F-肌动蛋白对容积调节性氯电流的调控

Modulation of a volume-regulated chloride current by F-actin.

作者信息

Levitan I, Almonte C, Mollard P, Garber S S

机构信息

Department of Physiology, Medical College of Pennsylvania, Philadelphia 19129, USA.

出版信息

J Membr Biol. 1995 Oct;147(3):283-94. doi: 10.1007/BF00234526.

DOI:10.1007/BF00234526

PMID:8558594

Abstract

We have examined whether F-actin integrity is involved in activation of a volume-regulated Cl- current (VRChlC) in B-lymphocytes. VRChlC activation was initiated in response to establishing a whole cell recording in the presence of a hyposmotic gradient. Parallel confocal microscopy experiments using Rhodamine-Phalloidin (R-P) as a specific marker of F-actin showed that the submembrane actin ring is reversibly disrupted in response to an hyposmotic gradient. Disruptions of cortical F-actin integrity by 50 microM cytochalasin B (CB) does not trigger activation of VRChlC under isosmotic conditions or potentiate the rate of activation when the osmolarity of the extracellular solution was decreased by 75%. However, incubation with CB increased the rate of VRChlC activation in response to a 90% hyposmotic gradient. Phalloidin, a stabilizer of F-actin, decreases the rate of VRChlC activation in response to a 90% gradient, but has no effect in response to a 75% gradient. These observations suggest that disassembly of cortical F-actin is not critical for VRChlC activation in B-lymphocytes. The integrity of cortical F-actin, however, can exert a modulatory effect on the rate of VRChlC activation in the presence of a hyposmotic gradient.

摘要

我们研究了F-肌动蛋白的完整性是否参与B淋巴细胞中容积调节性氯离子电流（VRChlC）的激活。VRChlC的激活是在存在低渗梯度的情况下建立全细胞记录时启动的。使用罗丹明-鬼笔环肽（R-P）作为F-肌动蛋白的特异性标记物进行的平行共聚焦显微镜实验表明，在低渗梯度作用下，膜下肌动蛋白环会可逆性破坏。在等渗条件下，50微摩尔细胞松弛素B（CB）破坏皮质F-肌动蛋白的完整性不会触发VRChlC的激活，当细胞外溶液渗透压降低75%时，也不会增强激活速率。然而，用CB孵育会增加VRChlC在90%低渗梯度作用下的激活速率。鬼笔环肽是一种F-肌动蛋白稳定剂，它会降低VRChlC在90%梯度作用下的激活速率，但在75%梯度作用下没有影响。这些观察结果表明，皮质F-肌动蛋白的解聚对于B淋巴细胞中VRChlC的激活并不关键。然而，在存在低渗梯度的情况下，皮质F-肌动蛋白的完整性可以对VRChlC的激活速率产生调节作用。

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F-肌动蛋白对容积调节性氯电流的调控

Modulation of a volume-regulated chloride current by F-actin.

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