Differential inhibition of host and viral thymidylate synthetases by folylpolyglutamates.

The ability of folate analogues to inhibit host and viral thymidylate synthetases was measured using the corresponding Escherichia coli and T2-phage-induced enzymes. In the absence of Mg2+, 6 x 10(-7) M pteroylhexaglutamate inhibited the T2-phage-induced synthetase by 50%, but at least 100-fold greater levels of this compound were necessary to inhibit the E. coli synthetase by this amount. At 2.5 x 10(-6) M pteroylhexaglutamate, at least 80% inhibition of the T2-phage synthetase could be obtained with little or no inhibition of the E. coli enzyme. The pteroylmonoglutamate was about 2 orders of magnitude less inhibitory towards the T2-phage enzyme than the pteroyltri- to -heptaglutamates. However, upon addition of Mg2+ to the assay mixture, the inhibition produced by pteroylhexaglutamate was essentially reversed, with the E. coli synthetase now increasingly inhibited by this compound and the T2-synthetase only minimally impaired. Methotrexate and N10-formyl-2-amino-4-hydroxyquinazoline, although inhibitory to both enzymes in the presence or absence of Mg2+, did not show this differential selectivity. These results suggest that certain folate analogues may be useful in distinguishing between a host and an infecting organism's thymidylate synthetase and could thus provide an additional means of screening for potential chemotherapeutic agents.