小鼠肾单位原代培养物中CFTR依赖性和非依赖性肿胀激活的钾电流

CFTR-dependent and -independent swelling-activated K+ currents in primary cultures of mouse nephron.

作者信息

Belfodil Radia, Barrière Hervé, Rubera Isabelle, Tauc Michel, Poujeol Chantal, Bidet Michel, Poujeol Philippe

机构信息

Unité Mixte de Recherche Centre National de la Recherche Scientifique 6548 Université de Nice-Sophia Antipolis, O6108 Nice Cedex 2, France.

出版信息

Am J Physiol Renal Physiol. 2003 Apr;284(4):F812-28. doi: 10.1152/ajprenal.00238.2002. Epub 2002 Dec 10.

DOI:10.1152/ajprenal.00238.2002

PMID:12475745

Abstract

The role of CFTR in the control of K(+) currents was studied in mouse kidney. Whole cell clamp was used to identify K(+) currents on the basis of pharmacological sensitivities in primary cultures of proximal (PCT) and distal convoluted tubule (DCT) and cortical collecting tubule (CCT) from wild-type (WT) and CFTR knockout (KO) mice. In DCT and CCT cells, forskolin activated a 293B-sensitive K(+) current in WT, but not in KO, mice. In these cells, a hypotonic shock induced K(+) currents blocked by charybdotoxin in WT, but not in KO, mice. In PCT cells from WT and KO mice, the hypotonicity-induced K(+) currents were insensitive to these toxins and were activated at extracellular pH 8.0 and inhibited at pH 6.0, suggesting that the corresponding channel was TASK2. In conclusion, CFTR is implicated in the control of KCNQ1 and Ca(2+)-sensitive swelling-activated K(+) conductances in DCT and CCT, but not in proximal convoluted tubule, cells. In KO mice, impairment of the regulatory volume decrease process in DCT and CCT could be due to the loss of an autocrine mechanism, implicating ATP and adenosine, which controls swelling-activated Cl(-) and K(+) channels.

摘要

在小鼠肾脏中研究了囊性纤维化跨膜传导调节因子（CFTR）在控制钾离子电流方面的作用。采用全细胞膜片钳技术，根据野生型（WT）和CFTR基因敲除（KO）小鼠近端小管（PCT）、远端小管（DCT）和皮质集合管（CCT）原代培养细胞的药理学敏感性来鉴定钾离子电流。在DCT和CCT细胞中，福斯可林在WT小鼠中激活了一种对293B敏感的钾离子电流，而在KO小鼠中未激活。在这些细胞中，低渗休克在WT小鼠中诱导出被蝎毒素阻断的钾离子电流，而在KO小鼠中则未诱导出。在WT和KO小鼠的PCT细胞中，低渗诱导的钾离子电流对这些毒素不敏感，在细胞外pH 8.0时被激活，在pH 6.0时被抑制，这表明相应的通道是TASK2。总之，CFTR参与了DCT和CCT中KCNQ1和钙敏感的肿胀激活钾离子电导的控制，但在近端小管细胞中未参与。在KO小鼠中，DCT和CCT中调节性容积减小过程的受损可能是由于自分泌机制的丧失，这涉及到控制肿胀激活的氯离子和钾离子通道的三磷酸腺苷（ATP）和腺苷。

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小鼠肾单位原代培养物中CFTR依赖性和非依赖性肿胀激活的钾电流

CFTR-dependent and -independent swelling-activated K+ currents in primary cultures of mouse nephron.

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