NO EVIDENCE FOR DIRECT ACTIVATION OF THE CYSTIC-FIBROSIS TRANSMEMBRANE CONDUCTANCE REGULATOR BY 8-CYCLOPENTYL-1,3-DIPROPYLXANTHINE

8-Cyclopentyl-1,3-dipropylxanthine (CPX) is a selective A(1)-adenosine receptor antagonist which has been reported to activate Cl- efflux at very low concentrations in cells carrying the cystic fibrosis (CF) de fect, but not in cells expressing the wildtype form of the CI; transme mbrane conductance regulator (CFTR). CPX was suggested as a new therap eutic drug for the treatment of CF. In the present study, we examined the effects of CPX on various types of recombinant cells (Xenopus oocy tes, Chinese hamster ovary cells, CF tracheal cells) and native non-CF and CF respiratory epithelial cells. CPX did not activate a whole-cel l conductance when applied at concentrations ranging from 1 nmol/l to 100 mu mol/l in oocytes injected with water or expressing either wild- type CFTR or mutant Delta F508-CFTR. Correspondingly, CPX (10 mu mol/l ) did not activate whole-cell conductance in non-CF or CF respiratory epithelial cells and Chinese hamster ovary cells expressing either wil d-type CFTR or Delta F508-CFTR. Instead, CPX depolarized V-m by inhibi tion of a K+ conductance in CF respiratory epithelial cells. At 10 mu mol/l CPX marginally decreased intracellular pH in respiratory epithel ial cells, independent of expression of wild-type CFTR or mutant CFTR. According to these data, CPX-induced Cl-36 efflux reported in previou s studies cannot be attributed to direct activation of Delta F508-CFTR Cl- conductance and is probably related to the CPX-induced changes in intracellular pH.