海兔神经元中乙酰胆碱兴奋性反应拮抗剂的作用模式。
The mode of action of antagonists of the excitatory response to acetylcholine in Aplysia neurones.
作者信息
Ascher P, Marty A, Neild T O
出版信息
J Physiol. 1978 May;278:207-35. doi: 10.1113/jphysiol.1978.sp012300.
Abstract
- The mode of action of various antagonists of acetylcholine (ACh) excitatory effects on Aplysia neurones was studied under voltage clamp. ACh was applied by iontophoresis whereas antagonists were applied in the bath. Tubocurarine and hexamethonium were the most thoroughly studied compounds. 2. The 'elementary current', calculated as the ratio of the variance of the ACh noise to the mean ACh induced current, was not modified by any of the antagonists tested. 3. The evolution of the ACh induced current after a voltage jump, which is normally described by a single exponential, was modified by all the antagonists tested. A common feature of the modified relaxations was the appearance, over a certain concentration range of the antagonist, of two successive and opposite exponential components. 4. The characteristics of the composite relaxations depend on the antagonist. For a given antagonist they vary with membrane potential, ACh concentration, and antagonist concentration. 5. The noise power spectra of the ACh induced current showed changes consistent with those of the relaxations. 6. In the absence of antagonists, the current induced by a steady application of ACh increases linearly with hyperpolarization. In the presence of antagonists, the I-V curve shows a marked curvature, indicating a proportionally larger reduction of the ACh response at more negative membrane potentials. 7. The voltage sensitivity of the blocking action of hexamethonium and decamethonium is noticeably stronger than that of monovalent antagonists. 8. A model is proposed which accounts for the observed effects. It assumes that the antagonists studied bind perferentially to the 'activated' ACh-receptor complex, and convert it to a non-conducting state. Kinetic constants can be calculated for this reaction; e.g. for curare, at 12 degrees C and -80 mV, the dissociation and association constants were estimated at 0.1 sec-1 and 4 X 10(5) M-1 sec-1. 9. Partial replacement of the extracellular Na by Tris modifies the relaxations observed in the presence of hexamethonium. Hexamethonium appears less effective in the presence of Tris, which supports the hypothesis that the binding site of the antagonists is linked to the ionic channel.
摘要
- 在电压钳制条件下,研究了多种乙酰胆碱(ACh)对海兔神经元兴奋作用的拮抗剂的作用模式。通过离子电泳施加ACh,而拮抗剂则施加于浴液中。筒箭毒碱和六甲铵是研究最为深入的化合物。2. 计算得出的“基本电流”,即ACh噪声方差与平均ACh诱导电流的比值,未被所测试的任何一种拮抗剂改变。3. 电压阶跃后ACh诱导电流的变化,通常用单一指数来描述,被所有测试的拮抗剂改变。修饰后的弛豫的一个共同特征是,在拮抗剂的一定浓度范围内,出现了两个连续且相反的指数成分。4. 复合弛豫的特征取决于拮抗剂。对于给定的拮抗剂,它们随膜电位、ACh浓度和拮抗剂浓度而变化。5. ACh诱导电流的噪声功率谱显示出与弛豫变化一致的变化。6. 在没有拮抗剂的情况下,持续施加ACh诱导的电流随超极化呈线性增加。在有拮抗剂存在时,电流-电压曲线显示出明显的曲率,表明在更负的膜电位下,ACh反应的降低比例更大。7. 六甲铵和十甲铵阻断作用的电压敏感性明显强于单价拮抗剂。8. 提出了一个模型来解释观察到的效应。它假设所研究的拮抗剂优先结合到“活化的”ACh受体复合物上,并将其转化为非传导状态。可以计算该反应的动力学常数;例如,对于箭毒,在12℃和-80mV时,解离常数和缔合常数估计分别为0.1秒-1和4×10⁵M⁻¹秒-1。9. 用Tris部分替代细胞外Na会改变在六甲铵存在下观察到的弛豫。在Tris存在下,六甲铵似乎效果较差,这支持了拮抗剂结合位点与离子通道相连的假设。
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