细胞外钙离子浓度的逐步降低会激活鸡背根神经节细胞中的一种短暂内向电流。
Step reductions in extracellular Ca2+ activate a transient inward current in chick dorsal root ganglion cells.
作者信息
Hablitz J J, Heinemann U, Lux H D
出版信息
Biophys J. 1986 Oct;50(4):753-7. doi: 10.1016/S0006-3495(86)83515-9.
Abstract
We investigated whether transient step reductions in divalent cations would produce detectable changes in neuronal excitability similar to those reported in the total absence of divalent cations. Using cultured chick dorsal root ganglion cells as a model system, our results indicate that a step reduction in divalent cations induces a transient inward current. This response is mediated by a tetrodotoxin-resistant, Na+-permeable, cation channel that is blocked by cadmium. This, and our observation that the response is abolished by verapamil, suggests that the current passes through calcium channels. This transient inward current was estimated to be activated by decreases in extracellular calcium ([Ca2+]o) as small as 0.5-0.8 mM and thus represents a different response from the one previously observed when steady-state [Ca2+]o levels were reduced to micromolar levels.
摘要
我们研究了二价阳离子的短暂阶梯式降低是否会像完全不存在二价阳离子时所报道的那样,使神经元兴奋性产生可检测到的变化。我们以培养的鸡背根神经节细胞作为模型系统,结果表明二价阳离子的阶梯式降低会诱导出短暂的内向电流。这种反应由一种对河豚毒素有抗性、可通透Na⁺的阳离子通道介导,该通道会被镉阻断。这一点,以及我们观察到维拉帕米可消除该反应,表明该电流通过钙通道。据估计,这种短暂的内向电流可被细胞外钙([Ca²⁺]o)降至低至0.5 - 0.8 mM的水平所激活,因此代表了一种与之前将稳态[Ca²⁺]o水平降至微摩尔水平时所观察到的反应不同的反应。
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