作为一种神经递质释放增强剂的林诺吡啶(DuP 996)对大鼠CA1锥体神经元中动作电位频率适应性的降低及M电流的阻断作用
Reduction of spike frequency adaptation and blockade of M-current in rat CA1 pyramidal neurones by linopirdine (DuP 996), a neurotransmitter release enhancer.
作者信息
Aiken S P, Lampe B J, Murphy P A, Brown B S
机构信息
DuPont Merck Pharmaceutical Company, Wilmington, DE 19880-0400, USA.
出版信息
Br J Pharmacol. 1995 Aug;115(7):1163-8. doi: 10.1111/j.1476-5381.1995.tb15019.x.
Abstract
- Linopirdine (DuP 996) has been shown to enhance depolarization-induced release of several neurotransmitters in the CNS through a mechanism which may involve K+ channel blockade. The electrophysiological effects of linopirdine were therefore investigated directly, by use of conventional voltage recording and single electrode voltage-clamp. 2. Linopirdine (10 microM) reduced spike frequency adaptation (SFA) in rat hippocampal CA1 pyramidal neurones in vitro. The reduction of SFA comprised an increase in number of spikes and a reduction in inter-spike intervals after the first, but with no effect on time to first spike. Linopirdine also caused a voltage-dependent depolarization of resting membrane potential (RMP). 3. M-current (IM), a current known to underlie SFA and to set RMP, was blocked by linopirdine in a reversible, concentration-dependent manner (IC50 = 8.5 microM). This block was not reversed by atropine (10 microM). 4. Linopirdine did not affect IQ, the slow after-hyperpolarization following a spike train, or spike duration. 5. Linopirdine may represent a novel class of K+ blocker with relative selectivity for the M-current. This block of IM is consistent with the suggestion from a previous study that linopirdine may affect a tetraethylammonium-sensitive channel, and it could be speculated that IM blockade may be involved with the enhancement of neurotransmitter release by linopirdine.
摘要
- 利诺吡啶(DuP 996)已被证明可通过一种可能涉及钾通道阻断的机制增强中枢神经系统中去极化诱导的多种神经递质释放。因此,通过使用传统电压记录和单电极电压钳直接研究了利诺吡啶的电生理效应。2. 利诺吡啶(10微摩尔)降低了体外培养的大鼠海马CA1锥体神经元的峰频率适应性(SFA)。SFA的降低包括峰数量增加和第一个峰后峰间间隔缩短,但对第一个峰出现的时间没有影响。利诺吡啶还引起静息膜电位(RMP)的电压依赖性去极化。3. M电流(IM)是一种已知构成SFA并设定RMP的电流,被利诺吡啶以可逆的、浓度依赖性方式阻断(IC50 = 8.5微摩尔)。这种阻断不能被阿托品(10微摩尔)逆转。4. 利诺吡啶不影响峰序列后的慢超极化后电位(IQ)或峰持续时间。5. 利诺吡啶可能代表一类对M电流具有相对选择性的新型钾通道阻断剂。对IM的这种阻断与先前研究的结果一致,即利诺吡啶可能影响对四乙铵敏感的通道,并且可以推测IM阻断可能与利诺吡啶增强神经递质释放有关。
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