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上皮钠通道抑制可刺激小鼠皮质集合管中的盐酸分泌。I. 芪敏感的氯分泌。

ENaC inhibition stimulates HCl secretion in the mouse cortical collecting duct. I. Stilbene-sensitive Cl- secretion.

作者信息

Nanami Masayoshi, Lazo-Fernandez Yoskaly, Pech Vladimir, Verlander Jill W, Agazatian Diana, Weinstein Alan M, Bao Hui-Fang, Eaton Douglas C, Wall Susan M

机构信息

Department of Medicine, Emory University School of Medicine, Atlanta, Georgia;

Department of Medicine, The University of Florida, Gainesville, Florida.

出版信息

Am J Physiol Renal Physiol. 2015 Aug 1;309(3):F251-8. doi: 10.1152/ajprenal.00471.2013. Epub 2015 Apr 29.

DOI:10.1152/ajprenal.00471.2013
PMID:25925258
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4525096/
Abstract

Inhibition of the epithelial Na(+) channel (ENaC) reduces Cl(-) absorption in cortical collecting ducts (CCDs) from aldosterone-treated rats and mice. Since ENaC does not transport Cl(-), the purpose of the present study was to explore how ENaC modulates Cl(-) absorption in mouse CCDs perfused in vitro. Therefore, we measured transepithelial Cl(-) flux and transepithelial voltage in CCDs perfused in vitro taken from mice that consumed a NaCl-replete diet alone or the diet with aldosterone administered by minipump. We observed that application of an ENaC inhibitor [benzamil (3 μM)] to the luminal fluid unmasks conductive Cl(-) secretion. During ENaC blockade, this Cl(-) secretion fell with the application of a nonselective Cl(-) channel blocker [DIDS (100 μM)] to the perfusate. While single channel recordings of intercalated cell apical membranes in split-open CCDs demonstrated a Cl(-) channel with properties that resemble the ClC family of Cl(-) channels, ClC-5 is not the primary pathway for benzamil-sensitive Cl(-) flux. In conclusion, first, in CCDs from aldosterone-treated mice, most Cl(-) absorption is benzamil sensitive, and, second, benzamil application stimulates stilbene-sensitive conductive Cl(-) secretion, which occurs through a ClC-5-independent pathway.

摘要

抑制上皮性钠离子通道(ENaC)可减少醛固酮处理的大鼠和小鼠皮质集合管(CCD)中的氯离子吸收。由于ENaC不转运氯离子,本研究的目的是探讨ENaC如何调节体外灌注的小鼠CCD中的氯离子吸收。因此,我们测量了从单独食用高钠饮食或通过微型泵给予醛固酮饮食的小鼠获取的体外灌注CCD中的跨上皮氯离子通量和跨上皮电压。我们观察到,向管腔液中应用ENaC抑制剂[苄amil(3μM)]可揭示传导性氯离子分泌。在ENaC阻断期间,这种氯离子分泌在向灌注液中应用非选择性氯离子通道阻滞剂[二异硫氰酸二苯乙烯(DIDS,100μM)]后下降。虽然在劈开的CCD中对闰细胞顶端膜进行的单通道记录显示了一种氯离子通道,其特性类似于氯离子通道的ClC家族,但ClC-5不是苄amil敏感的氯离子通量的主要途径。总之,首先,在醛固酮处理的小鼠的CCD中,大多数氯离子吸收对苄amil敏感,其次,应用苄amil可刺激对二苯乙烯敏感的传导性氯离子分泌,这通过一条不依赖ClC-5的途径发生。

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ENaC activity is increased in isolated, split-open cortical collecting ducts from protein kinase Cα knockout mice.ENaC 活性在分离的、劈开的皮质集合管中增加来自蛋白激酶 Cα 敲除小鼠。
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Nitric oxide reduces Cl⁻ absorption in the mouse cortical collecting duct through an ENaC-dependent mechanism.一氧化氮通过一种 ENaC 依赖的机制减少小鼠皮质集合管中的 Cl⁻吸收。
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Am J Physiol Renal Physiol. 2012 Jul 1;303(1):F45-55. doi: 10.1152/ajprenal.00030.2012. Epub 2012 Apr 11.
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