Department of Neurology and Geriatrics, Kagoshima University, Graduate School of Medical and Dental Sciences, Kagoshima, Japan.
Child Healthcare and Genetic Science Laboratory, Division of Health Science, Osaka University, Graduate School of Medicine, Osaka, Japan.
Clin Genet. 2017 Dec;92(6):659-663. doi: 10.1111/cge.13037. Epub 2017 Jul 20.
The clinical and genetic spectrum of hereditary sensory and autonomic neuropathy (HSAN) is still unknown in Japan. We collected a broad cohort of 33 unrelated patients with predominant sensory and/or autonomic dysfunctions, who were referred to our genetic laboratory. A gene panel sequencing targeting 18 HSAN-related genes was performed using a next-generation sequencing system. A recurrent frame shift mutation in the WNK1/HSN2 gene, c.3237_3238insT (p.Asp1080*), was detected in 5 patients. This mutation was homozygous in 4 cases and of a compound heterozygous genotype in 1 case. Geographic and haplotype analysis of all 5 patients suggested a founder event. In addition, a novel heterozygous nonsense variant, c.2615C>G (p.Ser872*), was identified. All the 5 patients presented with severe sensory and autonomic dysfunctions at birth or during adolescence. In 2 patients, an uncommon phenotype of acute pathological pain presented at ~50 years of age. Here, we present the first founder mutation of WNK1/HSN2, in addition to French Canadian, which accounts for ~15.2% of Japanese patients with HSAN in our cohort. We have also reviewed all previously described mutations in WNK1/HSN2 and reconciled their nomenclature strategy on the basis of the current longest transcript.
在日本,遗传性感觉和自主神经病(HSAN)的临床和遗传谱仍不清楚。我们收集了 33 名无血缘关系的主要有感觉和/或自主功能障碍的患者的广泛队列,他们被转介到我们的遗传实验室。使用下一代测序系统对 18 个 HSAN 相关基因进行了靶向基因面板测序。在 5 名患者中检测到 WNK1/HSN2 基因的 c.3237_3238insT(p.Asp1080*)重复移码突变。该突变在 4 例中为纯合子,在 1 例中为复合杂合基因型。对所有 5 例患者的地理和单倍型分析表明存在一个起始事件。此外,还鉴定出一个新的杂合无义变体 c.2615C>G(p.Ser872*)。所有 5 名患者均在出生或青春期时出现严重的感觉和自主功能障碍。在 2 名患者中,约 50 岁时出现了不常见的急性病理性疼痛表型。在这里,我们提出了 WNK1/HSN2 的第一个起始突变,除了法国裔加拿大,这占我们队列中日本 HSAN 患者的约 15.2%。我们还回顾了所有以前描述的 WNK1/HSN2 突变,并根据当前最长的转录本协调了它们的命名策略。
