Am J Hum Genet. 2014 Oct 2;95(4):360-70. doi: 10.1016/j.ajhg.2014.08.013. Epub 2014 Sep 25.
Emerging evidence indicates that epileptic encephalopathies are genetically highly heterogeneous, underscoring the need for large cohorts of well-characterized individuals to further define the genetic landscape. Through a collaboration between two consortia (EuroEPINOMICS and Epi4K/EPGP), we analyzed exome-sequencing data of 356 trios with the "classical" epileptic encephalopathies, infantile spasms and Lennox Gastaut syndrome, including 264 trios previously analyzed by the Epi4K/EPGP consortium. In this expanded cohort, we find 429 de novo mutations, including de novo mutations in DNM1 in five individuals and de novo mutations in GABBR2, FASN, and RYR3 in two individuals each. Unlike previous studies, this cohort is sufficiently large to show a significant excess of de novo mutations in epileptic encephalopathy probands compared to the general population using a likelihood analysis (p = 8.2 × 10(-4)), supporting a prominent role for de novo mutations in epileptic encephalopathies. We bring statistical evidence that mutations in DNM1 cause epileptic encephalopathy, find suggestive evidence for a role of three additional genes, and show that at least 12% of analyzed individuals have an identifiable causal de novo mutation. Strikingly, 75% of mutations in these probands are predicted to disrupt a protein involved in regulating synaptic transmission, and there is a significant enrichment of de novo mutations in genes in this pathway in the entire cohort as well. These findings emphasize an important role for synaptic dysregulation in epileptic encephalopathies, above and beyond that caused by ion channel dysfunction.
新出现的证据表明,癫痫性脑病在遗传上具有高度异质性,这凸显了需要大量特征明确的个体队列来进一步明确遗传图谱。通过两个联盟(欧洲癫痫基因组学联盟和癫痫4千/癫痫基因组计划联盟)的合作,我们分析了356个患有“经典”癫痫性脑病、婴儿痉挛症和Lennox-Gastaut综合征的三联体的外显子测序数据,其中包括先前由癫痫4千/癫痫基因组计划联盟分析过的264个三联体。在这个扩大的队列中,我们发现了429个新生突变,包括5名个体中DNM1的新生突变以及各有2名个体中GABBR2、FASN和RYR3的新生突变。与之前的研究不同,这个队列规模足够大,通过似然分析显示癫痫性脑病先证者中的新生突变显著多于一般人群(p = 8.2 × 10⁻⁴),支持新生突变在癫痫性脑病中起重要作用。我们提供了统计学证据表明DNM1中的突变会导致癫痫性脑病,发现另外三个基因也有提示性作用的证据,并表明至少12%的分析个体有可识别的致病新生突变。引人注目的是,这些先证者中75%的突变预计会破坏参与调节突触传递的蛋白质,并且在整个队列中该途径的基因中新生突变也有显著富集。这些发现强调了突触功能失调在癫痫性脑病中的重要作用,其作用超出了离子通道功能障碍所导致的范围。