Mutations in the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) gene result in defective Cl − transport and cause chronic bacterial infections in the upper and lower airways of cystic fibrosis (CF) patients. Ivacaftor is a CFTR potentiator that improves Cl − transport in CF patients with at least one copy of the G551D mutation. Resveratrol is also a potent CFTR potentiator that increases determinants of mucociliary transport. The objective of this study is to evaluate whether resveratrol and ivacaftor improve Cl − secretion in G551D CFTR over either agent alone.
Fisher rat thyroid cells (FRT) transfected with G551D CFTR and human sinonasal epithelial cells (HSNE) containing the CFTR G551D mutation were subjected to pharmacologic manipulation of transepithelial ion transport in Ussing chambers. Activity was further evaluated using whole cell patch clamp methods in G551D FRT cells.
In FRT-G551D cells, resveratrol (100 μM) and ivacaftor (10 μM) significantly increased Cl − transport (change in short-circuit current, ΔI SC=μA/cm 2) compared to single agent and dimethyl sulfoxide vehicle controls (resveratrol+ivacaftor, 4.97+/−0.57 vs. ivacaftor, 0.74+/−0.12 vs. resveratrol, 2.96+/−0.52 vs. control, 0.74+/−0.12;p<0.001). Maximal Cl − secretion (20 μM forskolin) was also significantly enhanced (p<0.0001). Activity was confirmed in G551D HSNE (resveratrol+ivacaftor,4.48+/−0.39 vs. ivacaftor, 1.05+/−0.11 vs. resveratrol, 0.84+/−0.3 vs. control, 0.0+/−0.02;p<0.001), and whole cell patch clamp analysis in G551D FRT cells (resveratrol+ivacaftor; −2535+/−179.3 pA vs. ivacaftor; −1408.9+/−101.3 pA vs. resveratrol; −766.2+/−71.2 pA; p<0.0001).