Abstract
In contrast to pig large airways, the pH of airway surface liquid (ASL) in pig small airways is regulated by CFTR-mediated HCO-3 secretion and the vacuolar-type H+ ATPase (V-ATPase) proton secretion. We hypothesized that, in cystic fibrosis (CF), the ASL pH of small airways is acidic, and the V-ATPase is internalized. We quantified proton secretion during the addition of an alkaline test solution by measuring changes in a pH-dependent fluorescent dye generated by porcine small airway epithelia in the absence and presence of bafilomycin A1. The pH-dependent translocation of V-ATPase in ex vivo and in vivo preparations was measured using immunolocalization of V-ATPase. We found that bafilomycin-sensitive proton secretion stopped when the ASL pH was less than 7.10. In non-CF pigs and mice, we found that V-ATPase was localized in the apical membrane, and internalized when the lungs were instilled with a pH 6.8 solution. Studies in which we immediately fixed lungs from pigs revealed apical V-ATPase detection in non-CF piglets and less apical detection in CF piglets. Our data suggest that V-ATPase in small airways is internalized when the ASL pH is acidic. The decrease in apical localization of V-ATPase in CF pigs is consistent with an acidic ASL pH.NEW & NOTEWORTHY In this study, we describe that vacuolar-type H+ ATPase (V-ATPase) internalizes when the airway surface liquid (ASL) pH in pig small airways is less than 7.10. Furthermore, we found that V-ATPase is not localized to the apical membrane in the small airways of newborn cystic fibrosis pigs.