New ATP-competitive inhibitors of E. coli GyrB obtained from the mapping of the hydrophobic floor at the binding site: synthesis and biological evaluation.

We mapped the hydrophobic floor, an interesting subsite at the active site of DNA gyrase B (GyrB) from E. coli . We synthesized three new compounds with pendant groups targeting the hydrophobic floor and evaluated their inhibitory activities on DNA gyrase. A new benzothiazole derivative with a benzyl substituent at position 3 of the benzothiazole ring exhibited strong inhibitory activity against E. coli DNA gyrase (IC 50 = 19 ± 3 nM). An exhaustive conformational study using potential energy surfaces (PESs) allowed us to map the new subsite evaluating all critical points on the surface and conformational interconversion pathways. We analyzed the molecular interactions using QTAIM calculations. Our data provide insights into the mechanism of action of these new ligands at the molecular level. Theoretical and experimental data suggest that new ligand optimization strategies should focus on strengthening interactions at the hydrophobic floor while preserving the binding mode of the main scaffold.