Bourque C W, Randle J C, Renaud L P
J Neurophysiol. 1985 Dec;54(6):1375-82. doi: 10.1152/jn.1985.54.6.1375.
Intracellular recordings of rat supraoptic nucleus neurons were obtained from perfused hypothalamic explants. Individual action potentials were followed by hyperpolarizing afterpotentials (HAPs) having a mean amplitude of -7.4 +/- 0.8 mV (SD). The decay of the HAP was approximated by a single exponential function having a mean time constant of 17.5 +/- 6.1 ms. This considerably exceeded the cell time constant of the same neurons (9.5 +/- 0.8 ms), thus indicating that the ionic conductance underlying the HAP persisted briefly after each spike. The HAP had a reversal potential of -85 mV and was unaffected by intracellular Cl- ionophoresis of during exposure to elevated extracellular concentrations of Mg2+. In contrast, the peak amplitude of the HAP was proportional to the extracellular Ca2+ concentration and could be reversibly eliminated by replacing Ca2+ with Co2+, Mn2+, or EGTA in the perfusion fluid. During depolarizing current pulses, evoked action potential trains demonstrated a progressive increase in interspike intervals associated with a potentiation of successive HAPs. This spike frequency adaptation was reversibly abolished by replacing Ca2+ with Co2+, Mn2+, or EGTA. Bursts of action potentials were followed by a more prolonged afterhyperpolarization (AHP) whose magnitude was proportional to the number of impulses elicited (greater than 20 Hz) during a burst. Current injection revealed that the AHP was associated with a 20-60% decrease in input resistance and showed little voltage dependence in the range of -70 to -120 mV. The reversal potential of the AHP shifted with the extracellular concentration of K+ [( K+]o) with a mean slope of -50 mV/log[K+]o.(ABSTRACT TRUNCATED AT 250 WORDS)
从灌注的下丘脑外植体中获得大鼠视上核神经元的细胞内记录。单个动作电位之后是超极化后电位(HAPs),其平均幅度为-7.4±0.8 mV(标准差)。HAP的衰减可用单个指数函数近似,其平均时间常数为17.5±6.1 ms。这大大超过了相同神经元的细胞时间常数(9.5±0.8 ms),因此表明HAP背后的离子电导在每个峰电位后短暂持续。HAP的反转电位为-85 mV,在细胞内注入Cl-离子或暴露于细胞外高浓度Mg2+期间不受影响。相反,HAP的峰值幅度与细胞外Ca2+浓度成正比,并且通过在灌注液中用Co2+、Mn2+或EGTA替代Ca2+可被可逆地消除。在去极化电流脉冲期间,诱发的动作电位序列显示出峰电位间隔逐渐增加,与连续HAP的增强相关。这种峰频率适应通过用Co2+、Mn2+或EGTA替代Ca2+而被可逆地消除。动作电位爆发后是更持久的超极化后电位(AHP),其幅度与爆发期间诱发的冲动数量(大于20 Hz)成正比。电流注入显示,AHP与输入电阻降低20%-60%相关,并且在-70至-120 mV范围内几乎没有电压依赖性。AHP的反转电位随细胞外K+浓度[K+]o而变化,平均斜率为-50 mV/log[K+]o。(摘要截断于250字)
