在 II 型局灶性皮质发育不良中鉴定的新候选基因中的体突变。

Somatic variants in new candidate genes identified in focal cortical dysplasia type II.

机构信息

Department of Pediatrics, Peking University First Hospital, Beijing, China.

Pediatric Epilepsy Center, Peking University First Hospital, Beijing, China.

出版信息

Epilepsia. 2020 Apr;61(4):667-678. doi: 10.1111/epi.16481. Epub 2020 Mar 26.

DOI:10.1111/epi.16481

PMID:32216069

Abstract

OBJECTIVE

Focal cortical dysplasia type II (FCDII) is a malformation of cortex development commonly found in children with drug-resistant epilepsy. FCDII has been associated with somatic mutations in mammalian target of rapamycin (mTOR)-related pathway genes and an upregulation of mTOR. Somatic mutations were found in 10%-63% of FCDII samples; the frequency of the mutant allele was 0.93%-33.5%. This study aimed to find new candidate genes involved in FCDII.

METHODS

We collected resected FCD lesions, perilesional brain tissues, and peripheral blood from 17 children with pathologically confirmed FCDII. We performed whole exome sequencing and followed a set of screening and analysis strategies to identify potentially deleterious somatic variants (PDSVs) in brain-expressed genes. We performed site-specific amplicon sequencing to validate the results. We also performed an in vitro functional study on an IRS1 variant.

RESULTS

In six of 17 samples, we identified seven PDSVs in seven genes, including two frameshift variants and five missense variants. The frequencies of the variant allele were 1.29%-5.50%. The genes were MTOR, TSC2, IRS1, RAB6B, RALA, HTR6, and ZNF337. PDSVs in IRS1, RAB6B, ZNF337, RALA, and HTR6 had not been previously associated with FCD. In one lesion, two PDSVs were found in two genes. In a transfected cell line, we demonstrated that the c.1791dupG (identified in FCDII from Patient 1) led to a truncated IRS1 and significant mTOR hyperactivation compared to cells that carried wild-type IRS1. mTOR was also activated in FCDII tissue from Patient 1.

SIGNIFICANCE

Seven PDSVs were identified in FCDII lesions in six of 17 children. Five variant genes had not been previously associated with cortical malformations. We demonstrated that the IRS1 variant led to mTOR hyperactivation in vitro. Although functional experiments are needed, the results provide evidence for novel candidate genes in the pathogenesis of FCDII.

摘要

目的

局灶性皮质发育不良 II 型（FCDII）是一种常见于耐药性癫痫儿童的皮质发育畸形。FCDII 与哺乳动物雷帕霉素靶蛋白（mTOR）相关途径基因的体细胞突变和 mTOR 的上调有关。在 10%-63%的 FCDII 样本中发现了体细胞突变；突变等位基因的频率为 0.93%-33.5%。本研究旨在寻找新的与 FCDII 相关的候选基因。

方法

我们收集了 17 名经病理证实为 FCDII 的儿童的切除 FCD 病变、病变周围脑组织和外周血。我们进行了全外显子组测序，并采用了一套筛选和分析策略，以鉴定脑表达基因中的潜在有害体细胞变异（PDSVs）。我们进行了特定部位扩增子测序来验证结果。我们还对 IRS1 变异体进行了体外功能研究。

结果

在 17 个样本中的 6 个样本中，我们在 7 个基因中发现了 7 个 PDSVs，包括 2 个移码变异和 5 个错义变异。变异等位基因的频率为 1.29%-5.50%。这些基因是 MTOR、TSC2、IRS1、RAB6B、RALA、HTR6 和 ZNF337。IRS1、RAB6B、ZNF337、RALA 和 HTR6 的 PDSVs 以前与 FCD 无关。在一个病变中，两个基因中发现了两个 PDSVs。在转染细胞系中，我们证明了 c.1791dupG（在来自患者 1 的 FCDII 中发现）导致 IRS1 截断，并与携带野生型 IRS1 的细胞相比导致 mTOR 过度激活。患者 1 的 FCDII 组织中也激活了 mTOR。