Department of Pediatrics, University of Washington School of Medicine, Seattle, Washington, USA.
J Med Genet. 2010 Sep;47(9):601-7. doi: 10.1136/jmg.2009.072348. Epub 2009 Nov 25.
Genomic copy number variants have been shown to be responsible for multiple genetic diseases. Recently, a duplication in septin 9 (SEPT9) was shown to be causal for hereditary neuralgic amyotrophy (HNA), an episodic peripheral neuropathy with autosomal dominant inheritance. This duplication was identified in 12 pedigrees that all shared a common founder haplotype.
Based on array comparative genomic hybridisation, we identified six additional heterogeneous tandem SEPT9 duplications in patients with HNA that did not possess the founder haplotype. Five of these novel duplications are intragenic and result in larger transcript and protein products, as demonstrated through reverse transcription-PCR and western blotting. One duplication spans the entire SEPT9 gene and does not generate aberrant transcripts and proteins. The breakpoints of all the duplications are unique and contain regions of microhomology ranging from 2 to 9 bp in size. The duplicated regions contain a conserved 645 bp exon within SEPT9 in which HNA-linked missense mutations have been previously identified, suggesting that the region encoded by this exon is important to the pathogenesis of HNA.
Together with the previously identified founder duplication, a total of seven heterogeneous SEPT9 duplications have been identified in this study as a causative factor of HNA. These duplications account for one third of the patients in our cohort, suggesting that duplications of various sizes within the SEPT9 gene are a common cause of HNA.
基因拷贝数变异被证明是多种遗传疾病的原因。最近,发现 septin 9(SEPT9)的重复是遗传性神经痛性肌萎缩症(HNA)的致病原因,HNA 是一种具有常染色体显性遗传的间歇性周围神经病。该重复在 12 个家系中被发现,这些家系都共享一个共同的祖细胞单倍型。
基于阵列比较基因组杂交,我们在具有 HNA 的患者中发现了另外六个不具有祖细胞单倍型的异质性串联 SEPT9 重复。其中五个新的重复是基因内的,导致更大的转录物和蛋白质产物,通过逆转录-PCR 和 Western blot 证实。一个重复跨越整个 SEPT9 基因,不会产生异常的转录物和蛋白质。所有重复的断点都是独特的,包含大小为 2 至 9 bp 的微同源区域。重复区域包含 SEPT9 内的一个保守的 645 bp 外显子,先前已经鉴定出 HNA 相关的错义突变,这表明该外显子编码的区域对 HNA 的发病机制很重要。
连同先前确定的创始性重复,本研究共鉴定了七个异质性 SEPT9 重复作为 HNA 的致病因素。这些重复占我们队列中患者的三分之一,表明 SEPT9 基因内大小不同的重复是 HNA 的常见原因。
