ClC-2 Activation Modulates Regulatory Volume Decrease

被引：0

作者：

H. Xiong

C. Li

E. Garami

Y. Wang

M. Ramjeesingh

K. Galley

C.E. Bear

机构：

[1] Division of Cell Biology,

[2] Research Institute,undefined

[3] Hospital for Sick Children,undefined

[4] Toronto,undefined

[5] Ontario,undefined

[6] Canada M5G 1X8,undefined

[7] Department of Physiology,undefined

[8] University of Toronto,undefined

[9] 1 King's College Circle,undefined

[10] Toronto,undefined

[11] Canada,undefined

来源：

The Journal of Membrane Biology | 1999年 / 167卷

关键词：

Key words: ClC-2 — Chloride channels — Patch-clamp electrophysiology — Baculovirus expression — Anti-ClC-2 antibody — Regulatory volume decrease;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

ClC-2 belongs to a large family of chloride channels and its expression in certain cell types is associated with the appearance of swelling-activated chloride (Cl−) currents. In the present report, we examined the hypothesis that ClC-2 plays a role in regulatory volume decrease by expressing ClC-2 in Sf9 cells using the baculovirus system. First, we showed that ClC-2 protein expression is associated with appearance of a Cl− conductance which is activated by hypo-osmotic shock and can be distinguished from swelling-activated chloride currents endogenous to Sf9 cells on the basis of its pharmacology and specific inhibition by an anti-ClC-2 antibody. Second, we show that the rate of regulatory volume decrease is significantly enhanced in Sf9 cells expressing ClC-2 protein. Hence, our data support the hypothesis that ClC-2 is capable of mediating regulatory volume decrease.

引用

页码：215 / 221

页数：6

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