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新生突变的 gain-of-function 和 loss-of-function CACNA1A 突变均可导致 Lennox-Gastaut 综合征谱系中的严重发育性癫痫性脑病。

Both gain-of-function and loss-of-function de novo CACNA1A mutations cause severe developmental epileptic encephalopathies in the spectrum of Lennox-Gastaut syndrome.

机构信息

Sainte-Justine University Hospital Center, University of Montréal, Montréal, Canada.

Department of Neurosciences, University of Montréal, Montreal, Canada.

出版信息

Epilepsia. 2019 Sep;60(9):1881-1894. doi: 10.1111/epi.16316. Epub 2019 Aug 29.

DOI:10.1111/epi.16316
PMID:31468518
Abstract

OBJECTIVE

Developmental epileptic encephalopathies (DEEs) are genetically heterogeneous severe childhood-onset epilepsies with developmental delay or cognitive deficits. In this study, we explored the pathogenic mechanisms of DEE-associated de novo mutations in the CACNA1A gene.

METHODS

We studied the functional impact of four de novo DEE-associated CACNA1A mutations, including the previously described p.A713T variant and three novel variants (p.V1396M, p.G230V, and p.I1357S). Mutant cDNAs were expressed in HEK293 cells, and whole-cell voltage-clamp recordings were conducted to test the impacts on Ca 2.1 channel function. Channel localization and structure were assessed with immunofluorescence microscopy and three-dimensional (3D) modeling.

RESULTS

We find that the G230V and I1357S mutations result in loss-of-function effects with reduced whole-cell current densities and decreased channel expression at the cell membrane. By contrast, the A713T and V1396M variants resulted in gain-of-function effects with increased whole-cell currents and facilitated current activation (hyperpolarized shift). The A713T variant also resulted in slower current decay. 3D modeling predicts conformational changes favoring channel opening for A713T and V1396M.

SIGNIFICANCE

Our findings suggest that both gain-of-function and loss-of-function CACNA1A mutations are associated with similarly severe DEEs and that functional validation is required to clarify the underlying molecular mechanisms and to guide therapies.

摘要

目的

发育性癫痫性脑病(DEE)是一种遗传性异质性严重的儿童期起病癫痫,伴有发育迟缓或认知缺陷。在这项研究中,我们探讨了 CACNA1A 基因中新发突变与 DEE 相关的致病机制。

方法

我们研究了四个与 DEE 相关的 CACNA1A 新发突变的功能影响,包括先前描述的 p.A713T 变异和三个新的变异(p.V1396M、p.G230V 和 p.I1357S)。突变 cDNA 在 HEK293 细胞中表达,并进行全细胞电压钳记录,以测试对 Ca 2+1 通道功能的影响。通过免疫荧光显微镜和三维(3D)建模评估通道定位和结构。

结果

我们发现 G230V 和 I1357S 突变导致功能丧失效应,全细胞电流密度降低,细胞膜上的通道表达减少。相比之下,A713T 和 V1396M 变体导致功能获得效应,全细胞电流增加,电流激活(超极化漂移)得到促进。A713T 变体还导致电流衰减减慢。3D 建模预测 A713T 和 V1396M 有利于通道开放的构象变化。

意义

我们的发现表明,CACNA1A 基因的功能获得和功能丧失突变都与同样严重的 DEE 相关,需要进行功能验证来阐明潜在的分子机制,并指导治疗。

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