钠通道表达时间、癫痫与Dravet综合征猝死之间的相关性。

Correlations in timing of sodium channel expression, epilepsy, and sudden death in Dravet syndrome.

作者信息

Cheah Christine S, Westenbroek Ruth E, Roden William H, Kalume Franck, Oakley John C, Jansen Laura A, Catterall William A

机构信息

Department of Pharmacology; University of Washington; Seattle, WA USA.

Center for Integrative Brain Research; Seattle Children's Research Institute; Seattle, WA USA.

出版信息

Channels (Austin). 2013 Nov-Dec;7(6):468-72. doi: 10.4161/chan.26023. Epub 2013 Aug 21.

DOI:10.4161/chan.26023

PMID:23965409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4042481/

Abstract

Dravet Syndrome (DS) is an intractable genetic epilepsy caused by loss-of-function mutations in SCN1A, the gene encoding brain sodium channel Nav 1.1. DS is associated with increased frequency of sudden unexpected death in humans and in a mouse genetic model of this disease. Here we correlate the time course of declining expression of the murine embryonic sodium channel Nav 1.3 and the rise in expression of the adult sodium channel Nav 1.1 with susceptibility to epileptic seizures and increased incidence of sudden death in DS mice. Parallel studies with unaffected human brain tissue demonstrate similar decline in Nav 1.3 and increase in Nav 1.1 with age. In light of these results, we introduce the hypothesis that the natural loss Nav 1.3 channel expression in brain development, coupled with the failure of increase in functional Nav 1.1 channels in DS, defines a tipping point that leads to disinhibition of neural circuits, intractable seizures, co-morbidities, and premature death in this disease.

摘要

德拉韦综合征（DS）是一种难治性遗传性癫痫，由编码脑钠通道Nav 1.1的基因SCN1A功能丧失性突变引起。DS与人类及该疾病小鼠遗传模型中意外猝死频率增加有关。在此，我们将小鼠胚胎钠通道Nav 1.3表达下降的时间进程以及成年钠通道Nav 1.1表达的上升与DS小鼠癫痫发作易感性和猝死发生率增加相关联。对未受影响的人类脑组织进行的平行研究表明，Nav 1.3随年龄增长出现类似下降，而Nav 1.1则出现类似上升。鉴于这些结果，我们提出假说：在脑发育过程中Nav 1.3通道表达的自然丧失，加上DS中功能性Nav 1.1通道未能增加，定义了一个临界点，导致该疾病神经回路去抑制、难治性癫痫发作、合并症和过早死亡。

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