Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.23.16 (HIV-1 protease)
2,107 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It is unclear whether proteolytic processing of the human immunodeficiency virus type 1 (HIV-1) Gag protein is dependent on virus assembly at the plasma membrane. Mutations that prevent myristylation of HIV-1 Gag proteins have been shown to block virus assembly and release from the plasma membrane of COS cells but do not prevent processing of Gag proteins. In contrast, in HeLa cells similar mutations abolished processing of Gag proteins as well as virus production. We have now addressed this issue with CD4(+) T cells, which are natural target cells of HIV-1. In these cells, myristylation of Gag proteins was required for proteolytic processing of Gag proteins and production of extracellular viral particles. This result was not due to a lack of expression of the viral protease in the form of a Gag-Pol precursor or a lack of interaction between unmyristylated Gag and Gag-Pol precursors. The processing defect of unmyristylated Gag was partially rescued ex vivo by coexpression with wild-type myristylated Gag proteins in HeLa cells. The cell type-dependent processing of HIV-1 Gag precursors was also observed when another part of the plasma membrane binding signal, a polybasic region in the matrix protein, was mutated. The processing of unmyristylated Gag precursors was inhibited in COS cells by HIV-1 protease inhibitors. Altogether, our findings demonstrate that the processing of HIV-1 Gag precursors in CD4(+) T cells occurs normally at the plasma membrane during viral morphogenesis. The intracellular environment of COS cells presumably allows activation of the viral protease and proteolytic processing of HIV-1 Gag proteins in the absence of plasma membrane binding.
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PMID:A bipartite membrane-binding signal in the human immunodeficiency virus type 1 matrix protein is required for the proteolytic processing of Gag precursors in a cell type-dependent manner. 976 51

Previously it was demonstrated using a model precursor that processing at the N terminus of the HIV-1 protease (PR) precedes processing at its C terminus. We now show the expression, purification, and kinetics of the autoprocessing reaction of a PR precursor linked to 53 amino acids of the native flanking transframe region (DeltaTFP-p6(pol)) of Gag-Pol and containing its two native cleavage sites. The PR contains the two cysteine residues exchanged to alanines, mutations that do not alter the kinetics or the structural stability of the mature PR. DeltaTFP-p6(pol)-PR, which encompasses the known PR inhibitor sequence Glu-Asp-Leu within DeltaTFP, undergoes cleavage at the DeltaTFP/p6(pol) and p6(pol)/PR sites in two consecutive steps to produce the mature PR. Both DeltaTFP-p6(pol)-PR and p6(pol)-PR exhibit low intrinsic enzymatic activity. The appearance of the mature PR is accompanied by a large increase in catalytic activity. It follows first-order kinetics in protein concentration with a rate constant of 0.13 +/- 0.01 min(-1) in 0.1 M acetate at pH 4.8. The pH-rate profile for the observed first-order rate constant is bell-shaped with two ionizable groups of pK(a) 4.9 and 5.1. The rate constant also exhibits approximately 7-fold higher sensitivity to urea denaturation as compared with that of the mature PR, suggesting that the cleavage at the N terminus of the PR domain from the precursor leads to the stabilization of the dimeric structure.
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PMID:Proteolytic processing of HIV-1 protease precursor, kinetics and mechanism. 1043 21

In the Gag-Pol polyprotein of HIV-1, the 99-amino acid protease is flanked at its N-terminus by a transframe region (TFR) composed of the transframe octapeptide (TFP) and 48 amino acids of the p6pol, separated by a protease cleavage site. The intact precursor (TFP-p6pol-PR) has very low dimer stability relative to that of the mature enzyme and exhibits negligible levels of stable tertiary structure. Thus, the TFR functions by destabilizing the native structure, unlike proregions found in zymogen forms of monomeric aspartic proteases. Cleavage at the p6pol-PR site to release a free N-terminus of protease is concomitant with the appearance of enzymatic activity and formation of a stable tertiary structure that is characteristic of the mature protease as demonstrated by nuclear magnetic resonance. The release of the mature protease from the precursor can either occur in two steps at pH values of 4 to 6 or in a single step above pH 6. The mature protease forms a dimer through a four-stranded beta-sheet at the interface. Residues 1-4 of the mature protease from each subunit constitute the outer strands of the beta-sheet, and are essential for maintaining the stability of the free protease but are not a prerequisite for the formation of tertiary structure and catalytic activity. Our experimental results provide the basis for the model proposed here for the regulation of the HIV-1 protease in the viral replication cycle.
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PMID:Autoprocessing of HIV-1 protease is tightly coupled to protein folding. 1046

Existing experimental as well as computational screening methods select potential ligands or drug candidates on the basis of binding affinity. Since the binding affinity is a function of the enthalpy (DeltaH) and entropy (DeltaS) changes, it is apparent that improved binding can be achieved in different ways: by optimizing DeltaH, DeltaS, or a combination of both. However, the behavior of enthalpically or entropically optimized inhibitors is fundamentally different, including their response to mutations that may elicit drug resistance. In the design of HIV-1 protease inhibitors, high binding affinity has usually been achieved by preshaping lead compounds to the geometry of the binding site and by incorporating a high degree of hydrophobicity. The thermodynamic consequence of that approach is that the binding affinity of the resulting inhibitors becomes entropically favorable but enthalpically unfavorable. Specifically, the resulting high binding affinity is due to an increased solvation entropy (hydrophobic effect) combined with a reduced loss of conformational entropy of the inhibitor upon binding (structural rigidity). Here we report that tripeptide inhibitors derived from the transframe region of Gag-Pol (Glu-Asp-Leu and Glu-Asp-Phe) bind to the HIV-1 protease with a favorable enthalpy change. This behavior is qualitatively different from that of known inhibitors and points to new strategies for inhibitor design. Since the binding affinities of enthalpically favorable and enthalpically unfavorable inhibitors have opposite temperature dependence, it is possible to design fast screening protocols that simultaneously select inhibitors on the basis of affinity and enthalpy.
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PMID:HIV-1 protease inhibitors: enthalpic versus entropic optimization of the binding affinity. 1069 85

Human immunodeficiency virus type 1 (HIV-1) produces two polyproteins, Pr55(Gag) and Pr160(Gag-Pol), that are cleaved into mature functional subunits by the virally encoded protease. Drugs that inhibit this protease are an important part of anti-HIV therapy. We studied the ordered accumulation of Gag and Gag-Pol processing intermediates by variably blocking the protease with HIV-1 protease inhibitors (PIs). Variable protease inhibition caused accumulation of a complex pattern of processing intermediates, which was the same after incubating HIV-1-infected cells with increasing concentrations of either one of the peptidomimetic inhibitors indinavir, saquinavir (SQV), ritonavir (RTV), nelfinavir, and SC-52151 or one of the nonpeptidomimetic inhibitors DMP450, DMP323, PNU-140135, and PNU-109112 for 3 days. The patterns of Gag and Gag-Pol processing intermediate accumulation were nearly identical when the following were compared: cell- versus virion-associated proteins, HIV-1-infected transformed cell lines versus primary human peripheral blood mononuclear cells (PBMCs) and HIV-1(MN) versus HIV-1(IIIB) virus strains. RTV was a more potent inhibitor of p24 production in PBMCs than SQV by approximately 7-fold, whereas SQV was a more potent inhibitor in transformed cells than RTV by approximately 30-fold. Although the antiretroviral potency of HIV-1 PIs may change as a function of cell type, the polyprotein intermediates that accumulate with increasing drug concentrations are the same. These results support sequential processing of Gag and Gag-Pol polyproteins by the HIV-1 protease and may have important implications for understanding common cross-resistance pathways.
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PMID:Comparison of human immunodeficiency virus type 1 Pr55(Gag) and Pr160(Gag-pol) processing intermediates that accumulate in primary and transformed cells treated with peptidic and nonpeptidic protease inhibitors. 1077 Jul 90

The processing of precursor proteins (Gag and Gag-pol) by the viral protease is absolutely required in order to generate infectious particles. This prompted us to consider novel strategies that target viral maturation. Towards this end, we have engineered an HIV-1 virion associated protein, Vpr, to contain protease cleavage signal sequences from Gag and Gag-pol precursor proteins. We previously reported that virus particles derived from HIV-1 proviral DNA, encoding chimeric Vpr, showed a lack of infectivity, depending on the fusion partner. As an extension of that work, the potential of chimeric Vpr as a substrate for HIV-1 protease was tested utilizing an epitope-based assay. Chimeric Vpr molecules were modified such that the Flag epitope is removed following cleavage, thus allowing us to determine the efficiency of protease cleavage. Following incubation with the protease, the resultant products were analyzed by radioimmunoprecipitation using antibodies directed against the Flag epitope. Densitometric analysis of the autoradiograms showed processing to be both rapid and specific. Further, the analysis of virus particles containing chimeric Vpr by immunoblot showed reactivities to antibodies against the Flag epitope similar to the data observed in vitro. These results suggest that the pseudosubstrate approach may provide another avenue for developing antiviral agents.
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PMID:Antiviral agent based on the non-structural protein targeting the maturation process of HIV-1: expression and susceptibility of chimeric Vpr as a substrate for cleavage by HIV-1 protease. 1087 54

A full-length and C-terminally truncated version of human endogenous retrovirus (HERV)-K10 protease were expressed in Escherichia coli and purified to homogeneity. Both versions of the protease efficiently processed HERV-K10 Gag polyprotein substrate. HERV-K10 Gag was also cleaved by human immunodeficiency virus, type 1 (HIV-1) protease, although at different sites. To identify compounds that could inhibit protein processing dependent on the HERV-K10 protease, a series of cyclic ureas that had previously been shown to inhibit HIV-1 protease was tested. Several symmetric bisamides acted as very potent inhibitors of both the truncated and full-length form of HERV-K10 protease, in subnanomolar or nanomolar range, respectively. One of the cyclic ureas, SD146, can inhibit the processing of in vitro translated HERV-K10 Gag polyprotein substrate by HERV-K10 protease. In addition, in virus-like particles isolated from the teratocarcinoma cell line NCCIT, there is significant accumulation of Gag and Gag-Pol precursors upon treatment with SD146, suggesting the compound efficiently blocks HERV-K Gag processing in cells. This is the first report of an inhibitor able to block cell-associated processing of Gag polypeptides of an endogenous retrovirus.
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PMID:Inhibition of human endogenous retrovirus-K10 protease in cell-free and cell-based assays. 1127 33

Performance of the Ludi (Insight II--MSI, ver. 98.0) program for computer-aided Ligand Design was tested using four crystallographic complexes of inhibitors with the HIV-1 protease. Possibility of reconstruction of the side chains and the peptide bond of the inhibitors, as well as attempt to construct de novo the central parts of these inhibitors, starting from the native structure of the enzyme, was studied. Results points that Ludi, although helpful, is merely initial tool for computer aided drug design. Moreover, some improvement of the program code is needed.
Acta Pol Pharm 2000 Nov
PMID:Ligand design package (Ludi--MSI) applied to known inhibitors of the HIV-1 protease. Test of performance. 1129 55

HIV-derived vectors are of potential clinical relevance due to their ability to transduce nondividing cells in vitro and in vivo. However, the generation of cell lines stably and reproducibly expressing high amounts of defined subviral particles, capable of packaging and transducing HIV-derived vectors, has been hampered by the cytotoxicity of some of the required gene products, in particular of the HIV-1 protease. The successful use of regulatable gene expression systems to overcome this problem requires that the remaining basally expressed gene product activity is below the threshold for cytotoxicity. To try to achieve this, we have consecutively introduced appropriate plasmids, encoding HIV rev and HIV gag/pol gene products, each under the control of separate ecdysone-inducible promoters, into human 293 cells. Using a protocol in which a specific HIV protease inhibitor, Saquinavir, was continuously present in the culture medium during selection, we could generate stable cell lines inducibly expressing high amounts of subviral particles. A cell line, termed 293-Rev/Gag/Pol(i), which has been characterized in more detail, inducibly releases, within 48 h postinduction, high amounts of HIV Gag/Pol particles (about 10 microg CA/ml). These HIV Gag/Pol particles can package and transduce third-generation HIV vectors to high titers. Thus, in addition to other applications, the 293-Rev/Gag/Pol(i) cell line represents a "founder" packaging cell line which, depending on the requirement, can be further modified to include specific transgene-encoding vector and targeting glycoprotein genes.
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PMID:Generation of a flexible cell line with regulatable, high-level expression of HIV Gag/Pol particles capable of packaging HIV-derived vectors. 1131 23

Emergence of drug-resistant mutants of HIV-1 protease is an ongoing problem in the fight against AIDS. The mechanisms governing resistance are both complex and varied. We have determined crystal structures of HIV-1 protease mutants, D30N, K45I, N88D, and L90M complexed with peptide inhibitor analogues of CA-p2 and p2-NC cleavage sites in the Gag-pol precursor in order to study the structural mechanisms underlying resistance. The structures were determined at 1.55-1.9-A resolution and compared with the wild-type structure. The conformational disorder seen for most of the hydrophobic side-chains around the inhibitor binding site indicates flexibility of binding. Eight water molecules are conserved in all 9 structures; their location suggests that they are important for catalysis as well as structural stability. Structural differences among the mutants were analyzed in relation to the observed changes in protease activity and stability. Mutant L90M shows steric contacts with the catalytic Asp25 that could destabilize the catalytic loop at the dimer interface, leading to its observed decreased dimer stability and activity. Mutant K45I reduces the mobility of the flap and the inhibitor and contributes to an enhancement in structural stability and activity. The side-chain variations at residue 30 relative to wild-type are the largest in D30N and the changes are consistent with the altered activity observed with peptide substrates. Polar interactions in D30N are maintained, in agreement with the observed urea sensitivity. The side-chains of D30N and N88D are linked through a water molecule suggesting correlated changes at the two sites, as seen with clinical inhibitors. Structural changes seen in N88D are small; however, water molecules that mediate interactions between Asn88 and Thr74/Thr31/Asp30 in other complexes are missing in N88D.
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PMID:Structural implications of drug-resistant mutants of HIV-1 protease: high-resolution crystal structures of the mutant protease/substrate analogue complexes. 1134 Jun 61


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