Abstract: | We have previously demonstrated that cystic fibrosis (CF) cells show increased survival compared to normal cells when exposed to ouabain in medium lacking potassium. In this report, we show that the CF cells bind significantly less ouabain than the normal cells in potassium-deficient medium. Using age-matched normal and CF skin fibroblast strains, we show that (1) at ouabain concentrations <20 × 10−9 M binding for both normal and CF cells is linear with time for 1 h and reaches equilibrium after 4 h; (2) at ouabain concentrations between 2 and 20 × 10-9 M, the initial rate of binding for CF cells is approx. 70% of the normal cells; (3) under equilibrium-binding conditions, Scatchard analysis reveals that three different CF strains have 12, 16, and 44% fewer ouabain-binding sites than their matched normal controls. In addition, studies in potassium-free medium of the inhibition of 86Rb flux (a K+ analogue) into the cell by ouabain show no differences between CF and normal cells. We have also previously shown that in a low glucose, potassium-deficient medium the CF cells survived ouabain exposure no better than normal cells. In this report, equilibrium-binding studies with [3H]ouabain clearly show that CF cells bind less ouabain under these conditions than normal cells. These results indicate that ouabain resistance in CF cells is not solely a function of differences in ouabain binding. Furthermore, the differential ouabain killing may not be due to ion transport differences, but rather to as yet unknown mechanisms. CF cells thus appear to be unlike previously characterized ouabain-resistant mutants. |