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Expression and function of the epithelial sodium channel δ-subunit in human respiratory epithelial cells in vitro.

Pflugers Archiv : European journal of physiology (2015-02-14)
Elena Schwagerus, Svenja Sladek, Stephen T Buckley, Natalia Armas-Capote, Diego Alvarez de la Rosa, Brian J Harvey, Horst Fischer, Beate Illek, Hanno Huwer, Nicole Schneider-Daum, Claus-Michael Lehr, Carsten Ehrhardt
RESUMEN

Using human airway epithelial cell lines (i.e. NCI-H441 and Calu-3) as well as human alveolar epithelial type I-like (ATI) cells in primary culture, we studied the contribution of the epithelial sodium channel δ-subunit (δ-ENaC) to transepithelial sodium transport in human lung in vitro. Endogenous δ-ENaC protein was present in all three cell types tested; however, protein abundance was low, and no expression was detected in the apical cell membrane of these cells. Similarly, known modulators of δ-ENaC activity, such as capsazepine and icilin (activators) and Evans blue (inhibitor), did not show effects on short-circuit current (I SC), suggesting that δ-ENaC is not involved in the modulation of transcellular sodium absorption in NCI-H441 cell monolayers. Over-expression of δ-ENaC in NCI-H441 cells resulted in detectable protein expression in the apical cell membrane, as well as capsazepine and icilin-stimulated increases in I SC that were effectively blocked by Evans blue and that were consistent with δ-ENaC activation and inhibition, respectively. Consequently, these observations suggest that δ-ENaC expression is low in NCI-H441, Calu-3, and ATI cells and does not contribute to transepithelial sodium absorption.

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Glycoprofile II, Enzymatic In-Solution N-Deglycosylation Kit, sufficient for 20 samples