癫痫通道病需要关注:通过泛素化稳定 Nav1.1 通道。
Epilepsy channelopathies go neddy: stabilizing NaV1.1 channels by neddylation.
出版信息
J Clin Invest. 2021 Apr 15;131(8). doi: 10.1172/JCI148370.
Abstract
Loss-of-function mutations of SCN1A encoding the pore-forming α subunit of the NaV1.1 neuronal sodium channel cause a severe developmental epileptic encephalopathy, Dravet syndrome (DS). In this issue of the JCI, Chen, Luo, Gao, et al. describe a phenocopy for DS in mice deficient for posttranslational conjugation with neural precursor cell expressed, developmentally downregulated 8 (NEDD8) (neddylation), selectively engineered in inhibitory interneurons. Pursuing the possibility that this phenotype is also caused by loss of NaV1.1, Chen, Luo, Gao, and colleagues show that interneuron excitability and GABA release are impaired, NaV1.1 degradation rate is increased with a commensurate decrease of NaV1.1 protein, and NaV1.1 is a substrate for neddylation. These findings establish neddylation as a mechanism for stabilizing NaV1.1 subunits and suggest another pathomechanism for epileptic sodium channelopathy.
摘要
SCN1A 编码神经元钠离子通道的 pore-forming α 亚基,其功能丧失突变导致严重的发育性癫痫性脑病,即 Dravet 综合征(DS)。在本期 JCI 中,Chen、Luo、Gao 等人描述了一种在翻译后与神经前体细胞表达的、发育下调 8(NEDD8)(Neddylation)进行共轭选择性工程化的抑制性中间神经元中缺乏 NEDDylation 的 DS 表型的小鼠模型。为了探究这种表型是否也是由于 NaV1.1 的缺失引起的,Chen、Luo、Gao 及其同事发现中间神经元的兴奋性和 GABA 释放受损,NaV1.1 的降解速率增加,同时 NaV1.1 蛋白减少,NaV1.1 是 Neddylation 的底物。这些发现确立了 Neddylation 是稳定 NaV1.1 亚基的一种机制,并提示了癫痫性钠离子通道病的另一种发病机制。
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