PPEF: A bisbenzimdazole potent antimicrobial agent interacts at acidic triad of catalytic domain of E. coli topoisomerase IA

Abstract Background Topoisomerase is a well known target to develop effective antibacterial agents. In pursuance of searching novel antibacterial agents, we have established a novel bisbenzimidazole (PPEF) as potent E. coli topoisomerase IA poison inhibitor. Methods In order to gain insights into the mechanism of action of PPEF and understanding protein-ligand interactions, we have produced wild type EcTopo 67 N-terminal domain (catalytic domain) and its six mutant proteins at acidic triad (D111, D113, E115). The DDE motif is replaced by alanine (A) to create three single mutants: D111A, D113A, E115A and three double mutants: D111A-D113A, D113A-E115A and D111A-E115A. Results Calorimetric study of PPEF with single mutants showed 10 fold lower affinity than that of wild type EcTopo 67 (7.32 × 106 M−1for wild type, 0.89 × 106 M−1for D111A) and 100 fold lower binding with double mutant D113A-E115A (0.02 × 106 M−1) was observed. The mutated proteins showed different CD signature as compared to wild type protein. CD and fluorescence titrations were done to study the interaction between EcTopo 67 and ligands. Molecular docking study validated that PPEF has decreased binding affinity towards mutated enzymes as compared to wild type. Conclusion The overall study reveals that PPEF binds to D113 and E115 of acidic triad of EcTopo 67. Point mutations decrease binding affinity of PPEF towards DDE motif of topoisomerase. General significance This study concludes PPEF as poison inhibitor of E. coli Topoisomerase IA, which binds to acidic triad of topoisomerase IA, responsible for its function. PPEF can be considered as therapeutic agent against bacteria.