Dual-targeting potential of active constituents of Nigella sativa against FimH and CTX-M-15: A plausible therapeutic strategy against drugresistant uropathogenic strains

Abstract

Uropathogenic strains belonging to the Enterobacteriaceae family are considered one of factors for urinary tract infections, and type 1 pilus fimbrial adhesin (FimH) and beta lactamase CTX-M-15 play crucial roles in their pathogenesis and resistance. Thus, a promising approach is to explore dual-targeting therapeutic agents that act against both FimH and CTX-M-15. In the present study, active constituents of Nigella sativa were selected on the basis of significant activity against UTIs. Molecular docking was used to target active constituents of Nigella sativa to the active sites of FimH and CTX-M-15; these included thymoquinone, dithymoquinone, carvacrol, p-cymene, thymol, thymohydroquinone and longifolene. Dithymoquinone was found to be the most potent dual inhibitor, with binding energy of -7.01 and -5.38kcal/mol against CTX-M-15 and FimH, respectively; In addition, Dithymoquinone exhibited superior activity compared to positive controls avibactam and heptyl α-D-mannopyranoside. Further molecular dynamic simulation studies were carried out to assess the stability of dithymoquinone-target protein complexes via RMSD, Rg, SASA, hydrogen bond number, and RMSF analysis. Both protein-ligand complexes were conserved and attained equilibrium at around 2.0 to 2.5 ns during 10 ns runs. These results suggest that active constituents of Nigella sativa, particularly dithymoquinone, might represent a plausible therapeutic strategy against resistant uropathogenic bacteria.