Dimerization of HIV-1 protease occurs through two steps relating to the mechanism of protease dimerization inhibition by darunavir

Dimerization of HIV-1 protease (PR) plays a critical role in the replication of HIV-1. Darunavir (DRV) inhibits not only proteolytic activity but also PR dimerization. The present study shows that PR dimerization process undergoes two steps and that DRV inhibits the first step of PR dimerization by binding to PR monomers in a one-to-one molar ratio. The present study also demonstrates that DRV binds to a transframe precursor PR protein, indicating that DRV’s monomer binding is involved in the Gag-Pol autoprocessing inhibition. To our knowledge, the present report represents the first demonstration of the two-step PR dimerization dynamics and the mechanism of dimerization inhibition by DRV, which should help design further, more potent novel PR inhibitors.