Analysis and characterization of dimerization inhibition of a multi-drug-resistant Human Immunodeficiency Virus Type 1 protease using a novel size-exclusion chromatographic approach

摘要

Active-site inhibitors of HIV-1 PR (protease) block viral replication by preventing viral maturation. However, HIV-1 often develops resistance to active-site inhibitors through multiple mutations in PR and therefore recent efforts have focused on inhibiting PR dimerization as an alternative approach. Dimerization inhibitors have been identified using kinetic analysis, but additional characterization of the effect of these inhibitors on PR by physical methods has been difficult. In the present study, we identified a PRMDR (multi-drug-resistant HIV-1 PR) that was highly resistant to autoproteolysis. Using this PR and a novel size-exclusion chromatographic approach that incorporated fluorescence and MS detection, we were able to demonstrate inhibition of dimerization using P27 (peptide 27), a peptide dimerization inhibitor of PR previously identified on the basis of kinetic analysis. Incubation of PRMDR with P27, or other dimerization inhibitors, led to a dose- and time-dependent formation of PR monomers based on the change in elution time by size exclusion and its similar elution time to engineered forms of monomeric PR, namely PRT26A and glutathionylated PR. In contrast, incubation of PRMDR with a potent active-site inhibitor did not change the elution time for the PRMDR dimer. The monomeric PR induced by P27 had fluorescent characteristics which were consistent with unfolded PR. Structure–activity studies identified the active regions of P27 and experiments were performed to examine the effect of other dimerization inhibitors on PR. The present study is the first characterization of dimerization inhibition of PRMDR, a prime target for these inhibitors, using a novel size-exclusion chromatographic approach.