Duke Molecular Physiology Institute, Duke University Medical Center, Durham, NC, United States of America.
Pediatric Neurology Research Group, Vall d'Hebron Research Institute, Barcelona, Spain.
PLoS One. 2021 May 11;16(5):e0251289. doi: 10.1371/journal.pone.0251289. eCollection 2021.
Chiari Malformation Type 1 (CM-1) is characterized by herniation of the cerebellar tonsils below the foramen magnum and the presence of headaches and other neurologic symptoms. Cranial bone constriction is suspected to be the most common biologic mechanism leading to CM-1. However, other mechanisms may also contribute, particularly in the presence of connective tissue disorders (CTDs), such as Ehlers Danlos Syndrome (EDS). Accumulating data suggest CM-1 with connective tissue disorders (CTD+) may have a different patho-mechanism and different genetic risk factors than CM-1 without CTDs (CTD-). To identify CM-1 genetic risk variants, we performed whole exome sequencing on a single large, multiplex family from Spain and targeted sequencing on a cohort of 186 unrelated adult, Caucasian females with CM-1. Targeted sequencing captured the coding regions of 21 CM-1 and EDS candidate genes, including two genes identified in the Spanish family. Using gene burden analysis, we compared the frequency of rare, functional variants detected in CM-1 cases versus publically available ethnically-matched controls from gnomAD. A secondary analysis compared the presence of rare variants in these genes between CTD+ and CTD- CM-1 cases. In the Spanish family, rare variants co-segregated with CM-1 in COL6A5, ADGRB3 and DST. A variant in COL7A1 was present in affected and unaffected family members. In the targeted sequencing analysis, rare variants in six genes (COL7A1, COL5A2, COL6A5, COL1A2, VEGFB, FLT1) were significantly more frequent in CM-1 cases compared to public controls. In total, 47% of CM-1 cases presented with rare variants in at least one of the four significant collagen genes and 10% of cases harbored variants in multiple significant collagen genes. Moreover, 26% of CM-1 cases presented with rare variants in the COL6A5 gene. We also identified two genes (COL7A1, COL3A1) for which the burden of rare variants differed significantly between CTD+ and CTD- CM-1 cases. A higher percentage of CTD+ patients had variants in COL7A1 compared to CTD+ patients, while CTD+ patients had fewer rare variants in COL3A1 than did CTD- patients. In summary, rare variants in several collagen genes are particularly frequent in CM-1 cases and those in COL6A5 co-segregated with CM-1 in a Spanish multiplex family. COL6A5 has been previously associated with musculoskeletal phenotypes, but this is the first association with CM-1. Our findings underscore the contribution of rare genetic variants in collagen genes to CM-1, and suggest that CM-1 in the presence and absence of CTD symptoms is driven by different genes.
颅底凹陷症 1 型(CM-1)的特征是小脑扁桃体通过枕骨大孔疝出,伴有头痛和其他神经症状。颅底骨狭窄被怀疑是导致 CM-1 最常见的生物学机制。然而,其他机制也可能起作用,特别是在存在结缔组织疾病(CTDs)的情况下,如埃勒斯-当洛斯综合征(EDS)。越来越多的证据表明,患有结缔组织疾病(CTD+)的 CM-1 患者可能具有与没有结缔组织疾病(CTD-)的 CM-1 患者不同的病理机制和不同的遗传风险因素。为了确定 CM-1 的遗传风险变异,我们对来自西班牙的一个大型、多基因家族进行了全外显子组测序,并对 186 名无关的成年白种女性 CM-1 患者进行了靶向测序。靶向测序捕获了 21 个 CM-1 和 EDS 候选基因的编码区,包括在西班牙家族中发现的两个基因。使用基因负担分析,我们比较了 CM-1 病例中罕见、功能变异的频率与 gnomAD 中公开的、种族匹配的对照。二次分析比较了 CTD+和 CTD- CM-1 病例中这些基因中罕见变异的存在情况。在西班牙家族中,COL6A5、ADGRB3 和 DST 中的罕见变异与 CM-1 共分离。COL7A1 中的一个变异存在于受影响和未受影响的家族成员中。在靶向测序分析中,COL7A1、COL5A2、COL6A5、COL1A2、VEGFB 和 FLT1 这六个基因中的罕见变异在 CM-1 病例中比公共对照更频繁。总的来说,47%的 CM-1 病例至少有一个四个显著胶原基因中的一个存在罕见变异,10%的病例存在多个显著胶原基因中的变异。此外,26%的 CM-1 病例 COL6A5 基因存在罕见变异。我们还发现了两个基因(COL7A1、COL3A1),它们的罕见变异负担在 CTD+和 CTD- CM-1 病例之间有显著差异。与 CTD+患者相比,更多的 CTD+患者存在 COL7A1 变异,而 CTD+患者的 COL3A1 罕见变异少于 CTD-患者。总之,几个胶原基因中的罕见变异在 CM-1 病例中特别频繁,COL6A5 中的变异与西班牙多基因家族中的 CM-1 共分离。COL6A5 先前与肌肉骨骼表型有关,但这是首次与 CM-1 有关。我们的研究结果强调了胶原基因中罕见遗传变异对 CM-1 的贡献,并表明存在和不存在 CTD 症状的 CM-1 是由不同的基因驱动的。
