V-Type ATPase Mediates Airway Surface Liquid Acidification in Pig Small Airway Epithelial Cells.

In a newborn pig cystic fibrosis (CF) model, the ability of gland-containing airways to fight infection was affected by at least two major host-defense defects: impaired mucociliary transport and a lower airway surface liquid (ASL) pH. In the gland-containing airways, the ASL pH is balanced by CFTR (CF transmembrane conductance regulator) and ATP12A, which, respectively, control HCO3- transport and proton secretion. We found that, although porcine small airway tissue expressed lower amounts of ATP12A, the ASL of epithelial cultures from CF distal small airways (diameter < 200 μm) were nevertheless more acidic (compared with non-CF airways). Therefore, we hypothesized that gland-containing airways and small airways control acidification using distinct mechanisms. Our microarray data suggested that small airway epithelia mediate proton secretion via ATP6V0D2, an isoform of the V0 d subunit of the H+-translocating plasma membrane V-type ATPase. Immunofluorescence of small airways verified the expression of the V0 d2 subunit isoform at the apical surface of Muc5B+ secretory cells, but not ciliated cells. Inhibiting the V-type ATPase with bafilomycin A1 elevated the ASL pH of small airway cultures, in the presence or absence of HCO3-, and decreased ASL viscosity. These data suggest that, unlike large airways, which are acidified by ATP12A activity, small airways are acidified by V-type ATPase, thus identifying V-type ATPase as a novel therapeutic target for small airway diseases.

Citation

Xiaopeng Li, Raul Villacreses, Ian M Thornell, Julio Noriega, Steven Mather, Christian M Brommel, Lin Lu, Adam Zabner, Annie Ehler, David K Meyerholz, David A Stoltz, Joseph Zabner. V-Type ATPase Mediates Airway Surface Liquid Acidification in Pig Small Airway Epithelial Cells. American journal of respiratory cell and molecular biology. 2021 Aug;65(2):146-156

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PMID: 33789071

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