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海兔单个神经元中由γ-氨基丁酸(GABA)和L-谷氨酸门控的氯离子电导的电压钳特性分析

Voltage-clamp characterization of Cl- conductance gated by GABA and L-glutamate in single neurons of Aplysia.

作者信息

King W M, Carpenter D O

机构信息

Wadsworth Center for Laboratories and Research, New York State Department of Health, Albany.

出版信息

J Neurophysiol. 1989 May;61(5):892-9. doi: 10.1152/jn.1989.61.5.892.

DOI:10.1152/jn.1989.61.5.892
PMID:2470868
Abstract
  1. Cl- conductance gated by gamma-aminobutyric acid (GABA) and L-glutamate in the medial pleural neurons of Aplysia was studied using conventional two-electrode voltage-clamp techniques and a continuous microperfusion system that allowed rapid and uniform agonist application. 2. Both GABA and glutamate elicited current responses that rapidly activated and then decayed (desensitized) during maintained presence of agonist. 3. Recovery from desensitization was rapid for both agonists. For intermediate concentrations of each agonist, recovery was approximately 90% complete within 1 min. 4. Dose-response experiments at a holding potential of -45 mV showed that 1) maximal peak responses to glutamate were on the average approximately 40% of those to GABA, 2) the dose-peak response curve for glutamate was steeper than that for GABA, and 3) time-to-peak (risetime) and desensitization half-time decreased monotonically with dose for GABA but were relatively insensitive to dose and more variable for glutamate. 5. Peak conductances elicited by GABA were voltage dependent, increasing with depolarization, whereas the Cl- conductance elicited by glutamate was voltage independent. Risetime and desensitization kinetics were insensitive to voltage for both agonists. 6. Lowering the temperature of the perfusion medium by 10 degrees C slowed activation and desensitization for both 0.1 mM GABA and 2 mM glutamate. The responses to the two agonists differed, however, in that the peak response to glutamate increased, whereas that to GABA decreased in amplitude.(ABSTRACT TRUNCATED AT 250 WORDS)
摘要
  1. 运用传统的双电极电压钳技术和连续微灌流系统研究了海兔内侧胸膜神经元中由γ-氨基丁酸(GABA)和L-谷氨酸门控的氯离子电导,该系统能够快速且均匀地施加激动剂。2. GABA和谷氨酸均引发电流反应,在激动剂持续存在期间,该反应迅速激活然后衰减(脱敏)。3. 两种激动剂脱敏后的恢复都很快。对于每种激动剂的中间浓度,在1分钟内恢复约90%。4. 在-45 mV的钳制电位下进行的剂量反应实验表明:1)谷氨酸的最大峰值反应平均约为GABA的40%;2)谷氨酸的剂量-峰值反应曲线比GABA的更陡峭;3)GABA的峰值时间(上升时间)和脱敏半衰期随剂量单调下降,而谷氨酸对剂量相对不敏感且变化更大。5. GABA引发的峰值电导依赖于电压,随去极化增加,而谷氨酸引发的氯离子电导不依赖于电压。两种激动剂的上升时间和脱敏动力学对电压均不敏感。6. 将灌流介质温度降低10摄氏度会减缓0.1 mM GABA和2 mM谷氨酸的激活和脱敏。然而,对两种激动剂的反应有所不同,谷氨酸的峰值反应增加,而GABA的峰值反应幅度减小。(摘要截断于250字)

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