Potent stimulation and inhibition of the CFTR Cl(-) current by phloxine B.

The effects of the fluoresceine derivative, phloxine B, on the Cl(-) current through the cystic fibrosis transmembrane conductance regulator (CFTR) were examined in Xenopus oocytes expressing human CFTR. In whole oocytes, the CFTR Cl(-) current (I(CFTR)) was activated by superfusion with isobutylmethylxanthine and forskolin. I(CFTR) was stable during activation and deactivated rapidly upon washout of the activation solution. Phloxine B slowed deactivation and, at high concentrations, inhibited I(CFTR) weakly. In excised inside-out macropatches, I(CFTR) was activated by the catalytic subunit of protein kinase A (cPKA) and MgATP. Phloxine B (0.01 - 3 microM), applied after activation, increased I(CFTR) within 30 s followed by a slow decrease which became dominant at high concentrations. Slowing of deactivation of the CFTR was observed at all concentrations. The effect of phloxine B after 30 s had a bell-shaped concentration-dependence with midpoints at 45 and 1600 nM for the stimulatory and the inhibitory limb, respectively; maximum stimulation was about 1.8 times. The slow inhibitory component, measured after 6 min, occurred with an IC(50) value of approximately 1 microM. In the absence of cPKA, phloxine B did not stimulate I(CFTR). In the presence of cPKA and MgATP, the effects of phloxine B were more prominent at low (0.02 mM) than at high ATP (2 mM). The data show that phloxine B modulates I(CFTR) by increasing channel activity and slowing channel deactivation; at high concentrations inhibition dominates. The effects may be mediated by direct interactions with CFTR from the inside of the cell.