Folates--one carbon carriers--take part in the metabolism of purine, thymidylate and some amino acids. Internalization of these compounds employs several mechanisms of transport systems. Reduced folate carriers and folate receptors play the most important role in this process. The physiological role of these molecules in normal and neoplastic cells is described regarding changes in transport activity and connection of transport systems with resistance to antifolates and cancer development.
A convenient synthesis of 5-fluoro-2-thiouracil (11) is based on hydrolytic deamination of 5-fluoro-2-thiocytosine (9). Lewis acid-catalyzed condensation of di-TMS-5-fluoro-2-thiouracil (13) or di-TMS-2-thiouracil (14) with 2-deoxy-3,5-di-O-p-toluyl-D-ribofuranosyl chloride (15) led to mixtures of the beta- and alpha-anomers of 3',5'-toluylated 2'-deoxy-5-fluoro-2-thiouridine (16 and 18) or 2'-deoxy-2-thiouridine (17 and 19), each of which was deblocked with MeOH-NH3 to give the desired free anomeric nucleoside pairs 1, 5 and 3, 7, respectively. These were selectively converted to the corresponding 5'-monophosphates 2, 6 and 4, 8, with the aid of the wheat shoot phosphotransferase system. Conformations of the nucleosides 1, 3, 5, 7 are deduced from 1H NMR spectra, and circular dichroism spectra for nucleotide anomeric pairs 2, 6 and 4, 8 are reported. Whereas beta-2-thio-dUMP (4) was a good substrate (Km approximately 10(-5) M), beta-5-fluoro-2-thio-dUMP (2) proved to be a potent competitive, slow-binding inhibitor (Ki approximately 10(-8) M) of the purified enzymes from Ehrlich ascites carcinoma and L1210 cells. The alpha-anomer 6 was a weak inhibitor, with Ki in the mM range, and its congener 8 hardly interacted with the enzyme. The beta-anomer 1 exhibited antitumor activity in a mouse leukemic cell line L5178Y (IC50 approximately 10(-6) M), hence 40-100-fold weaker than 5-fluoro-dUrd. Its alpha-anomer 5 was 10-fold less active, but exhibited at least 10-fold higher selectivity with respect to the tumor cells than the beta-anomer 1.
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