A proposed molecular basis for the selective resveratrol inhibition of the PGHS-1 peroxidase activity

Docking results have enabled us to propose how resveratrol could act as a selective PGHS-1 peroxidase site inhibitor. The docking model has predicted a slightly less favorable ΔGbind (−17.9 kcal/mol) of the resveratrol to the PGHS-2 peroxidase site in comparison with its corresponding binding to the PGHS-1 (−20.4 kcal/mol). The formation of hydrogen bonds among the hydroxyl groups of the resveratrol phenyl rings, the backbone of Fe-heme and the carbonyl group of Leu294 inside the PGHS-1 peroxidase site, associated with the absence of His214 in the backbone of PGHS-1, are essential features that are required to maintain the aromatic rings of the natural product parallel to the Fe-heme group and transverse to the peroxidase access channel promoting a large steric hindrance at this site and its consequent selective inhibition.

This work describes the theoretical basis of the selective inhibition of the prostaglandin endoperoxide H2 synthase (PGHS)-1 peroxidase site promoted by the natural product, resveratrol.Figure optionsDownload as PowerPoint slide