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Mechanisms of substrate selectivity for Bacillus anthracis thymidylate kinase
Authors:Carnrot Cecilia  Wang Liya  Topalis Dimitri  Eriksson Staffan
Affiliation:Department of Anatomy, Physiology and Biochemistry, The Swedish University of Agricultural Sciences, The Biomedical Centre, S-751 23 Uppsala, Sweden.
Abstract:Bacillus anthracis is well known in connection with biological warfare. The search for new drug targets and antibiotics is highly motivated because of upcoming multiresistant strains. Thymidylate kinase is an ideal target since this enzyme is at the junction of the de novo and salvage synthesis of dTTP, an essential precursor for DNA synthesis. Here the expression and characterization of thymidylate kinase from B. anthracis (Ba-TMPK) is presented. The enzyme phosphorylated deoxythymidine-5'-monophosphate (dTMP) efficiently with K (m) and V (max) values of 33 microM and 48 micromol mg(-1) min(-1), respectively. The efficiency of deoxyuridine-5'-monophosphate phosphorylation was approximately 10% of that of dTMP. Several dTMP analogs were tested, and D-FMAUMP (2'-fluoroarabinosyl-5-methyldeoxyuridine-5'-monophosphate) was selectively phosphorylated with an efficiency of 172% of that of D-dTMP, but L-FMAUMP was a poor substrate as were 5-fluorodeoxyuridine-5'-monophosphate (5FdUMP) and 2',3'-dideoxy-2',3'-didehydrothymidine-5'-monophosphate (d4TMP). No activity could be detected with 3'-azidothymidine-5'-monophosphate (AZTMP). The corresponding nucleosides known as efficient anticancer and antiviral compounds were also tested, and d-FMAU was a strong inhibitor with an IC(50) value of 10 microM, while other nucleosides--L-FMAU, dThd, 5-FdUrd, d4T, and AZT, and 2'-arabinosylthymidine--were poor inhibitors. A structure model was built for Ba-TMPK based on the Staphylococcus aureus TMPK structure. Docking with various substrates suggested mechanisms explaining the differences in substrate selectivity of the human and the bacterial TMPKs. These results may serve as a start point for development of new antibacterial agents.
Keywords:Bacillus anthracis   thymidylate kinase   TMPK   structure model   nucleoside analogs   drug design   FMAU
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