细胞外阳离子浓度和代谢抑制剂对人神经胶质细胞膜电位的影响。

Effect of external cation concentration and metabolic inhibitors on membrane potential of human glial cells.

作者信息

Brismar T, Collins V P

机构信息

Department of Clinical Neurophysiology, Karolinska Hospital, Stockholm, Sweden.

出版信息

J Physiol. 1993 Jan;460:365-83. doi: 10.1113/jphysiol.1993.sp019476.

DOI:10.1113/jphysiol.1993.sp019476

PMID:8487200

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1175218/

Abstract

The effect on membrane potential (Em) of low external [K+]o, [Na+]o and [Ca2+]o and of metabolic inhibitors was studied in cultured human glial cells (U-787CG) and human glioma cells (Tp-483MG and U-251MG). Whole cells were voltage or current clamped with the tight-seal recording technique. 2. Em was -76 and -80 mV in glial and glioma cells (mean values in U-787CG and U-251MG, respectively) in a reference external solution with 3.0 mM K+. K(+)-free external solution caused a rapid and reversible depolarization of these cells by about 26 and 42 mV (respectively). 3. Block of K+ channels with 1 mM Ba2+ in external solution rapidly depolarized the cells (U-251MG) by about 35 mV. 4. Na(+)-free solutions caused a delayed depolarization by 40-50 mV, which was slowly reversible (in 2 min). 5. Ouabain (1 mM) depolarized the cells by about 4 mV. It did not prevent the effect of K(+)-free solution. 6. Ca(2+)-free external solution rapidly depolarized the cells to Em about -17 mV. The combination of either Na(+)-K(+)-free or Na(+)-Ca(2+)-free solution transiently repolarized the cell, which indicated that the K+ selectivity of the membrane was decreased in both K(+)- and Ca(2+)-free solutions. 7. Metabolic inhibitors (carbonyl cyanide p-trifluoromethoxy-phenylhydrazone (FCCP) and 2,4-dinitrophenol (DNP)) rapidly and reversibly depolarized the cells. This effect was not prevented by intracellular perfusion of a strong Ca(2+)-buffering solution. 8. Voltage clamp revealed only minor changes (< 20%) in the leak conductance (g) of cells that were depolarized by the above-mentioned solutions. 9. Positive polarizing current elicited (in some cells) a regenerative depolarization. The threshold for depolarization was less in low external [K+]o. 10. It is concluded (a) that the resting potential of these glial cells depends on ion channels that are K+ selective only in the presence of external Ca2+ and K+ and (b) that this K+ selectivity may require that Em is near the reversal potential for potassium (EK), and (c) that the action of metabolic inhibitors (DNP and FCCP) is different from that in neurones.

摘要

研究了低细胞外[K⁺]ₒ、[Na⁺]ₒ和[Ca²⁺]ₒ以及代谢抑制剂对培养的人神经胶质细胞（U - 787CG）和人胶质瘤细胞（Tp - 483MG和U - 251MG）膜电位（Em）的影响。采用紧密封接记录技术对全细胞进行电压钳制或电流钳制。2. 在含有3.0 mM K⁺的参照细胞外溶液中，神经胶质细胞和胶质瘤细胞的Em分别为 - 76 mV和 - 80 mV（分别为U - 787CG和U - 251MG中的平均值）。无K⁺的细胞外溶液使这些细胞迅速且可逆地去极化约26 mV和42 mV（分别）。3. 细胞外溶液中1 mM Ba²⁺阻断K⁺通道使细胞（U - 251MG）迅速去极化约35 mV。4. 无Na⁺溶液引起延迟去极化40 - 50 mV，且缓慢可逆（2分钟内）。5. 哇巴因（1 mM）使细胞去极化约4 mV。它并未阻止无K⁺溶液的作用。6. 无Ca²⁺的细胞外溶液使细胞迅速去极化至Em约 - 17 mV。无Na⁺ - K⁺或无Na⁺ - Ca²⁺溶液的组合使细胞短暂复极化，这表明在无K⁺和无Ca²⁺溶液中膜的K⁺选择性均降低。7. 代谢抑制剂（羰基氰化物对三氟甲氧基苯腙（FCCP）和2,4 - 二硝基苯酚（DNP））使细胞迅速且可逆地去极化。细胞内灌注强Ca²⁺缓冲溶液并不能阻止这种作用。8. 电压钳显示，上述溶液使细胞去极化时，其漏电导（g）仅有微小变化（< 20%）。9. 正向极化电流（在一些细胞中）引发再生性去极化。在低细胞外[K⁺]ₒ时去极化阈值较低。10. 得出以下结论：（a）这些神经胶质细胞的静息电位取决于仅在存在细胞外Ca²⁺和K⁺时具有K⁺选择性的离子通道；（b）这种K⁺选择性可能要求Em接近钾的反转电位（EK）；（c）代谢抑制剂（DNP和FCCP）的作用与在神经元中的作用不同。

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