Kaiyawet, Nopporn Rungrotmongkol, Thanyada Hannongbua, Supot Effect of Halogen Substitutions on dUMP to Stability of Thymidylate Synthase/dUMP/mTHF Ternary Complex Using Molecular Dynamics Simulation The stability of the thymidylate synthase (TS)/2-deoxyuridine-5-monophosphate (dUMP)/5,10-methylene-5,6,7,8-tetrahydrofolate (mTHF) ternary complex formation and Michael addition are considered as important steps that are involved in the inhibition mechanism of the anticancer prodrug 5-fluorouracil (5-FU). Here, the effect of three different halogen substitutions on the C-5 position of the dUMP (XdUMPs = FdUMP, CldUMP, and BrdUMP), the normal substrate, on the stability of the TS/dUMP and TS/dUMP/mTHF binary and ternary complexes, respectively, was investigated via molecular dynamics simulation. The simulated results revealed that the stability of all the systems was substantially increased by mTHF binding to the catalytic pocket. In the ternary complex, a much greater stabilization of the dUMP and XdUMPs through electrostatic interactions, including charge–charge and hydrogen bond interactions, was found compared to mTHF. An additional unique hydrogen bond between the substituted fluorine of FdUMP and the hydroxyl group of the TS Y94 residue was observed in both the binary and ternary complexes. The distance between the S<sup>–</sup> atom of the TS C146 residue and the C6 atom of dUMP, at <4 Å in all systems, suggested that a Michael addition with the formation of a S–C6 covalent bond potentially occurred, although the hydrogen atom on C6 of dUMP is substituted by a halogen atom. The MM/PBSA binding free energy revealed the significant role of the bridging waters around the ligands in the increased binding affinity (∼10 kcal/mol) of dUMP/XdUMP, either alone or together with mTHF, toward TS. The order of the averaged binding affinity in the ternary systems was found to be CldUMP ≈ FdUMP > dUMP > BrdUMP, suggesting that CldUMP could be a potent candidate TS inhibitor, the same as FdUMP (the metabolite form of 5-FU). hydrogen bond interactions;C 6 atom;candidate TS inhibitor;TS Y 94 residue;FU;TS C 146 residue;mTHF;ternary complexes;dUMP;FdUMP;Molecular Dynamics SimulationThe stability 2013-06-24
    https://acs.figshare.com/articles/journal_contribution/Effect_of_Halogen_Substitutions_on_dUMP_to_Stability_of_Thymidylate_Synthase_dUMP_mTHF_Ternary_Complex_Using_Molecular_Dynamics_Simulation/2402683
10.1021/ci400131y.s001