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体外培养大鼠新皮层神经元中长时程抑制性突触后电位的特征

Characteristics of long-duration inhibitory postsynaptic potentials in rat neocortical neurons in vitro.

作者信息

Howe J R, Sutor B, Zieglgänsberger W

出版信息

Cell Mol Neurobiol. 1987 Mar;7(1):1-18. doi: 10.1007/BF00734986.

DOI:10.1007/BF00734986
PMID:3594515
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11567389/
Abstract

The characteristics of long-duration inhibitory postsynaptic potentials (1-IPSPs) which are evoked in rat frontal neocortical neurons by local electrical stimulation were investigated with intracellular recordings from an in vitro slice preparation. Stimulation with suprathreshold intensities evoked 1-IPSPs with typical durations of 600-900 msec at resting membrane potential. Conductance increases of 15-60% were measured at the peak amplitude of 1-IPSPs (150-250 msec poststimulus). The duration of the conductance increases during 1-IPSPs displayed a significant voltage dependence, decreasing as the membrane potential was depolarized and increasing with hyperpolarization. The reversal potential of 1-IPSPs is significantly altered by reductions in the extracellular potassium concentration. Therefore it is concluded that 1-IPSPs in rat neocortical neurons are generated by the activation of a potassium conductance. 1-IPSPs exhibit stimulation fatigue. Stimulation with a frequency of 1 Hz produces a complete fatigue of the conductance increases during 1-IPSPs after approximately 20 consecutive stimuli. Recovery from this fatigue requires minutes. 1-IPSPs are not blocked by bicuculline but are blocked by baclofen.

摘要

采用体外脑片制备技术,通过细胞内记录法,研究了局部电刺激诱发大鼠额叶新皮质神经元产生的长时程抑制性突触后电位(1-IPSPs)的特征。在静息膜电位下,用阈上强度刺激可诱发典型持续时间为600-900毫秒的1-IPSPs。在1-IPSPs的峰值幅度(刺激后150-250毫秒)时,测得电导增加了15%-60%。1-IPSPs期间电导增加的持续时间表现出显著的电压依赖性,随着膜电位去极化而缩短,随着超极化而延长。细胞外钾浓度降低会显著改变1-IPSPs的反转电位。因此得出结论,大鼠新皮质神经元中的1-IPSPs是由钾电导的激活产生的。1-IPSPs表现出刺激疲劳。以1赫兹的频率刺激,在大约连续20次刺激后,1-IPSPs期间的电导增加会完全疲劳。从这种疲劳中恢复需要几分钟。1-IPSPs不被荷包牡丹碱阻断,但被巴氯芬阻断。

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