培养的纹状体神经元中的腺苷激活钾电导

Adenosine-activated potassium conductance in cultured striatal neurons.

作者信息

Trussell L O, Jackson M B

出版信息

Proc Natl Acad Sci U S A. 1985 Jul;82(14):4857-61. doi: 10.1073/pnas.82.14.4857.

DOI:10.1073/pnas.82.14.4857

PMID:2991897

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC391004/

Abstract

We have examined the effect of adenosine on the membrane properties of cultured embryonic mouse striatal neurons using patch electrode techniques. Adenosine at 50 microM effectively blocked spontaneous action potential activity. Adenosine or 2-chloroadenosine caused a slow hyperpolarization of the membrane potential and, under voltage clamp, an outward current that was blocked by 1 mM theophylline. ATP also caused a hyperpolarization that was slower and weaker than the adenosine response and could be blocked by 1 mM theophylline. The current induced by adenosine appears to be carried by potassium since (i) an inward current was generated by adenosine when the cells were internally perfused with cesium salts and (ii) the reversal potential of the outward current shifted 57 mV with a 10-fold change in extracellular potassium concentration. The adenosine response is voltage dependent in that the current evoked by adenosine is reduced at holding potentials more positive than -55 mV, despite a larger driving force. Though calcium influx is not required for adenosine to activate the potassium conductance, some components of the cytosol may be essential, since the response is lost during intracellular perfusion.

摘要

我们使用膜片电极技术研究了腺苷对培养的胚胎小鼠纹状体神经元膜特性的影响。50微摩尔的腺苷有效地阻断了自发动作电位活动。腺苷或2-氯腺苷引起膜电位缓慢超极化，在电压钳制下，产生一种外向电流，该电流可被1毫摩尔的茶碱阻断。ATP也引起超极化，但比腺苷反应更缓慢、更弱，且可被1毫摩尔的茶碱阻断。腺苷诱导的电流似乎由钾携带，因为（i）当细胞内灌注铯盐时，腺苷产生内向电流；（ii）随着细胞外钾浓度10倍的变化，外向电流的反转电位移动了57毫伏。腺苷反应是电压依赖性的，即尽管驱动力更大，但在比-55毫伏更正的钳制电位下，腺苷诱发的电流会减小。虽然腺苷激活钾电导不需要钙内流，但细胞溶质的某些成分可能是必需的，因为在细胞内灌注期间反应消失。

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