Abrogation of the effects of aphidicolin on NIH3T3 and V79 cells by caffeine.

In this communication I show that caffeine (1,3,7-trimethylxanthine) stimulates [3H]thymidine incorporation in aphidicolin-treated V79 and NIH3T3 cells. Flow microfluorometric analysis showed that caffeine, partially or fully, abrogates the cell cycle progression block produced by aphidicolin. Increased cell growth is also observed in cultures treated with both aphidicolin and caffeine compared to cultures treated with aphidicolin only. Microscopic examination of V79 cultures treated with aphidicolin for 8 h showed a marked reduction in the frequency of round mitotic cells, as is expected from a drug which inhibits progression through the cell cycle by inhibiting DNA replication; this effect of aphidicolin was also reduced by caffeine. Biochemical analysis showed that caffeine did not directly interfere with the inhibition of DNA polymerase-alpha by aphidicolin. Analysis of dNTP pools indicated that caffeine increased the level of dCTP in V79 cells. In aphidicolin-treated V79 cells, the increase in the dCTP level due to exogenous cytidine was almost completely blocked; caffeine also substantially overcame this effect of aphidicolin. These results indicate that caffeine produces its effects on aphidicolin-treated cells by altering the dCTP metabolism.