Isozyme-Specific Enzyme Inhibitors. 11.¹ L-Homocysteine-ATP S-C5’ Covalent Adducts as Inhibitors of Rat Methionine Adenosyltransferases

The title compounds (14a,b) were 5^/ epimers of a derivative of a phosphonate isostere of ATP in which the CH₂OP^asystem of ATP was replaced by CH(R)CH₂P^a [R = L-S(Ch2)2CH(NH₂)C0₂H]. They resisted synthesis via attempted S-alkylation of the corresponding epimeric 5’-mercapto derivatives. A practicable route to 14a,b commenced with Michael condensation of L-homocysteine with the diphenyl ester of the 5’,6’-vinyl phosphonate analogue of 2’,3’-O-isopropylideneadenosine 5’-phosphate. The resulting epimeric 5’ thioethers were separated by reverse-phase HPLC. The two phenyl groups were replaced by benzyl groups, after which the a-amino acid residue was protected as an N-Boc methyl ester. Both benzyl groups were removed by hydrogenolysis, and the resulting phosphonic acid was converted into its pyrophosphoryl derivative. Blocking groups were then removed under conditions that furnished 14a and 14b without racemization of their L-amino acid residues. Also synthesized were the P^β-NH-P⁷imido analogue (15a) of 14a and the sulfoxide derivative (16a) of 14a. The structures of 14a and 16a were verified by FAB mass spectra, which revealed the protonated molecular ions of their sodium salts. All adducts appeared to function as dual substrate site inhibitors (competitive to ATP and to methionine) of the rat normal tissue (MAT-2) form of methionine adenosyltransferase (MAT); 14a and 15a [K_M(ATP)/Ki = 4 and 9, respectively] were the most effective. Adduct 15a was the most effective inhibitor [K_M(ATP)/Kj = 13] of the MAT-T form from rat hepatoma tissue; the kinetic data indicated dual-site inhibition by 15a with apparently complete coverage of the ATP site and incomplete coverage of the methionine site. The inhibition properties of the adducts indicated little preference in the order in which the two MAT forms bound ATP and methionine.