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Abstract
Tankyrases (TNKSs), a member of human poly (ADP-ribose) polymerase (PARP) protein superfamily, plays a key role in regulation of cell proliferation. Among the representative proteins of the PARPs family, it is found that the inhibitors have high selectivity for Tankyrase1 (TNKS1). The specific binding modes are investigated between the TNKS1 protein and nicotinamide isostere (ISX) which functions as an inhibitor of TNKS1. The stabilities of ISX-TNKS1 and AVA939-TNKS1 complexes are estimated by molecular dynamics (MD) simulations and free energy calculations; a good agreement with experimental results is reached. On the basis of the calculated results of MD simulations, we found that the inhibitors influence the conformational flexibility of TNKS1 and the XAV939 binding drive the peptide Ile1228-Gly1229-Gly1230 to form a helical structure while the ISX binding drive the peptide to form a turn structure. Moreover, the formed important hydrogen bonds of Tyr1203 residue with XVA939 and WAT1551 with ISX enhance stabilities of the complexes, and the electrostatic interactions in XAV939-TNKS1 and van der Waals interactions in ISX-TNKS1 system are main driving forces for affinity. According to the results of the decomposition of binding free energy, it is obvious that the residues Try1224 and Lys1220 make the most favorable contributions to the binding in, respectively, ISX and XAV939 complexes. Taken together, the obtained results are useful for studying the binding mechanisms of TNKSs and inhibitors and for designing potent inhibitors.
Acknowledgements
The calculations of this paper were performed partly on the Supercomputing Center of University of Science and Technology of China.
Disclosure statement
No potential conflict of interest was reported by the authors.