Design and synthesis of new alfa-naphthoflavanones as potent and selective CYP1B1 inhibitors.

Natural Flavanones are abundant in human diet and a few of them exhibited chemopreventive effects against xenobiotic procarcinogens through the inhibition of tumour specific CYP1B1 enzyme. Herein, a series of new alfa-naphthoflavanones were synthesised and evaluated for their enzymatic inhibitory potency and selectivity of CYP1B1 over its isoenzyme CYP1A1. The most active compound 8c displayed highest inhibitory potency against CYP1B1 with the IC 50 value of 0.1 nM. The structure activity relationship studies implied that the methoxy groups on the core scaffold of naphthalene ring significantly influenced CYP1B1 inhibition efficacy, while B-ring substitutions played important roles in activity. Molecular docking studies were conducted to provide a better understanding on the key structural features involved in CYP1B1 inhibitory activity. The results of the study implied that these naphthoflavanones could be considered as new leads and further investigation be conducted to explore the flavanone scaffold as skeleton for inhibiting CYP1B1.