Specific features of HIV-1 integrase inhibition by bisphosphonate derivatives

The integration of viral DNA into the cell genome is one of the key steps in the replication cycle of human immunodeficiency virus type 1 (HIV-1). Therefore, the viral enzyme integrase (IN) catalyzing this process is of great interest as a target for new antiviral agents. We performed a structural functional analysis of five different series of methylenebisphosphonates (BPs), PO3H2-C(R)(X)-PO3H2, as IN inhibitors with the goal of assessing structural elements required for the inhibitory activity. We found that IN is inhibited only by BP bearing a chlorobenzyl substituent Rat the bridging carbon of the P-C-P backbone. These BP inhibited both IN-catalyzed reactions with similar efficacies. They were also active toward some INs with mutations characteristic for HIV-1 strains resistant to strand transfer inhibitors. The study of the mechanism of the IN inhibition by various BP showed that it is effected by the nature of the second substituent (X) at the bridging carbon. Among the tested compounds, only the BP with the amino group bound directly to the BP bridging carbon was found to be a noncompetitive inhibitor and, hence, it can be promising for further studies as potential inhibitor of the IN activity within the preintegration complex. (C) 2013 Elsevier Masson SAS. All rights reserved.