NCI-H441肺上皮细胞中对氨氯地平敏感的液体重吸收取决于顶端Cl(-) 电导。

Amiloride-sensitive fluid resorption in NCI-H441 lung epithelia depends on an apical Cl(-) conductance.

作者信息

Korbmacher Jonas P, Michel Christiane, Neubauer Daniel, Thompson Kristin, Mizaikoff Boris, Frick Manfred, Dietl Paul, Wittekindt Oliver H

机构信息

Institute of General Physiology, Ulm University, Albert-Einstein-Allee 11, Ulm, 89081, Germany.

Institute of Analytical and Bioanalytical Chemistry, Ulm University, Albert-Einstein-Allee 11, Ulm, 89081, Germany.

出版信息

Physiol Rep. 2014 Jan 16;2(1):e00201. doi: 10.1002/phy2.201. eCollection 2014 Jan 1.

DOI:10.1002/phy2.201

PMID:24744880

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3967684/

Abstract

Proper apical airway surface hydration is essential to maintain lung function. This hydration depends on well-balanced water resorption and secretion. The mechanisms involved in resorption are still a matter of debate, especially as the measurement of transepithelial water transport remains challenging. In this study, we combined classical short circuit current (I SC) measurements with a novel D2O dilution method to correlate ion and water transport in order to reveal basic transport mechanisms in lung epithelia. D2O dilution method enabled precise analysis of water resorption with an unprecedented resolution. NCI-H441 cells cultured at an air-liquid interface resorbed water at a rate of 1.5 ± 0.4 μL/(h cm(2)). Water resorption and I SC were reduced by almost 80% in the presence of the bulk Cl(-) channel inhibitor 5-nitro-2-(3-phenylpropylamino)benzoic acid (NPPB) or amiloride, a specific inhibitor of epithelial sodium channel (ENaC). However, water resorption and I SC were only moderately affected by forskolin or cystic fibrosis transmembrane regulator (CFTR) channel inhibitors (CFTRinh-172 and glybenclamide). In line with previous studies, we demonstrate that water resorption depends on ENaC, and CFTR channels have only a minor but probably modulating effect on water resorption. However, the major ENaC-mediated water resorption depends on an apical non-CFTR Cl(-) conductance.

摘要

适当的气道顶端表面水合作用对于维持肺功能至关重要。这种水合作用取决于水的吸收和分泌达到良好平衡。吸收过程所涉及的机制仍存在争议，尤其是因为跨上皮水转运的测量仍然具有挑战性。在本研究中，我们将经典的短路电流（I SC）测量与一种新的重水（D2O）稀释方法相结合，以关联离子和水的转运，从而揭示肺上皮细胞的基本转运机制。D2O稀释方法能够以前所未有的分辨率精确分析水的吸收。在气液界面培养的NCI-H441细胞以1.5±0.4 μL/（h·cm²）的速率吸收水。在存在大量Cl⁻通道抑制剂5-硝基-2-（3-苯基丙基氨基）苯甲酸（NPPB）或上皮钠通道（ENaC）的特异性抑制剂阿米洛利的情况下，水的吸收和I SC降低了近80%。然而，水的吸收和I SC仅受到福斯可林或囊性纤维化跨膜调节因子（CFTR）通道抑制剂（CFTRinh-172和格列本脲）的中度影响。与先前的研究一致，我们证明水的吸收依赖于ENaC，并且CFTR通道对水的吸收仅有轻微但可能起调节作用。然而，主要的ENaC介导的水吸收依赖于顶端非CFTR Cl⁻电导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7432/3967684/79fbec6356a2/phy2-2-e00201-g1.jpg

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NCI-H441肺上皮细胞中对氨氯地平敏感的液体重吸收取决于顶端Cl(-) 电导。

Amiloride-sensitive fluid resorption in NCI-H441 lung epithelia depends on an apical Cl(-) conductance.

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