Abstract

There is considerable interest in identifying the basic mechanisms by which dexamethasone alters ion transport across the adult alveolar epithelium. Herein, we incubated synchronized A549 cells, a human alveolar epithelial cell line, with dexamethasone (1 microM) for 24-48 h. When normalized to HPRT (a housekeeping gene), A549 beta- and gamma-subunit mRNA levels for the human amiloride-sensitive epithelial sodium channel (hENaC), assessed by RT-PCR, increased by 1.6- and 17-fold respectively, compared with control values (P < 0.05). These changes were abolished by actinomycin D, indicating transcriptional regulation. Western blotting studies revealed that dexamethasone also increased expression of beta- and gamma-hENaC protein levels. In contrast, alpha-hENaC mRNA increased by onefold (P > 0.05) and alpha-hENaC protein level was unchanged. Incubation of A549 cells with dexamethasone increased their whole cell amiloride-sensitive sodium currents twofold and decreased the K(0.5) for amiloride from 833 +/- 69 to 22 +/- 5.4 nM (mean +/- SE; P < 0.01). Single channel recordings in the cell-attached mode showed that dexamethasone treatment increased single channel open time and open probability threefold and decreased channel conductance from 8.63 +/- 0.036 to 4. 4 +/- 0.027 pS (mean +/- SE; P < 0.01). We concluded that dexamethasone modulates the amiloride-sensitive Na(+) channels by differentially regulating the expression of beta- and gamma-subunits at the mRNA and protein levels in the human A549 cell line, with little effect on alpha-hENaC subunit.

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