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)

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

The recognition sequences for substrate cleavage by aspartic protease of HIV-1 are diverse and cleavage specificities are controlled by complex interactions between at least six amino acids around the cleavage site. We have identified 45 efficiently cleaved peptide substrates of HIV-1 protease (PR) using substrate phage display, an approach that can elucidate both context-dependent and context-independent preferences at individual subsites of a protease substrate. Many of the selected peptides were cleaved more efficiently and had lower K(m) values than physiologically relevant substrates of HIV-1 PR. Therefore, mutations occurring in the cleavage sites of the Gag and Gag-pol polyproteins of HIV-1 could significantly lower the K(m) values to better compete against drugs for protease binding while maintaining cleavage rates necessary for viral replication. The most efficiently cleaved peptide substrate derived from these phage, Ac-GSGIF*LETSL-NH(2), was cleaved 60 times more efficiently and had a K(m) approximately 260 times lower than a nine-amino-acid peptide based on the natural reverse transcriptase/integrase cleavage site when assayed at pH 5.6, 0.2 M NaCl. The peptide substrates selected served as frameworks for synthesis of tight binding reduced amide inhibitors of HIV-1 PR. The results show that the most efficiently cleaved substrates serve as the best templates for synthesis of the tightest binding inhibitors. Thus, defining changes in substrate preferences for drug-resistant proteases may aid in the development of more efficacious inhibitors.
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PMID:Identification of efficiently cleaved substrates for HIV-1 protease using a phage display library and use in inhibitor development. 1096 81

Six boronated tetrapeptides with the carboxy moiety of phenylalanine replaced by dihydroxyboron were synthesized, and their activities against human immunodeficiency virus 1 (HIV-1) protease subsequently investigated. The sequences of these peptides were derived from HIV-1 protease substrates, which included the C-terminal part of the scissile bond (Phe-Pro) within the gag-pol polyprotein. Enzymatic studies showed that these compounds were competitive inhibitors of HIV-1 protease with K(i) values ranging from 5 to 18 microM when experiments were performed at high enzyme concentrations (above 5 x 10(-8) M); however, at low protease concentrations inhibition was due in part to an increase of the association constants of the protease subunits. Ac-Thr-Leu-Asn-PheB inhibited HIV-1 protease with a K(i) of 5 microM, whereas the non-boronated parental compound was inactive at concentrations up to 400 microM, which indicates the significance of boronation in enzyme inhibition. The boronated tetrapeptides were inhibitory to an HIV-1 protease variant that is resistant to several HIV-1 protease inhibitors. Finally, fluorescence analysis showed that the interactions between the boronated peptide Ac-Thr-Leu-Asn-PheB and HIV-1 protease resulted in a rapid decrease of fluorescence emission at 360 nm, which suggests the formation of a compound/enzyme complex. Boronated peptides may provide useful reagents for studying protease biochemistry and yield valuable information toward the development of protease dimerization inhibitors.
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PMID:Inhibition of HIV-1 protease by a boron-modified polypeptide. 1097 1

Salvage therapy with ritonavir (RTV) and saquinavir (SQV) failed to achieve virological and immunological improvement in 24 HIV-infected patients who discontinued triple therapy with RTV or indinavir (IDV) because of failure or intolerance to treatment. Changes in the HIV-1 protease gene sequence were analyzed prospectively in 14 patients. No primary protease mutation was found prior to the use of protease inhibitors. After 7 months of treatment with IDV or RTV, primary resistance mutations at codons pol 46 and/or pol 82 were observed in 11 of 13 patients. After 16 weeks on RTV-SQV, novel primary mutations related to SQV emerged in 7 of 13 patients, together with an increase in the number of secondary resistance mutations. Our observations indicate that the cumulative occurrence of resistance mutations in the protease gene was associated with failure of antiretroviral therapy. The presence of mutations to a first protease inhibitor may represent a risk factor for the failure of a subsequent treatment with a second line protease inhibitor.
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PMID:The cumulative occurrence of resistance mutations in the HIV-1 protease gene is associated with failure of salvage therapy with ritonavir and saquinavir in protease inhibitor-experienced patients. 1097 70

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

HIV-1 protease is a major drug target against AIDS as it permits viral maturation by processing the gag and pol polyproteins of the virus. The cleavage sites in these polyproteins do not have obvious sequence homology or a binding motif and the specificity of the protease is not easily determined. We used various threading approaches, together with the crystal structures of substrate complexes which served as template structures, to study the substrate specificity of HIV-1 protease with the aim of obtaining a better differentiation between binding and nonbinding sequences. The predictions from threading improved when distance-dependent interaction energy functions were used instead of contact matrices. To rank the peptides and properly account for the peptide's conformation in the total energy, the results from using short-range potentials on multiple template structures were averaged. Finally, a dynamic threading approach is introduced which is potentially useful for cases when there is only one template structure available. The conformational energy of the peptide-especially the term accounting for the side chains-was found to be important in differentiating between binding and nonbinding sequences. Hence, the substrate specificity, and thus the ability of the virus to mature, is affected by the compatibility of the substrate peptide to fit within the limited conformational space of the active site groove.
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PMID:Structure-based prediction of potential binding and nonbinding peptides to HIV-1 protease. 1288 33

HIV-1 reverse transcriptase (RT) is a heterodimer comprising a 66 kDa subunit (p66) and a p66-derived 51 kDa subunit (p51). RT is translated as part of a larger gag-pol polyprotein and subsequently processed to the p66/p51 heterodimer by HIV-1 protease (PR) during viral maturation. The processing events involved in the formation of the RT p66 and p51 subunits and the pathway(s) of RT dimer formation are poorly characterized. Attempts to study the kinetics of PR-catalyzed formation of p66/p51 HIV-1 RT in isolated HIV virions produced in the presence of HIV PR inhibitors were unsuccessful due to difficulties in removal of the tight-binding inhibitor to initiate proteolytic processing. Accordingly, an inducible bacterial expression vector encoding a 90 kDa pol polyprotein fragment was constructed. Following expression in Escherichia coli, the pol polyprotein underwent time-dependent proteolytic processing to the RT p66/p51 heterodimer. This processing was catalyzed entirely by HIV-1 PR since mutations that inactivate PR prevented RT heterodimer formation. The kinetics of RT processing follow an ordered sequential pathway in which RT p66 is first excised from the pol polyprotein, followed by formation of the p51 subunit. Processing of the p66 subunit to form p51 apparently proceeds through a p66/p66 RT homodimer intermediate since the L234A mutation in RT, a mutation that prevents RT dimerization, resulted in the formation of RT p66 only. These results provide the first experimental data defining the pathway for the HIV-1 PR catalyzed formation of the p66/p51 HIV-1 RT heterodimer.
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PMID:Proteolytic processing of an HIV-1 pol polyprotein precursor: insights into the mechanism of reverse transcriptase p66/p51 heterodimer formation. 1518 48

India has the second largest burden of HIV-1-infected persons worldwide. Access to antiretroviral drugs in India is increasing. We analyzed HIV-1 protease and reverse transcriptase sequences in 12 acute seroconverters from Pune, India, and evaluated HIV-1 evolution in these individuals over time. HIV-1 genotyping was performed with the ViroSeq HIV-1 Genotyping System. Baseline samples, collected between 1999 and 2001, had viral loads from 3,523 to 8,556,280 copies/ml. All subjects had subtype C HIV-1. None of the samples had primary drug resistance mutations. The sequence identity between baseline and 1-year samples ranged from 99.7% to 99.9%, and between baseline and 2-year samples ranged from 99.4% to 100%. Most of the nucleotide changes were silent (synonymous). Amino acid substitutions were rare, and varied from subject to subject. In this cohort, drug resistance was not observed and evolution in the pol region was very limited during the first 2 years of infection.
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PMID:Limited evolution in the HIV type 1 pol region among acute seroconverters in Pune, India. 1566 48

The development of drug-resistant viruses limits the therapeutic success of anti-HIV therapies. Some of these genetic HIV-variants display complex mutational patterns in their pol gene that codes for protease and reverse transcriptase, the most investigated molecular targets for antiretroviral therapy. In this paper, we present a computational structure-based approach to predict the resistance of a HIV-1 protease strain to amprenavir by calculating the interaction energy of the drug with HIV-1 protease. By considering the interaction energy per residue, we can identify what residue mutations contribute to drug-resistance. This approach is presented here as a structure-based tool for the prediction of resistance of HIV-1 protease toward amprenavir, with a view to use the drug-protein interaction-energy pattern in a lead-optimization procedure for the discovery of new anti-HIV drugs.
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PMID:Genotype dependent QSAR for HIV-1 protease inhibition. 1577 54

HIV-1 protease (PR) and two drug-resistant variants--PR with the V82A mutation (PR(V82A)) and PR with the I84V mutation (PR(I84V))--were studied using reduced peptide analogs of five natural cleavage sites (CA-p2, p2-NC, p6pol-PR, p1-p6 and NC-p1) to understand the structural and kinetic changes. The common drug-resistant mutations V82A and I84V alter residues forming the substrate-binding site. Eight crystal structures were refined at resolutions of 1.10-1.60 A. Differences in the PR-analog interactions depended on the peptide sequence and were consistent with the relative inhibition. Analog p6(pol)-PR formed more hydrogen bonds of P2 Asn with PR and fewer van der Waals contacts at P1' Pro compared with those formed by CA-p2 or p2-NC in PR complexes. The P3 Gly in p1-p6 provided fewer van der Waals contacts and hydrogen bonds at P2-P3 and more water-mediated interactions. PR(I84V) showed reduced van der Waals interactions with inhibitor compared with PR, which was consistent with kinetic data. The structures suggest that the binding affinity for mutants is modulated by the conformational flexibility of the substrate analogs. The complexes of PR(V82A) showed smaller shifts of the main chain atoms of Ala82 relative to PR, but more movement of the peptide analog, compared to complexes with clinical inhibitors. PR(V82A) was able to compensate for the loss of interaction with inhibitor caused by mutation, in agreement with kinetic data, but substrate analogs have more flexibility than the drugs to accommodate the structural changes caused by mutation. Hence, these structures help to explain how HIV can develop drug resistance while retaining the ability of PR to hydrolyze natural substrates.
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PMID:Molecular basis for substrate recognition and drug resistance from 1.1 to 1.6 angstroms resolution crystal structures of HIV-1 protease mutants with substrate analogs. 1621 57


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