细胞外碳酸氢盐变化对体外培养大鼠CA1锥体神经元电生理特性的影响
Electrophysiological properties of rat CA1 pyramidal neurones in vitro modified by changes in extracellular bicarbonate.
作者信息
Church J, McLennan H
机构信息
Department of Physiology, University of British Columbia, Vancouver, Canada.
出版信息
J Physiol. 1989 Aug;415:85-108. doi: 10.1113/jphysiol.1989.sp017713.
Abstract
- Intracellular recordings were made from the somata of CA1b hippocampal pyramidal neurones in vitro and the concentration of bicarbonate ion ([HCO3-]o) in the artificial cerebrospinal fluid (ACSF) was varied by substitution for Cl-. 2. Reducing [HCO3-]o from 26 mM (standard ACSF) to 8.6 mM or raising it to 72 mM had only minor effects on resting membrane potential but input resistance was reduced and increased, respectively. Threshold for Na(+)-dependent action potential generation was raised during the perfusion with low-HCO3- ACSF and lowered during perfusion with high-HCO3- ACSF. In tetrodotoxin-poisoned neurones where presumed Ca2(+)-dependent potentials could be elicited in standard ACSF, perfusion with high-HCO3- ACSF lowered the activation threshold. Where no Ca2(+)-dependent spikes could be elicited in standard ACSF, perfusion with high-HCO3- ACSF caused their appearance. Ca2(+)-dependent spikes could not be evoked during perfusion with low-HCO3- ACSF. 3. Depolarizing current pulses evoked two basic patterns of action potential discharge under standard [HCO3-]o conditions. Conversion between the two types was possible by varying [HCO3-]o. In those neurones which fired a train of fast Na(+)-dependent spikes in standard ACSF, perfusion with high-HCO3- ACSF usually led to the development of burst discharges. A smaller number of neurones responded to depolarizing current with an initial burst of three to six action potentials; the bursts were attenuated in low-HCO3- ACSF and replaced by a repetitive spike discharge. Frequency accommodation of spike discharge in response to depolarizing current pulses and the after-hyperpolarization following a current-evoked discharge were usually both attenuated in low-HCO3- ACSF and enhanced in high-HCO3- ACSF. 4. Orthodromically evoked excitatory postsynaptic potentials (EPSPs) and early and late inhibitory postsynaptic potentials (IPSPs) were reduced in amplitude during perfusion with low-HCO3- ACSF. In high-HCO3- ACSF, EPSP amplitude and duration increased, the latter reflecting a positive shift in the reversal potential of the early IPSP consequent upon reduced [Cl-] in high-HCO3- ACSF. The late IPSP was, however, unaffected. 5. Responses to ionophoretically applied excitatory amino acids were enhanced in high-HCO3- ACSF and depressed in low-HCO3- ACSF. 6. Perfusion with high-HCO3- ACSF was associated with the development of epileptiform activity. Spontaneous or synaptically evoked bursts of action potentials were indistinguishable and could be blocked by N-methyl-D-aspartate antagonists.(ABSTRACT TRUNCATED AT 400 WORDS)
摘要
- 在体外对CA1b海马锥体神经元的胞体进行细胞内记录,并通过用Cl-替代来改变人工脑脊液(ACSF)中碳酸氢根离子([HCO3-]o)的浓度。2. 将[HCO3-]o从26 mM(标准ACSF)降至8.6 mM或升至72 mM对静息膜电位影响较小,但输入电阻分别降低和增加。在用低HCO3-ACSF灌注期间,Na(+)-依赖性动作电位产生的阈值升高,而在用高HCO3-ACSF灌注期间则降低。在标准ACSF中可诱发推测的Ca2(+)-依赖性电位的河豚毒素中毒神经元中,用高HCO3-ACSF灌注会降低激活阈值。在标准ACSF中无法诱发Ca2(+)-依赖性尖峰的情况下,用高HCO3-ACSF灌注会使其出现。在用低HCO3-ACSF灌注期间无法诱发Ca2(+)-依赖性尖峰。3. 在标准[HCO3-]o条件下,去极化电流脉冲诱发了两种基本的动作电位发放模式。通过改变[HCO3-]o可以在两种类型之间转换。在标准ACSF中发放一串快速Na(+)-依赖性尖峰的那些神经元中,用高HCO3-ACSF灌注通常会导致爆发性发放的出现。少数神经元对去极化电流的反应是最初有三到六个动作电位的爆发;这些爆发在低HCO3-ACSF中减弱,并被重复的尖峰发放所取代。对去极化电流脉冲的尖峰发放频率适应以及电流诱发发放后的超极化后电位通常在低HCO3-ACSF中都减弱,而在高HCO3-ACSF中增强。4. 在用低HCO3-ACSF灌注期间,顺向诱发的兴奋性突触后电位(EPSP)以及早期和晚期抑制性突触后电位(IPSP)的幅度降低。在高HCO3-ACSF中,EPSP幅度和持续时间增加,后者反映了由于高HCO3-ACSF中[Cl-]降低导致早期IPSP反转电位的正向偏移。然而,晚期IPSP不受影响。5. 对离子电泳施加的兴奋性氨基酸的反应在高HCO3-ACSF中增强,在低HCO3-ACSF中减弱。6. 用高HCO3-ACSF灌注与癫痫样活动的出现有关。自发或突触诱发的动作电位爆发无法区分,并且可被N-甲基-D-天冬氨酸拮抗剂阻断。(摘要截于400字)
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