Department of Human Genetics, Radboudumc University Medical Center, Nijmegen, the Netherlands.
Donders Institute for Brain, Cognition and Behaviour, Radboud University, Nijmegen, the Netherlands.
HGG Adv. 2023 Apr 25;4(3):100200. doi: 10.1016/j.xhgg.2023.100200. eCollection 2023 Jul 13.
Split-hand/foot malformation (SHFM) is a congenital limb defect most typically presenting with median clefts in hands and/or feet, that can occur in a syndromic context as well as in isolated form. SHFM is caused by failure to maintain normal apical ectodermal ridge function during limb development. Although several genes and contiguous gene syndromes are implicated in the monogenic etiology of isolated SHFM, the disorder remains genetically unexplained for many families and associated genetic loci. We describe a family with isolated X-linked SHFM, for which the causative variant could be detected after a diagnostic journey of 20 years. We combined well-established approaches including microarray-based copy number variant analysis and fluorescence hybridization coupled with optical genome mapping and whole genome sequencing. This strategy identified a complex structural variant (SV) comprising a 165-kb gain of 15q26.3 material ([GRCh37/hg19] chr15:99795320-99960362dup) inserted in inverted position at the site of a 38-kb deletion on Xq27.1 ([GRCh37/hg19] chrX:139481061-139518989del). analysis suggested that the SV disrupts the regulatory framework on the X chromosome and may lead to misexpression. We hypothesize that dysregulation in the developing limb disturbed the fine balance between morphogens required for maintaining AER function, resulting in SHFM in this family.
分裂手/足畸形(SHFM)是一种先天性肢体缺陷,最典型的表现为手和/或脚的正中裂,可在综合征背景下发生,也可呈孤立型。SHFM 是由于肢体发育过程中未能维持正常的顶端外胚层嵴功能所致。虽然几个基因和连续基因综合征与孤立性 SHFM 的单基因病因有关,但许多家庭的这种疾病仍然无法用遗传解释,并且与遗传位点有关。我们描述了一个孤立性 X 连锁 SHFM 的家族,经过 20 年的诊断探索,我们发现了该家族的致病变异。我们结合了多种成熟的方法,包括基于微阵列的拷贝数变异分析、荧光杂交结合光学基因组图谱和全基因组测序。这种策略鉴定出一种复杂的结构变异(SV),包括 15q26.3 物质的 165kb 增益([GRCh37/hg19] chr15:99795320-99960362dup),以反向插入的方式插入 Xq27.1 处的 38kb 缺失([GRCh37/hg19] chrX:139481061-139518989del)。分析表明,SV 破坏了 X 染色体上的调控框架,并可能导致 异常表达。我们假设,发育中的肢体中的 失调扰乱了维持 AER 功能所需的形态发生素之间的精细平衡,导致该家族发生 SHFM。
