Randle J C, Bourque C W, Renaud L P
J Neurophysiol. 1986 Dec;56(6):1703-17. doi: 10.1152/jn.1986.56.6.1703.
Intracellular recordings from 52 supraoptic nucleus neurosecretory neurons in perfused explants of rat hypothalamus revealed abundant spontaneous inhibitory postsynaptic potentials (sIPSPs) and a compound evoked inhibitory postsynaptic potential (eIPSP) following electrical stimulation in the diagonal band of Broca (DBB). These IPSPs were characterized in terms of the magnitude and ionic specificity of the underlying current and in terms of the transmitter responsible for their activation. sIPSPs rose rapidly to peak within 3-5 ms and decayed exponentially with a mean time constant of 20.2 +/- 1.9 ms (mean +/- SE), a value 1.6-fold greater than the mean cell time constant of 13.8 +/- 1.0 ms. The eIPSPs rose rapidly to peak within 3-10 ms and decayed exponentially over 60-100 ms with a mean time constant of 37.0 +/- 2.8 ms, which is 2.6-fold greater than the mean cell time constant. These features imply a brief persistence of the conductance underlying the IPSPs. In recordings with KAcetate-filled micropipettes, sIPSPs were hyperpolarizing at membrane potentials in the range of -50 to -70 mV and reversed polarity when the membrane was hyperpolarized beyond -80 mV. The mean reversal potential (EsIPSP) was -72.4 +/- 1.1 mV. eIPSPs were hyperpolarizing at resting membrane potential and could be reversed by membrane hyperpolarization beyond a mean reversal potential (EIPSP) of -67.4 +/- 1.4 mV. In recordings with KCl-filled micropipettes, sIPSPs were depolarizing at all membrane potentials more negative than -50 mV. Under these conditions, EsIPSP was estimated at -44 mV. sIPSPs were absent when chloride ions were removed from the perfusion medium. eIPSPs were depolarizing at all membrane potentials and often evoked action potentials; mean EeIPSP was 43.2 mV. Reversal potentials of spontaneous and evoked IPSPs were similar. At a given membrane potential, sIPSP amplitudes varied widely between 1 and 20 mV. The conductance increase underlying individual sIPSPs was estimated to vary between 0.17 and 3.0 nS (avg 0.6 nS) against a mean resting input conductance of 3.78 +/- 0.41 nS. Estimates of the conductance underlying eIPSPs varied widely between cells, from 0.8 to 22.0 nS (mean 72 nS). Accordingly, the ratio of evoked to spontaneous IPSP conductance varied from 1.6 to 43.7 (mean 13.1). The reversal potential of evoked IPSPs shifted with the extracellular concentration of Cl- ions ([Cl-]0) with a mean slope of 41 mV/log [Cl-]0.(ABSTRACT TRUNCATED AT 400 WORDS)
对大鼠下丘脑灌流外植体中52个视上核神经分泌神经元进行的细胞内记录显示,在布罗卡斜角带(DBB)进行电刺激后,出现大量自发抑制性突触后电位(sIPSPs)和复合诱发抑制性突触后电位(eIPSP)。这些抑制性突触后电位通过其基础电流的大小和离子特异性以及负责其激活的递质进行表征。sIPSPs在3 - 5毫秒内迅速上升至峰值,并以指数形式衰减,平均时间常数为20.2±1.9毫秒(平均值±标准误),该值比平均细胞时间常数13.8±1.0毫秒大1.6倍。eIPSPs在3 - 10毫秒内迅速上升至峰值,并在60 - 100毫秒内以指数形式衰减,平均时间常数为37.0±2.8毫秒,是平均细胞时间常数的2.6倍。这些特征意味着抑制性突触后电位基础电导的短暂持续。在用充满醋酸钾的微电极记录时,sIPSPs在膜电位为 - 50至 - 70毫伏范围内使膜超极化,当膜超极化超过 - 80毫伏时极性反转。平均反转电位(EsIPSP)为 - 72.4±1.1毫伏。eIPSPs在静息膜电位时使膜超极化,并且在膜超极化超过平均反转电位(EIPSP) - 67.4±1.4毫伏时可被反转。在用充满氯化钾的微电极记录时,sIPSPs在所有比 - 50毫伏更负的膜电位时使膜去极化。在这些条件下,估计EsIPSP为 - 44毫伏。当从灌流介质中去除氯离子时,sIPSPs消失。eIPSPs在所有膜电位时使膜去极化,并且经常诱发动作电位;平均EeIPSP为43.2毫伏。自发和诱发抑制性突触后电位的反转电位相似。在给定的膜电位下,sIPSP幅度在1至20毫伏之间变化很大。单个sIPSPs基础电导增加估计在0.17至3.0纳西门子(平均0.6纳西门子)之间变化,相对于平均静息输入电导3.78±0.41纳西门子。eIPSPs基础电导估计在不同细胞之间变化很大,从0.8至22.0纳西门子(平均72纳西门子)。因此,诱发与自发抑制性突触后电位电导的比率在1.6至43.7之间变化(平均13.1)。诱发抑制性突触后电位的反转电位随细胞外氯离子浓度([Cl - ]0)而变化,平均斜率为41毫伏/对数[Cl - ]0。(摘要截短于400字)
