Quinazoline-based thymidylate synthase inhibitors: relationship between structural modifications and polyglutamation.

Quinazoline-based analogues of folic acid are a group of thymidylate synthase (TS) inhibitors that display a wide spectrum of activity for cultured tumour cells, partly due to their differential ability to form polyglutamate metabolites that are (i) more potent TS inhibitors and (ii) not readily effluxed from cells. The rate of cell membrane transport and folylpolyglutamate synthetase substrate activity influence compound polyglutamation. A series of intact-cell assays has been used to determine how specific modifications of 2-desamino-2-methyl-N10-propargyl-5,8-dideazafolate (ICI 198583) affect compound polyglutamation. Those containing the 'classical' glutamate structure were usually, but not always, well polyglutamated intracellularly. Replacement of N10 propargyl with smaller aliphatic substituents, particularly when combined with replacement of the benzene ring with thiophene or thiazole heterocycles, was beneficial for antitumour activity through polyglutamate formation. Fluorination of the benzene, particularly if a F was adjacent to the 'bridge region' (3'F or 2',5'diF), also gave compounds with a high dependence on polyglutamation for activity. Those analogues with 2-CH2OH or NH2 substituents were poor substrates for the reduced-folate cell membrane carrier which can account for their reduced polyglutamation rate and hence growth-inhibitory activity. A large decrease or prevention of polyglutamation was achieved by the introduction of CH3, CH2CH3, Br or C1 on C7. The concomitant enhancement in TS inhibition by these modifications gave compounds active under continuous-exposure cell culture conditions. Some ICI 198583 analogues had the glutamate moiety replaced with unnatural amino acids or dipeptides. Only the L-gamma-L-glu analogue (a polyglutamate metabolite of ICI 198583) gave activity entirely attributable to polyglutamate formation.