失神癫痫小鼠模型对钙通道生理学和疾病病因学的见解。
Insights from mouse models of absence epilepsy into Ca2+ channel physiology and disease etiology.
作者信息
Felix Ricardo
机构信息
Department of Physiology, Biophysics and Neuroscience, Center for Research and Advanced Studies of the National Polytechnic Institute, Cinvestav-IPN, Mexico DF.
出版信息
Cell Mol Neurobiol. 2002 Apr;22(2):103-20. doi: 10.1023/a:1019807719343.
Abstract
- Changes in intracellular Ca2+ ([Ca2+]i) levels provide signals that allow neurons to respond to a host of external stimuli. A major mechanism for elevating [Ca2+]i is the influx of extracellular Ca2+ through voltage-gated channels (Ca(V)) in the plasma membrane. Malfunction in Ca(V) due to mutations in genes encoding channel proteins are increasingly being implicated in causing disease conditions, termed channelopathies. 2. Seven spontaneous mutations with cerebellar ataxia and generalized absence epilepsy have been identified in mice (tottering, leaner, rolling Nagoya, rocker, lethargic, ducky, and stargazer), and these overlapping phenotypes are directly related to mutations in genes encoding the four separate subunits that together form the multimeric neuronal Ca(V) complex. 3. The discovery and systematic analysis of these animal models is helping to clarify how different mutations affect channel function and how altered channel function produces disease.
摘要
- 细胞内钙离子([Ca2+]i)水平的变化提供了信号,使神经元能够对一系列外部刺激做出反应。提高[Ca2+]i的一个主要机制是细胞外钙离子通过质膜上的电压门控通道(Ca(V))流入。由于编码通道蛋白的基因突变导致Ca(V)功能异常,越来越多地被认为与导致疾病状态有关,称为通道病。2. 在小鼠中已鉴定出七种伴有小脑共济失调和全身性失神癫痫的自发突变(蹒跚、更瘦、滚动名古屋、摇椅、嗜睡、小鸭和凝视),这些重叠的表型与编码四个单独亚基的基因突变直接相关,这四个亚基共同形成多聚体神经元Ca(V)复合体。3. 这些动物模型的发现和系统分析有助于阐明不同的突变如何影响通道功能,以及通道功能改变如何产生疾病。
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