119244-47-2Relevant academic research and scientific papers
Approaches to isozyme-specific inhibitors. 16. A novel methyl-C5' covalent adduct of L-ethionine and β,γ-imido-ATP as a potent multisubstrate inhibitor of rat methionine adenosyltransferase
Vrudhula,Kappler,Afshar,Ginell,Lessinger,Hampton
, p. 885 - 890 (1989)
N6,N6-Dibenzoyl-2',3'-O-isopropylideneadenosine, which is readily synthesized by one-pot 5'-O-trimethylsilylation, N6-benzoylation, and desilylation, was coverted to the corresponding 5'-aldehyde. This was treated with CH2 = CHMgBr to afford, after debenzoylation, a 1:3 mixture of the 5'S and 5'R epimers, respectively, of 5'-C-vinyl2',3'-O-isopropylideneadenosine. The configurations were established by single-crystal X-ray diffraction analysis of the 5'R epimer. Hydroboration of the 5'-O-tetrahydropyranyl derivative of the mixed epimeric 5'-C-vinyl nucleosides readily furnished 5'(S,R)-C-(2-hydroxyethyl)-2',3'-O-isopropylideneadenosine. Treatment of the 5'(S,R)-C-(2-O-tosyl) derivative of this with disodium L-homocysteinate permitted facile introduction of the L-ethionine system. By means of methods developed earlier in the synthesis of homologous methionine-ATP adducts, the α-amino acid group was protected, a β,γ-imidotriphosphoryl group was introduced at O5', and blocking groups were removed to give the title adduct as a 2:3 mixture of its two 5' epimers. It was a powerful inhibitor [K(M)(ATP)/K(i) = 520 and 340] of the M-2 (normal tissue) and M-T (hepatoma tissue) forms, respectively, of the title enzyme and displayed predominantly competitive kinetics with the two substrates L-methionine and MgATP. It inhibited M-2 and M-T slightly less effectively than its homologue possessing one less CH2 between sulfur and C5' and gave kinetic evidence of an increased tendency to form L-methionine-enzyme-adduct and MgATP-enzyme-adduct complexes.
Exploration of a potential difluoromethyl-nucleoside substrate with the fluorinase enzyme
Thompson, Stephen,McMahon, Stephen A.,Naismith, James H.,O'Hagan, David
supporting information, p. 37 - 41 (2015/12/08)
The investigation of a difluoromethyl-bearing nucleoside with the fluorinase enzyme is described. 5′,5′-Difluoro-5′-deoxyadenosine 7 (F2DA) was synthesised from adenosine, and found to bind to the fluorinase enzyme by isothermal titration calorimetry with similar affinity compared to 5′-fluoro-5′-deoxyadenosine 2 (FDA), the natural product of the enzymatic reaction. F2DA 7 was found, however, not to undergo the enzyme catalysed reaction with l-selenomethionine, unlike FDA 2, which undergoes reaction with l-selenomethionine to generate Se-adenosylselenomethionine. A co-crystal structure of the fluorinase and F2DA 7 and tartrate was solved to 1.8 ?, and revealed that the difluoromethyl group bridges interactions known to be essential for activation of the single fluorine in FDA 2. An unusual hydrogen bonding interaction between the hydrogen of the difluoromethyl group and one of the hydroxyl oxygens of the tartrate ligand was also observed. The bridging interactions, coupled with the inherently stronger C-F bond in the difluoromethyl group, offers an explanation for why no reaction is observed.
4',5'-Unsaturated 5'-Halogenated Nucleosides. Mechanism-Based and Competitive Inhibitors of S-Adenosyl-L-homocysteine Hydrolase
Jarvi, Esa T.,McCarthy, James R.,Mehdi, Shujaath,Matthews, Donald P.,Edwards, Michael L.,et al.
, p. 647 - 656 (2007/10/02)
The design and synthesis of (E)- and (Z)-5'-fluoro-4',5'-didehydro-5'-deoxyadenosine (6 and 13, respectively), a new class of mechanism-based inhibitors of S-adenosyl-L-homocysteine (SAH) hydrolase, is described.A number of analogues of 6 and 13 were synt
