Department of General Surgery, Capital Institute of Pediatrics, Beijing, China.
MyGenostics Inc, Beijing, China.
Sci Rep. 2017 Nov 1;7(1):14796. doi: 10.1038/s41598-017-14835-6.
Hirschsprung disease (HSCR) is a common cause of functional colonic obstruction in children. The currently available genetic testing is often inadequate as it mainly focuses on RET and several other genes, accounting for only 15-20% of cases. To identify novel, potentially pathogenic variants, we isolated a panel of genes from a whole-exome sequencing study and from the published mouse aganglionosis phenotypes, enteric nervous system development, and a literature review. The coding exons of 172 genes were analyzed in 83 sporadic patients using next-generation sequencing. Rare stop-gain, splice-site variants, frameshift and in-frame insertions/deletions and non-synonymous variants (conserved and predicted to be deleterious) were prioritized as the most promising variants to have an effect on HSCR and subjected to burden analysis. GeneMANIA interaction database was used to identify protein-protein interaction-based networks. In addition, 6 genes (PTPN13, PHKB, AGL, ZFHX3, LAMA1, and AP3B2) were prioritized for follow-up studies: both their time-space expression patterns in mouse and human colon showed that they are good candidates for predicting pathogenicity. The results of this study broaden the mutational spectrum of HSCR candidate genes, and they provide an insight into the relative contributions of individual genes to this highly heterogeneous disorder.
先天性巨结肠症(HSCR)是儿童常见的功能性结肠梗阻原因。目前可用的遗传检测通常不够充分,因为它主要集中在 RET 和其他几个基因上,仅占病例的 15-20%。为了鉴定新的、潜在的致病性变体,我们从全外显子组测序研究和已发表的小鼠无神经节细胞表型、肠神经系统发育以及文献综述中分离出一组基因。使用下一代测序对 83 名散发性患者的 172 个基因的编码外显子进行了分析。稀有终止增益、剪接位点变体、移码和框内插入/缺失以及非同义变体(保守且预计为有害的)被优先作为对 HSCR 有影响的最有前途的变体,并进行了负担分析。使用 GeneMANIA 互作数据库来识别基于蛋白-蛋白互作的网络。此外,还优先选择了 6 个基因(PTPN13、PHKB、AGL、ZFHX3、LAMA1 和 AP3B2)进行后续研究:它们在小鼠和人结肠中的时空表达模式表明,它们是预测致病性的良好候选基因。这项研究拓宽了 HSCR 候选基因的突变谱,并深入了解了个别基因对这种高度异质性疾病的相对贡献。
