铯可阻断大鼠视上核神经元的去极化后电位和相位性放电。
Caesium blocks depolarizing after-potentials and phasic firing in rat supraoptic neurones.
作者信息
Ghamari-Langroudi M, Bourque C W
机构信息
Centre for Research in Neuroscience, Montreal General Hospital & McGill University, 1650 Cedar Avenue, Montreal, QC, Canada H3G 1A4.
出版信息
J Physiol. 1998 Jul 1;510 ( Pt 1)(Pt 1):165-75. doi: 10.1111/j.1469-7793.1998.165bz.x.
Abstract
- The effects of Cs+ on the action potential, post-train after-hyperpolarization (AHP), Ca2+-dependent post-spike depolarizing after-potential (DAP) and phasic firing were examined during intracellular recordings from magnocellular neurosecretory cells (MNCs) in superfused rat hypothalamic explants. 2. Extracellular Cs+ reversibly inhibited (IC50, approximately 1 mM) DAPs, and associated after-discharges, that followed brief spike trains in each of sixteen cells tested. Although bath application of Cs+ also provoked a small reversible depolarization, inhibition of the DAP was retained when membrane voltage was kept constant by current injection. 3. Application of Cs+ had no significant effects on spike duration (n = 8), frequency-dependent spike broadening (n = 8), spike hyperpolarizing after-potentials (n = 14), or the amplitude of the isolated AHP (n = 7). Caesium-evoked inhibition of the DAP, therefore, does not result from diminished spike-evoked Ca2+ influx, and may reflect direct blockade of the conductance underlying the DAP. 4. Inhibition of the DAP was associated with an enhancement of the amplitude and duration of the AHP, indicating that the currents underlying the AHP and the DAP overlap in time following a train of action potentials, and that the relative magnitude of these currents is an important factor in determining the shape and time course of post-train after-potentials. 5. Bath application of Cs+ reversibly abolished phasic firing in each of seven cells tested. This effect was reversible and persisted at all subthreshold voltages tested. These results indicate that the current underlying the DAP is necessary for the genesis of plateau potentials and phasic firing in MNCs.
摘要
- 在对灌流大鼠下丘脑外植体中的大细胞神经分泌细胞(MNCs)进行细胞内记录时,研究了Cs⁺对动作电位、强直后超极化(AHP)、Ca²⁺依赖性锋电位后去极化后电位(DAP)和相位性放电的影响。2. 细胞外Cs⁺可逆性抑制(IC50,约1 mM)DAP以及相关的后放电,在测试的16个细胞中的每一个细胞中,短暂的锋电位串之后都会出现这种情况。尽管浴加Cs⁺也会引起小的可逆性去极化,但当通过电流注入使膜电压保持恒定时,对DAP的抑制作用仍然存在。3. 施加Cs⁺对锋电位持续时间(n = 8)、频率依赖性锋电位展宽(n = 8)、锋电位超极化后电位(n = 14)或分离的AHP幅度(n = 7)没有显著影响。因此,铯诱发的对DAP的抑制不是由锋电位诱发的Ca²⁺内流减少引起的,可能反映了对DAP基础电导的直接阻断。4. 对DAP的抑制与AHP幅度和持续时间的增加有关,表明AHP和DAP基础电流在一串动作电位之后在时间上重叠,并且这些电流的相对大小是决定强直后电位的形状和时间进程的重要因素。5. 浴加Cs⁺可逆性地消除了测试的7个细胞中的每一个细胞的相位性放电。这种效应是可逆的,并且在所有测试的阈下电压下都持续存在。这些结果表明,DAP基础电流对于MNCs中平台电位和相位性放电的产生是必需的。
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