大鼠海马神经元中氯离子通道的阴离子和阳离子通透性

Anion and cation permeability of a chloride channel in rat hippocampal neurons.

作者信息

Franciolini F, Nonner W

机构信息

Department of Physiology and Biophysics, University of Miami, Florida 33101.

出版信息

J Gen Physiol. 1987 Oct;90(4):453-78. doi: 10.1085/jgp.90.4.453.

DOI:10.1085/jgp.90.4.453

PMID:2445901

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2228868/

Abstract

The ionic permeability of a voltage-dependent Cl channel of rat hippocampal neurons was studied with the patch-clamp method. The unitary conductance of this channel was approximately 30 pS in symmetrical 150 mM NaCl saline. Reversal potentials interpreted in terms of the Goldman-Hodgkin-Katz voltage equation indicate a Cl:Na permeability ratio of approximately 5:1 for conditions where there is a salt gradient. Many anions are permeant; permeability generally follows a lyotropic sequence. Permeant cations include Li, Na, K, and Cs. The unitary conductance does not saturate for NaCl concentrations up to 1 M. No Na current is observed when the anion Cl is replaced by the impermeant anion SO4. Unitary conductance depends on the cation species present. The channel is reversibly blocked by extracellular Zn or 9-anthracene carboxylic acid. Physiological concentrations of Ca or Mg do not affect the Na:Cl permeability ratio. The permeability properties of the channel are consistent with a permeation mechanism that involves an activated complex of an anionic site, an extrinsic cation, and an extrinsic anion.

摘要

采用膜片钳技术研究了大鼠海马神经元电压依赖性氯离子通道的离子通透性。在对称的150 mM NaCl盐溶液中，该通道的单通道电导约为30 pS。根据戈德曼-霍奇金- Katz电压方程解释的反转电位表明，在存在盐梯度的情况下，Cl:Na通透性比率约为5:1。许多阴离子是可通透的；通透性通常遵循感胶离子序。可通透阳离子包括Li、Na、K和Cs。对于高达1 M的NaCl浓度，单通道电导不饱和。当阴离子Cl被不可通透的阴离子SO4取代时，未观察到钠电流。单通道电导取决于存在的阳离子种类。该通道被细胞外Zn或9-蒽甲酸可逆性阻断。生理浓度的Ca或Mg不影响Na:Cl通透性比率。该通道的通透性特性与一种涉及阴离子位点、外在阳离子和外在阴离子活化复合物的通透机制一致。

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