Abstract

We previously identified potentiators of KCa3.1 (5,6-dichloro-1-ethyl-1,3-dihydro-2H-benzimidazol-2-one; DCEBIO) that stimulate Cl- secretion across human bronchial epithelial cells (HBEs) expressing wild-type (WT) cystic fibrosis transmembrane conductance regulator (CFTR). However, these compounds failed to stimulate Cl- secretion in F508del CFTR HBEs. Drug discovery efforts identified CFTR potentiators (VX-770) and correctors (VX-445, VX-661) for cystic fibrosis (CF) disease-causing mutations, including F508del and G551D. Herein, we evaluated the effect of KCa3.1 potentiation on Cl- equivalent current (ICl) across primary HBEs expressing WT, F508del, and G551D CFTR. Transepithelial impedance analysis was used to obtain estimates of apical (Ra) and basolateral membrane (BLM; Rb) resistances. In WT CFTR HBEs, DCEBIO stimulated ICl, which was increased by forskolin. Similarly, forskolin stimulated ICl, and this was increased by DCEBIO. The KCa3.1 blocker, TRAM-34 inhibited ICl. DCEBIO decreased Rb, whereas TRAM-34 increased Rb, consistent with BLM localization of KCa3.1. Following correction of F508del CFTR with VX-445 + VX-661, DCEBIO failed to stimulate ICl, although the subsequent addition of forskolin + VX-770 increased ICl. Importantly, following stimulation of ICl with forskolin + VX-770, DCEBIO induced a further significant increase in ICl. As above, DCEBIO reduced Rb, whereas TRAM-34 increased Rb, consistent with BLM localized KCa3.1. Finally, we assessed KCa3.1 potentiation on ICl in G551D/F508del CFTR HBEs in the absence or presence of VX-445 + VX-661. In both cases, DCEBIO failed to stimulate ICl. However, following stimulation with forskolin + VX-770, DCEBIO nearly doubled ICl. Our results demonstrate that following correction/potentiation of F508del and G551D CFTR, potentiation of KCa3.1 increases the Cl- secretory response, suggesting this class of compounds may represent a novel means of further increasing Cl- secretion across CF airway.

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