Identification of a Potential Inhibitor of the FIV p24 Capsid Protein and Characterization of Its Binding Site.

Feline immunodeficiency virus (FIV) is a veterinary infective agent for which there is currently no efficient drug available. Drugs targeting the lentivirus capsid are currently under development for the treatment of human immunodeficiency virus 1 (HIV-1). Here we describe a lead compound that interacts with the FIV capsid. This compound, 696, modulates the in vitro assembly of and stabilizes the assembled capsid protein. To decipher the mechanism of binding of this compound to the protein, we performed the first nuclear magnetic resonance (NMR) assignment of the FIV p24 capsid protein. Experimental NMR chemical shift perturbations (CSPs) observed after the addition of 696 enabled the characterization of a specific binding site for 696 on p24. This site was further analyzed by molecular modeling of the protein:compound interaction, demonstrating a strong similarity with the binding sites of existing drugs targeting the HIV-1 capsid protein. Taken together, we characterized a promising capsid-interacting compound with a low cost of synthesis, for which derivatives could lead to the development of efficient treatments for FIV infection. More generally, our strategy combining the NMR assignment of FIV p24 with NMR CSPs and molecular modeling will be useful for the analysis of future compounds targeting p24 in the quest to identify an efficient treatment for FIV.

Drug Targets: Screening for Small Molecules that Inhibit Fasciola hepatica Enzymes.

The in vitro screening of small molecules for enzymatic inhibition provides an efficient means of finding new compounds for developing drug candidates. This strategy has the advantage of being rapid and inexpensive to perform. Enzymes are suitable targets for screening when simple methods to obtain them and measure their activities are available and there is evidence of their essential role in the parasite's life cycle. Here, we describe the screening of small molecules as inhibitors of two Fasciola hepatica enzyme targets (cathepsin L and triose phosphate isomerase), an initial step to find new potential compounds for drug development strategies.