Sagath Lydia, Kiiski Kirsi, Naidu Kireshnee, Patel Krutik, Jonson Per Harald, Laarne Milla, Djordjevic Djurdja, Yoon Grace, LaGroon Anna, Rogers Curtis, Galindo Maureen Kelly, Scherer Katalin, Kunstmann Erdmute, Koparir Erkan, Ho Desirée, Davis Mark, Joshi Purwa, Zygmunt Alexander, Orbach Rotem, Donkervoort Sandra, Bönnemann Carsten G, Savarese Marco, Echaniz-Laguna Andoni, Biancalana Valérie, Genetti Casie A, Iannaccone Susan T, Beggs Alan H, Wallgren-Pettersson Carina, Henning Franclo, Pelin Katarina, Lehtokari Vilma-Lotta
Folkhälsan Research Center, Helsinki, Finland.
Department of Medical Genetics, Medicum, University of Helsinki, Finland.
medRxiv. 2024 Oct 4:2024.10.04.24313542. doi: 10.1101/2024.10.04.24313542.
Structural variants (SVs) of the nebulin gene (), including intragenic duplications, deletions, and copy number variation of the triplicate region, are an established cause of recessively inherited nemaline myopathies and related neuromuscular disorders. Large deletions have been shown to cause dominantly inherited distal myopathies. Here we provide an overview of 35 families with muscle disorders caused by such SVs in .
Using custom Comparative Genomic Hybridization arrays, exome sequencing, short-read genome sequencing, custom Droplet Digital PCR, or Sanger sequencing, we identified pathogenic SVs in 35 families with -related myopathies.
In 23 families, recessive intragenic deletions and duplications or pathogenic gains of the triplicate region segregating with the disease in compound heterozygous form, together with a small variant in trans, were identified. In two families the SV was, however, homozygous. Eight families have not been described previously. In 12 families with a distal myopathy phenotype, eight unique, large deletions encompassing 52 to 97 exons in either heterozygous (n = 10) or mosaic (n = 2) state were identified.In the families where inheritance was recessive, no correlation could be made between the types of variants and the severity of the disease. In contrast, all patients with large dominant deletions in had milder, predominantly distal muscle weakness.
For the first time, we establish a clear and statistically significant association between large deletions and a form of distal myopathy. In addition, we provide the hitherto largest overview of the spectrum of SVs in .
伴肌动蛋白基因()的结构变异(SVs),包括基因内重复、缺失以及三联体区域的拷贝数变异,是隐性遗传的杆状体肌病及相关神经肌肉疾病的既定病因。已证实大片段缺失可导致显性遗传的远端肌病。在此,我们概述了35个因伴肌动蛋白基因中的此类结构变异而导致肌肉疾病的家系。
我们使用定制的比较基因组杂交阵列、外显子组测序、短读长基因组测序、定制的液滴数字PCR或桑格测序,在35个患有伴肌动蛋白相关肌病的家系中鉴定出致病的结构变异。
在23个家系中,鉴定出隐性基因内缺失和重复或三联体区域的致病性增加,以复合杂合形式与疾病共分离,同时还存在一个反式小变异。然而,在两个家系中,结构变异是纯合的。八个家系此前未被描述过。在12个具有远端肌病表型的家系中,鉴定出八个独特的大片段缺失,包含52至97个外显子,处于杂合状态(n = 10)或嵌合状态(n = 2)。在隐性遗传的家系中,变异类型与疾病严重程度之间没有相关性。相比之下,所有伴肌动蛋白基因中存在大片段显性缺失的患者症状较轻,主要表现为远端肌肉无力。
我们首次明确并在统计学上显著建立了大片段伴肌动蛋白基因缺失与一种远端肌病形式之间的关联。此外,我们提供了迄今为止关于伴肌动蛋白基因结构变异谱的最大规模概述。
