Most bicarbonate secretion by Calu‐3 cells is mediated by CFTR and independent of pendrin

Bicarbonate plays an important role in airway host defense, however, its transport mechanisms remain uncertain. Here we examined the relative contributions of the anion channel CFTR (cystic fibrosis transmembrane conductance regulator, ABCC7) and the anion exchanger pendrin (SLC26A4) to HCO (3) (−) secretion by the human airway cell line Calu‐3. Pendrin and CFTR were both detected in parental Calu‐3 cells, although mRNA and protein expression appeared higher for CFTR than for pendrin. Targeting pendrin transcripts with lentiviral shRNA reduced pendrin detection by immunofluorescence staining but did not alter the rates of HCO (3) (−) or fluid secretion, HCO (3) (−) transport under pH‐stat conditions, or net HCO (3) (−) flux across basolaterally permeabilized monolayers. Intracellular pH varied with step changes in apical Cl(−) and HCO (3) (−) concentrations in control and pendrin knockdown Calu‐3 cells, but not in CFTR deficient cells. Exposure to the proinflammatory cytokine IL‐4, which strongly upregulates pendrin expression in airway surface epithelia, had little effect on Calu‐3 pendrin expression and did not alter fluid or HCO (3) (−) secretion. Similar results were obtained using air–liquid interface and submerged cultures, although CFTR and pendrin mRNA expression were both lower when cells were cultured under submerged conditions. While the conclusions cannot be extrapolated to other airway epithelia, the present results demonstrate that most HCO (3) (−) secretion by Calu‐3 cells is mediated by CFTR.