钙激活钾通道在鱿鱼巨突触递质释放中的作用。
Role of calcium-activated potassium channels in transmitter release at the squid giant synapse.
作者信息
Augustine G J, Charlton M P, Horn R
机构信息
Department of Biological Sciences, University of Southern California, Los Angeles 90089-0371.
出版信息
J Physiol. 1988 Apr;398:149-64. doi: 10.1113/jphysiol.1988.sp017035.
Abstract
- Several compounds known to block Ca2+-activated K+ channels were microinjected into squid 'giant' presynaptic terminals to test the hypothesis that these channels mediate Ca2+-dependent neurotransmitter release. 2. Injection of tetrapentylammonium, nonyl-triethylammonium and decamethonium all reversibly blocked transmission evoked by presynaptic action potentials. 3. All three of these compounds blocked presynaptic Ca2+ channels. The actions of tetrapentylammonium on presynaptic Ca2+ influx were examined in detail and found to be quantitatively sufficient to account for the ability of this compound to inhibit transmitter release. 4. Injection of Ba2+, another agent known to block Ca2+-activated K+ channels, also reversibly blocked evoked transmitter release. Ba2+ simultaneously enhanced basal (asynchronous) transmitter release and thus may be decreasing evoked release by depleting transmitter quanta available for release. 5. None of these results provide any support for the hypothesis that Ca2+-activated K+ channels mediate Ca2+-dependent release of transmitter at the squid synapse. However, our results have identified a new class of compounds that block Ca2+ channels from their cytoplasmic surface.
摘要
- 将几种已知可阻断钙激活钾通道的化合物微量注射到枪乌贼“巨大”突触前终末,以检验这些通道介导钙依赖性神经递质释放的假说。2. 注射四戊铵、壬基三乙铵和十烃季铵均可可逆地阻断突触前动作电位诱发的传递。3. 这三种化合物均阻断突触前钙通道。详细研究了四戊铵对突触前钙内流的作用,发现其作用在数量上足以解释该化合物抑制递质释放的能力。4. 注射钡离子(另一种已知可阻断钙激活钾通道的试剂)也可逆地阻断诱发的递质释放。钡离子同时增强基础(异步)递质释放,因此可能是通过耗尽可供释放的递质量子来减少诱发释放。5. 这些结果均未为钙激活钾通道介导枪乌贼突触处钙依赖性递质释放的假说提供任何支持。然而,我们的结果鉴定出了一类可从细胞质表面阻断钙通道的新化合物。
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