chr19. Short- and long-read genome sequencing allowed us to pinpoint and characterize at nucleotide-level resolution a chromothripsis-like complex rearrangement (CR) inserted into the chr17 co-segregating region at the KCNJ2-SOX9 locus. The CR involved the gain of five different regions from chr1 that are shuffled, chained, and inserted as a single block (∼828 kb) at chr17q24.3. The inserted sequences contain craniofacial enhancers that are predicted to interact with KCNJ2/KCNJ16 through neo-topologically associating domain (TAD) formation to induce ectopic activation. Our findings suggest that the CR inserted at chr17q24.3 is the cause of the severe skeletal Class II malocclusion with gingival hyperplasia in this family and expands the panoply of phenotypes linked to variation at the KCNJ2-SOX9 locus. In addition, we highlight a previously overlooked potential role for misregulation of the KCNJ2/KCNJ16 genes in the pathomechanism of gingival hyperplasia associated with deletions and other rearrangements of the 17q24.2-q24.3 region (MIM 135400).
本研究旨在鉴定一个四代同堂家系中一种不寻常表型的潜在遗传原因,该家系表现为严重的骨骼 II 类错颌畸形伴牙龈增生。SNP 芯片分析发现 1 号染色体(chr1)上存在拷贝数增益;然而,该染色体区域在扩展家系中未能正确分离。外显子组测序也未能鉴定出候选致病变异,但突出了 chr17 和 chr19 上共分离的遗传标记。短读长和长读长基因组测序使我们能够精确定位和表征 chr17 共分离区域 KCNJ2-SOX9 基因座处类似于染色体重排的复杂重排(CR)。该 CR 涉及从 chr1 获得的五个不同区域的增益,这些区域被打乱、连接并作为单个块(约 828kb)插入 chr17q24.3。插入序列包含颅面增强子,这些增强子通过形成新的拓扑关联域(TAD)与 KCNJ2/KCNJ16 相互作用,从而诱导异位激活。我们的研究结果表明,chr17q24.3 上的 CR 是导致该家系严重骨骼 II 类错颌畸形伴牙龈增生的原因,并扩展了与 KCNJ2-SOX9 基因座变异相关的表型范围。此外,我们强调了 KCNJ2/KCNJ16 基因的调控异常在与 17q24.2-q24.3 区域缺失和其他重排相关的牙龈增生的发病机制中的先前被忽视的潜在作用(MIM 135400)。
