Role of hypoxanthine and thymidine in determining methotrexate plus dipyridamole cytotoxicity

Abstract

The nucleoside transport inhibitor dipyridamole can potentiate the cytotoxicity of methotrexate by a mechanism that was thought to be related to the inhibition of thymidine salvage. In human ovarian carcinoma cells thymidine only partly reversed the in vitro cytotoxicity of methotrexate plus dipyridamole at sub-millimolar concentrations, above which the cytotoxicity of thymidine itself became evident. Hypoxathine with thymidine, or hypoxanthine alone at a higher concentration, completely reversed methotrexate and methotrexate plus dipyridamole cytotoxicity. The effects of dipyridamole on cellular cyclic adenosine monophosphate (cAMP) levels and on 3H-methotrexate efflux in 2008 cells were examined. At 10 μmol/l, dipyridamole did not alter cAMP content or methotrexate influx in ovarian carcinoma cells, but reduced the rate of efflux of 3H-methotrexate by 25%. In Chinese hamster ovary cells and their folypolyglutamyl synthase-deficient variant AUX B1, the reduced methotrexate efflux by dipyridamole was not due to increased polyglutamation, since increased retention was observed in both cell lines. The data support the hypothesis that dipyridamole potentiated the activity of methotrexate by inhibiting the salvage of hypoxanthine, and to a lesser extent, that of thymidine. The ability of dipyridamole to increase the cellular retention of methotrexate was probably a non-specific action of dipyridamole on the cell membrane, and may have a role in the observed synergy.