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G蛋白依赖性促进神经元α1A、α1B和α1E钙通道。

G-Protein-dependent facilitation of neuronal alpha1A, alpha1B, and alpha1E Ca channels.

作者信息

Meza U, Adams B

机构信息

Department of Physiology and Biophysics, University of Iowa College of Medicine, Iowa City, Iowa 52242-1109, USA.

出版信息

J Neurosci. 1998 Jul 15;18(14):5240-52. doi: 10.1523/JNEUROSCI.18-14-05240.1998.

DOI:10.1523/JNEUROSCI.18-14-05240.1998
PMID:9651207
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6793477/
Abstract

Modulation of neuronal voltage-gated Ca channels has important implications for synaptic function. To investigate the mechanisms of Ca channel modulation, we compared the G-protein-dependent facilitation of three neuronal Ca channels. alpha1A, alpha1B, or alpha1E subunits were transiently coexpressed with alpha2-deltab and beta3 subunits in HEK293 cells, and whole-cell currents were recorded. After intracellular dialysis with GTPgammaS, strongly depolarized conditioning pulses facilitated currents mediated by each Ca channel type. The magnitude of facilitation depended on current density, with low-density currents being most strongly facilitated and high-density currents often lacking facilitation. Facilitating depolarizations speeded channel activation approximately 1.7-fold for alpha1A and alpha1B and increased current amplitudes by the same proportion, demonstrating equivalent facilitation of G-protein-inhibited alpha1A and alpha1B channels. Inactivation typically obscured facilitation of alpha1E current amplitudes, but the activation kinetics of alpha1E currents showed consistent and pronounced G-protein-dependent facilitation. The onset and decay of facilitation had the same kinetics for alpha1A, alpha1B, and alpha1E, suggesting that Gbeta gamma dimers dissociate from and reassociate with these Ca channels at very similar rates. To investigate the structural basis for N-type Ca channel modulation, we expressed a mutant of alpha1B missing large segments of the II-III loop and C terminus. This deletion mutant exhibited undiminished G-protein-dependent facilitation, demonstrating that a Gbeta gamma interaction site recently identified within the C terminus of alpha1E is not required for modulation of alpha1B.

摘要

神经元电压门控钙通道的调节对突触功能具有重要意义。为了研究钙通道调节的机制,我们比较了三种神经元钙通道的G蛋白依赖性易化作用。α1A、α1B或α1E亚基与α2-δb和β3亚基在HEK293细胞中瞬时共表达,并记录全细胞电流。用GTPγS进行细胞内透析后,强去极化的条件脉冲促进了由每种钙通道类型介导的电流。易化程度取决于电流密度,低密度电流最易被促进,而高密度电流通常缺乏易化作用。促进去极化使α1A和α1B的通道激活速度加快约1.7倍,并使电流幅度增加相同比例,表明G蛋白抑制的α1A和α1B通道具有同等的易化作用。失活通常掩盖了α1E电流幅度的易化作用,但α1E电流的激活动力学显示出一致且明显的G蛋白依赖性易化作用。α1A、α1B和α1E的易化起始和衰减具有相同的动力学,这表明Gβγ二聚体以非常相似的速率与这些钙通道解离和重新结合。为了研究N型钙通道调节的结构基础,我们表达了缺失II-III环和C末端大片段的α1B突变体。该缺失突变体表现出未减弱的G蛋白依赖性易化作用,表明最近在α1E的C末端鉴定出的Gβγ相互作用位点对于α1B的调节不是必需的。

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