Azapyrimidine analogues: Inhibition of viral DNA synthesis and protein synthesis in SV40 infected BSC-1 cells

Summary The replication of simian virus 40 DNA and protein synthesis in BSC-1 cells was analyzed in vitro after treatment with 5,6-dihydro-5-azacytidine (DH-5-AzaCR) or 5-azacytidine (5-AzaCR). Results demonstrated that after a 3-h treatment period with 100 μg/ml, DH-5-AzaCR exhibited a 77% inhibition of viral DNA synthesis, whereas 5-AzaCR resulted in a 50% inhibition. Stimulation of DNA synthesis occurred when infected cultures were treated with low doses (0.1 to 0.5 μg/ml) of 5-AzaCR for 3h and after 1 and 2 h of treatment with 100 μg/ml of 5-AzaCR; however, stimulation did not occur with DH-5-AzaCR. DNA synthesized in the presence of either drug demonstrated altered conformations when analyzed on agarose gels; however this alteration was negligible after DH-5-AzaCR treatment, but more pronounced in the presence of 5-AzaCR. Restriction enzyme analysis suggests that DH-5-AzaCR may not be a hypomethylating agent as is 5-AzaCR. Inhibition of total protein synthesis (cellular and viral) was essentially complete 6 h after treatment with DH-5-AzaCR, whereas 5-AzaCR completely inhibited protein synthesis after 3 h. These data indicate that 5-AzaCR does not exhibit a direct dose relationship to the inhibition of DNA synthesis whereas DH-5-AzaCR may show some dose relationship, and that DH-5-AzaCR is a more potent inhibitor of DNA synthesis as compared to 5-AzaCR. This work was supported by grant RR08005, National Institutes of Health, Bethesda, MD. Presented in part before the 87th Annual Meeting of the American Society for Microbiology, Atlanta, GA. April 1–6, 1987.