The role of -, -, and -ENaC subunits in distal lung epithelial fluid absorption induced by pulmonary edema fluid

Elias N, Rafii B, Rahman M, Otulakowski G, Cutz E, O’Brodovich H. The role of -, -, and -ENaC subunits in distal lung epithelial fluid absorption induced by pulmonary edema fluid. Am J Physiol Lung Cell Mol Physiol 293: L537–L545, 2007. First published May 18, 2007; doi:10.1152/ajplung.00373.2006.—Edema fluid (EF) increases epithelial Na transport by rat fetal distal lung epithelia (FDLE) and induces net lung fluid absorption in fetal mouse lung explants [Rafii B, Gillie DJ, Sulowski C, Hannam V, Cheung T, Otulakowski G, Barker PM, O’Brodovich H. J Physiol (Lond) 544: 537–548, 2002]. We now show that EF increases fluid absorption across monolayers of rat FDLE in a dose-dependent manner. To study the role of subunits of the epithelial Na channel (ENaC) in the phenomena, we cultured explants from the distal lungs of 16-day gestational age wild-type (WT) or -, -, or -ENaC knockout or heterozygote (HT) mice. WT explants cultured in media continuously expanded over time as a result of net fluid secretion. In contrast, when explants were exposed to EF for 24 h, net fluid absorption occurred. EF-exposed explants had normal histology, but marked changes were seen after Triton X-100 or staurosporine exposure. Transmission electron microscopy showed EF promoted lamellar body formation and abundant surfactant in the explants’ lumens. EF-induced changes in explant size were similar in -ENaC knockout, WT, and HT littermate fetal lung explants (P 0.05). In contrast, EF’s effect was attenuated in and -ENaC knockouts (P 0.05) vs. WT and HT littermate fetal lung explants. EF exposure slightly decreased or had no effect on mRNA levels for -ENaC in various mouse genotypes but decreased expression of and -ENaC subunit mRNAs (P 0.01) across all genotype groups. We conclude that and -, but not -, ENaC subunits are essential for EF to exert its maximal effect on net fluid absorption by distal lung epithelia.