Department of Neurology, School of Medicine, University of California-Davis, CA, USA.
Neurobiol Dis. 2012 Sep;47(3):378-84. doi: 10.1016/j.nbd.2012.05.017. Epub 2012 Jun 4.
Ion channels, specifically voltage-gated sodium channels (Na(v)s), are common culprits in inheritable seizure disorders. Some Na(v) isoforms are particularly susceptible, while others are only weakly associated with neuronal hyperexcitability. Representative of the latter group is Na(v)1.2 (gene name SCN2A): despite its abundance in the brain, Na(v)1.2-related epilepsy is rare and only few studies have been conducted as to the pathophysiological basis of Na(v)1.2 in neuronal hyperexcitability. We here present a detailed functional analysis of Na(v)1.2 mutant, R1312T, which was originally found in a child with Dravet syndrome (formerly known as severe myoclonic epilepsy of infancy or SMEI). Whole-cell voltage clamp analysis revealed clearly compromised function: the mutant channels fast- and slow-inactivated at markedly more negative potentials and recovered from fast inactivation more slowly, which resulted in a use-dependent current reduction to less than 50% of wildtype levels. We also noted a small hyperpolarizing shift in the voltage dependence of activation. Our findings expand the spectrum of abnormal Na(v) channel behavior in epilepsy and raise the question as to how loss-of-function in a sodium channel predominantly expressed in excitatory neurons can lead to hyperexcitability.
离子通道,特别是电压门控钠离子通道(Na(v)s),是遗传性癫痫发作疾病的常见罪魁祸首。一些 Na(v)亚型特别容易受到影响,而其他亚型则与神经元过度兴奋的相关性较弱。Na(v)1.2(基因名称 SCN2A)就是后者的代表:尽管它在大脑中大量存在,但与 Na(v)1.2 相关的癫痫发作非常罕见,并且只有少数研究针对 Na(v)1.2 在神经元过度兴奋中的病理生理基础进行了研究。我们在这里对 R1312T 突变体进行了详细的功能分析,该突变体最初在患有德拉维特综合征(以前称为婴儿严重肌阵挛性癫痫或 SMEI)的儿童中发现。全细胞电压钳分析显示功能明显受损:突变通道快速和慢速失活的电位明显更负,从快速失活中恢复的速度也更慢,导致电流依赖性减少至不到野生型水平的 50%。我们还注意到激活的电压依赖性有一个小的超极化偏移。我们的发现扩展了癫痫中异常 Na(v)通道行为的范围,并提出了一个问题,即在主要表达在兴奋性神经元中的钠离子通道中丧失功能如何导致过度兴奋。
