Abstract
HIV-1 protease (PR) is a viral enzyme vital to the production of infectious virions. It is initially synthesized as part of the Gag-Pol polyprotein precursor in the infected cell. The free mature PR is liberated as a result of precursor autoprocessing upon virion release. We previously described a model system to examine autoprocessing in transfected mammalian cells. Here, we report that a covariance analysis of miniprecursor (p6*-PR) sequences derived from drug naïve patients identified a series of amino acid pairs that vary together across independent viral isolates. These covariance pairs were used to build the first topology map of the miniprecursor that suggests high levels of interaction between the p6* peptide and the mature PR. Additionally, several PR-PR covariance pairs are located far from each other (>12 Å Cα to Cα) relative to their positions in the mature PR structure. Biochemical characterization of one such covariance pair (77–93) revealed that each residue shows distinct preference for one of three alkyl amino acids (V, I, and L) and that a polar or charged amino acid at either of these two positions abolishes precursor autoprocessing. The most commonly observed 77V is preferred by the most commonly observed 93I, but the 77I variant is preferred by other 93 variances (L, V, or M) in supporting precursor autoprocessing. Furthermore, the 77I93V covariant enhanced precursor autoprocessing and Gag polyprotein processing but decreased the mature PR activity. Therefore, both covariance and biochemical analyses support a functional association between residues 77 and 93, which are spatially distant from each other in the mature PR structure. Our data also suggests that these covariance pairs differentially regulate precursor autoprocessing and the mature protease activity.
Highlights
The human immunodeficiency virus 1 (HIV-1) protease (PR) is initially synthesized as part of the Gag-Pol polyprotein precursor in the infected cell
Within the Gag-Pol precursor, the PR is flanked at the N-terminus by a transframe region (TFR)— called p6Ã as it overlaps with the p6 late domain of Gag—and at the C-terminus by the reverse transcriptase [1,2,3]
Covariance analysis using the OMES algorithm of these sequences revealed a set of covariances that formed a single, fully connected network with huband-spoke typology consisting of 83 pairs in 39 nodes (Fig 1B)
Summary
The human immunodeficiency virus 1 (HIV-1) protease (PR) is initially synthesized as part of the Gag-Pol polyprotein precursor in the infected cell. The PR domain while embedded in the Gag-Pol polyprotein has proteolysis activity that is essential and sufficient for processing of the Gag-Pol precursor to release the free, fully active mature PR. This process is generally referred to as precursor autoprocessing, the underlying molecular mechanism remains poorly defined [2,4,5]. The mature PR recognizes and processes multiple sites in the Gag and Gag-Pol polyproteins at different rates and is essential for the production of infectious virions [8,9,10,11]
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