Inhibition of amiloride-sensitive sodium-channel activity in distal lung epithelial cells by nitric oxide

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Inhibition of amiloride-sensitive sodium-channel activity in distal lung epithelial cells by nitric oxide

Jin Wen Ding¹, John Dickie¹, Hugh O'Brodovich², Yutaka Shintani², Bijan Rafii², David Hackam¹, Yoshinori Marunaka², and Ori D. Rotstein¹

¹ Department of Surgery and Medical Research Council of Canada Group in Mechanisms of Organ Injury, Toronto Hospital, University of Toronto, and Toronto Hospital Research Institute, Toronto M5G 2C4; and ² Medical Research Council of Canada Group in Lung Development and Department of Pediatrics (Respiratory Research), University of Toronto and The Hospital for Sick Children, Toronto, Ontario, Canada M5G 1X8

Distal lung epithelial cells (DLECs) play an active role in fluid clearance from the alveolus by virtue of their ability toactively transport Na⁺ from the alveolus to the interstitial space. The present studyevaluated the ability of activated macrophages to modulate thebioelectric properties of DLECs. Low numbers of lipopolysaccharide(LPS)-treated macrophages were able to significantly reduce amiloride-sensitiveshort-circuit current (I_sc) without affecting total I_sc or monolayerresistance. This was associated with a rise in the flufenamicacid-sensitive component of the I_sc. The effect was reversed bythe addition of N-monomethyl-L-arginine to the medium, implyinga role for nitric oxide. We hypothesized that macrophages exertedtheir effect by expressing inducible nitric oxide synthase (iNOS)in DLECs. The products of LPS-treated macrophages increased thelevels of iNOS protein and mRNA transcripts in DLECs as well ascausing a rise in iNOS activity. Immunofluorescence microscopyof LPS-stimulated macrophage-DLEC cocultures with anti-nitrotyrosineantibodies provided evidence for the generation of peroxynitritein macrophages but not in DLECs. These data indicate that activatedmacrophages in the lung may contribute to impaired resolutionof acute respiratory distress syndrome and suggest a novel mechanismwhereby nitric oxide might alter cell function by altering itsion-transporting phenotype.

distal lung epithelium; macrophages; lung injury

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				B. Kamosinska, A. Radomski, S. F. P. Man, M. W. Radomski, and M. Duszyk Role of Inducible Nitric-Oxide Synthase in Regulation of Whole-Cell Current in Lung Epithelial Cells J. Pharmacol. Exp. Ther., November 1, 2000; 295(2): 500 - 505. [Abstract] [Full Text]

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