Comparative analysis of the sequences and structures of HIV‐1 and HIV‐2 proteases

Abstract

The different isolates available for HIV‐1 and HIV‐2 were compared for the region of the protease (PR) sequence, and the variations in amino acids were analyzed with respect to the crystal structure of HIV‐1 PR with inhibitor. Based on the extensive homology (39 identical out of 99 residues), models were built of the HIV‐2 PR complexed with two different aspartic protease inhibitors, acetylpepstatin and a renin inhibitor, H‐261. Comparison of the HIV‐1 PR crystal structure and the HIV‐2 PR model structure and the analysis of the changes found in different isolates showed that correlated substitutions occur in the hydrophobic interior of the molecule and at surface residues involved in ionic or hydrogen bond interactions. The substrate binding residues of HIV‐1 and HIV‐2 PRs show conservative substitutions of four residues. The difference in affinity of HIV‐1 and HIV‐2 PRs for the two inhibitors appears to be due in part to the change of Val 32 in HIV‐1 PR to Ile in HIV‐2 PR.