Department of Genetics, Case Western Reserve University School of Medicine, Cleveland, OH 44106, USA.
Curr Biol. 2011 Dec 20;21(24):2070-6. doi: 10.1016/j.cub.2011.10.042. Epub 2011 Dec 1.
Volatile anesthetics (VAs) cause profound neurological effects, including reversible loss of consciousness and immobility. Despite their widespread use, the mechanism of action of VAs remains one of the unsolved puzzles of neuroscience [1, 2]. Genetic studies in Caenorhabditis elegans [3, 4], Drosophila [3, 5], and mice [6-9] indicate that ion channels controlling the neuronal resting membrane potential (RMP) also control anesthetic sensitivity. Leak channels selective for K(+) [10-13] or permeable to Na(+) [14] are critical for establishing RMP. We hypothesized that halothane, a VA, caused immobility by altering the neuronal RMP. In C. elegans, halothane-induced immobility is acutely and completely reversed by channelrhodopsin-2 based depolarization of the RMP when expressed specifically in cholinergic neurons. Furthermore, hyperpolarizing cholinergic neurons via halorhodopsin activation increases sensitivity to halothane. The sensitivity of C. elegans to halothane can be altered by 25-fold by either manipulation of membrane conductance with optogenetic methods or generation of mutations in leak channels that set the RMP. Immobility induced by another VA, isoflurane, is not affected by these treatments, thereby excluding the possibility of nonspecific hyperactivity. The sum of our data indicates that leak channels and the RMP are important determinants of halothane-induced general anesthesia.
挥发性麻醉剂(VA)会引起深刻的神经效应,包括意识和运动的可逆丧失。尽管它们被广泛应用,但 VA 的作用机制仍然是神经科学未解之谜之一[1,2]。秀丽隐杆线虫[3,4]、果蝇[3,5]和小鼠[6-9]的遗传研究表明,控制神经元静息膜电位(RMP)的离子通道也控制着麻醉敏感性。选择性通透 K(+)的渗漏通道[10-13]或对 Na(+)有通透性的通道[14]对于建立 RMP 至关重要。我们假设,VA 氟烷通过改变神经元的 RMP 引起运动性丧失。在秀丽隐杆线虫中,当通道视紫红质-2(channelrhodopsin-2)特异性在胆碱能神经元中表达时,可通过增加 RMP 的去极化而迅速且完全逆转氟烷诱导的运动性丧失。此外,通过 halorhodopsin 激活使胆碱能神经元超极化可增加对氟烷的敏感性。通过光遗传学方法操纵膜电导或产生改变 RMP 的渗漏通道突变,可以将秀丽隐杆线虫对氟烷的敏感性改变 25 倍。另一种 VA 异氟烷引起的运动性丧失不受这些处理的影响,从而排除了非特异性过度活跃的可能性。我们的数据总和表明,渗漏通道和 RMP 是氟烷诱导全身麻醉的重要决定因素。