Privileged scaffold inspired design of novel oxime-biphenyl-DAPYs in treatment of HIV-1.

Abstract

Oxime is a key pharmacophore in drug development. The biphenyl diarylpyrimidines (DAPYs) have been developed by our group as novel non-nucleoside reverse transcriptase inhibitors (NNRTIs). In this study, fourteen oxime-biphenyl-DAPYs were designed and synthesized through a privileged scaffold inspired design strategy. They exhibited promising activity toward wild type HIV-1 and single mutant strains. Compound 7d was found to be the most potent one against both wild type (EC50=12.1nM) and E138K mutant strains (EC50=0.0270µM). It also had a much lower cytotoxicity (CC50>292µM) and higher selective index (SI>24105) than those of the FDA-approved drugs efavirenz and etravirine. Molecular docking and dynamics simulation predicted and disclosed the binding mode of compound 7d with the RT, providing the explanation on the antiviral activity. These results were helpful for subsequent structural optimizations in anti-HIV-1 drug discovery.