Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As an extension of our earlier work based upon a single penicillin-derived thiazolidine moiety we have found that the decahydroisoquinoline grouping, also present in Ro 31-8959, is an effective replacement for one of the thiazolidine units in C2 symmetric penicillin-derived dimers. Reaction of racemic epoxide 6 with [3S-[3 alpha, 4a alpha, 8a alpha]]-decahydro-N-(1,1-dimethylethyl)-3- isoquinolinecarboxamide gave diasteroisomers 34a and 34b. The stereochemistry of the hydroxyl grouping of 34a was determined to be (S). Reaction of the amines derived from 34a and 34b with thiazolidine 8a gave 50 and 51, respectively. Compound 50 was a potent inhibitor of HIV proteinase (IC50 = 23 nM) with antiviral activity against HIV-1 in vitro (EC50 C8166 cells = 50 nM). However, a poor pharmacokinetic profile in the dog for compound 50 and its analogues, in keeping with earlier studies on penicillin-derived dimers in three species, precluded their development as potential antivirals.
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PMID:Synthesis and structure-activity relationships of a series of penicillin-derived HIV proteinase inhibitors: heterocyclic ring systems containing P1' and P2' substituents. 796 31

The proteolytic processing sites of the human immunodeficiency virus type 1 (HIV-1) Gag precursor are cleaved in a sequential manner by the viral protease. We investigated the factors that regulate sequential processing. When full-length Gag protein was digested with recombinant HIV-1 protease in vitro, four of the five major processing sites in Gag were cleaved at rates that differ by as much as 400-fold. Three of these four processing sites were cleaved independently of the others. The CA/p2 site, however, was cleaved approximately 20-fold faster when the adjacent downstream p2/NC site was blocked from cleavage or when the p2 domain of Gag was deleted. These results suggest that the presence of a C-terminal p2 tail on processing intermediates slows cleavage at the upstream CA/p2 site. We also found that lower pH selectively accelerated cleavage of the CA/p2 processing site in the full-length precursor and as a peptide primarily by a sequence-based mechanism rather than by a change in protein conformation. Deletion of the p2 domain of Gag results in released virions that are less infectious despite the presence of the processed final products of Gag. These findings suggest that the p2 domain of HIV-1 Gag regulates the rate of cleavage at the CA/p2 processing site during sequential processing in vitro and in infected cells and that p2 may function in the proper assembly of virions.
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PMID:The p2 domain of human immunodeficiency virus type 1 Gag regulates sequential proteolytic processing and is required to produce fully infectious virions. 796 91

Systematic replacement of the P4-P2 subsites of substrate-based human immunodeficiency virus type 1 protease (HIV-1 PR) inhibitors containing cyclohexylalanylalanine hydroxyethylene dipeptide isostere (Cha-psi [H.E.]-Ala) at positions corresponding to the scissile sites of substrates was carried out. The structure-activity relationship revealed that compounds with the combination of hydrophilic P3 and beta-branched hydrophobic P2 amino acids generally showed strong inhibitory activity against HIV-1 PR. In particular, compounds 4 (Boc-Orn-Val-Cha-psi [H.E.]-Ala-NHBun; Bu(n) = n-butyl, Ki = 11 nM) and 6 (Z-Orn-Val-Cha-psi [H.E.]-Ala-NHBun, Ki = 8 nM) exhibited good enzyme selectivity, possessing no significant inhibitory activities toward closely related aspartic proteases, pepsin, cathepsin D, and renin. As a possible model system for (anti-Mo-MSV/MLV complex (Mo-MSV = Moloney murine sarcoma virus; MLV = murine leukemia virus)) activity was investigated. Both compounds were found to inhibit moderately the focus formation of Mo-MSV/MLV complex in NIH3T3 cells (compound 4, IC50 = 1.8 microM; compound 6, IC50 = 1.0 microM).
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PMID:Studies of human immunodeficiency virus type 1 (HIV-1) protease inhibitors. III. Structure-activity relationship of HIV-1 protease inhibitors containing cyclohexylalanylalanine hydroxyethylene dipeptide isostere. 800 98

HIV-1, the causative agent of AIDS, encodes a protease that processes the viral polyproteins into the structural proteins and replicative enzymes found in mature virions. Protease activity has been shown to be essential for the proper assembly and maturation of fully infectious HIV-1. Thus, the HIV-1 protease (HIV PR) has become an important target for the design of antiviral agents for AIDS. Analysis of the three-dimensional structures of related aspartic proteinases, and later of Rous sarcoma virus protease, indicated that the active site and extended substrate binding cleft exhibits two-fold (C2) symmetry at the atomic level. We therefore set out to test whether compounds that contained a C2 axis of symmetry, and that were structurally complementary to the active site region, could be potent and selective inhibitors of HIV PR. Two novel classes of C2 or pseudo-C2 symmetric inhibitors were designed, synthesized and shown to display potent inhibitory activity towards HIV PR, and one of these, A-77003, recently entered clinical trials. The structure of the complex with A-74704 was solved using X-ray crystallographic methods and revealed a highly symmetric mode of binding, confirming our initial design principles. These studies demonstrate that relatively simple symmetry considerations can give rise to novel compound designs, allowing access to imaginative new templates for synthesis that can be translated into experimental therapeutic agents.
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PMID:Structure-based design of symmetric inhibitors of HIV-1 protease. 803 50

Site-directed mutagenesis of autolysis sites in the human immunodeficiency virus type 1 (HIV-1) protease was applied in an analysis of enzyme specificity; the protease served, therefore, as both enzyme and substrate in this study. Inspection of natural substrates of all retroviral proteases revealed the absence of beta-branched amino acids at the P1 site and of Lys anywhere from P2 through P2'. Accordingly, several mutants of the HIV-1 protease were engineered in which these excluded amino acids were substituted at their respective P positions at the three major sites of autolysis in the wild-type protease (Leu5-Trp6, Leu33-Glu34, and Leu63-Ile64), and the mutant enzymes were evaluated in terms of their resistance to autodegradation. All of the mutant HIV-1 proteases, expressed as inclusion bodies in Escherichia coli, were enzymatically active after refolding, and all showed greatly diminished rates of cleavage at the altered autolysis sites. Some, however, were not viable enzymatically because of poor physical characteristics. This was the case for mutants having Lys replacements of Glu residues at P2' and for another in which all three P1 leucines were replaced by Ile. However, one of the mutant proteases, Q7K/L33I/L63I, was highly resistant to autolysis, while retaining the physical properties, specificity, and susceptibility to inhibition of the wild-type enzyme. Q7K/L33I/L63I should find useful application as a stable surrogate of the HIV-1 protease. Overall, our results can be interpreted relative to a model in which the active HIV-1 protease dimer is in equilibrium with monomeric, disordered species which serve as the substrates for autolysis.
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PMID:The HIV-1 protease as enzyme and substrate: mutagenesis of autolysis sites and generation of a stable mutant with retained kinetic properties. 806 16

A C2 symmetry-based HIV protease inhibitor, A77003, exerts potent antiviral activity against a wide spectrum of HIV isolates in vitro. In this study, we asked whether A77003 could cause irreversible conformational changes to HIV-1, whether the amounts of viral RNA and p24 capsid protein per virion were altered, and how the infectivity of the virus produced in the presence of the drug was affected. We found that the number of viral particles and per-virion viral RNA content of the virus produced in the presence of A77003 did not significantly differ from those of the virus produced in the absence of the drug, whereas significant morphological changes were observed as assessed by transmission electron microscopy. However, the virus produced in the presence of A77003 contained substantially less p24gag protein per virion particle as compared to those produced in the absence of the drug or in the presence of AZT. Virions produced in the presence of A77003 showed up to 50-fold less infectious capability in subsequent tissue culture than control virions produced in the absence of drug or in the presence of AZT. This reduction in infectivity was maintained for at least 10 days in culture. The present data suggest that A77003 impairs HIV-1 protease-mediated Gag processing, interferes with the assembly and maturation of the virus, and leads to an irreversible loss of the infectivity of the virus, although a low but positive level of reversion to infectivity during the 10-day assay occurs. These features of A77003 (and perhaps similar HIV protease inhibitors as well) anti-HIV activity should represent desirable properties for antiviral therapy of AIDS and related diseases.
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PMID:A C2 symmetry-based HIV protease inhibitor, A77003, irreversibly inhibits infectivity of HIV-1 in vitro. 807 36

The protease of the human immunodeficiency virus type 1 (HIV-1) is essential for the processing of GAG and POL polyproteins and maturation of the virus particles. Using recombinant protease and a truncated GAG polyprotein as substrate, we developed a Western blot assay for the evaluation of inhibitors of the enzyme. Two statine-based inhibitors of the enzyme, KH161 and KH164, were effective in blocking the replication of HIV-1 in acutely infected human T4 lymphoid cells, with potency approaching that of zidovudine (ZDV) when tested in parallel. In chronically infected cells, the production of infectious virus was inhibited by KH161 and KH164, while ZDV was ineffective. Both KH161 and KH164 were also active as antivirals against the replication of murine leukemia virus (MLV) in cultured mouse cells. In an animal model of a murine retroviral disease, KH164 was shown to inhibit in a dose-dependent manner the progression of the disease induced by Friend virus complex (a mixture of Friend MLV and spleen focus-forming virus). The results suggest that the progression of the acquired immune deficiency syndrome (AIDS) may be impeded by inhibitors of HIV-1 protease.
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PMID:Impeded progression of Friend disease in mice by an inhibitor of retroviral proteases. 809 63

The human immunodeficiency virus type 1 (HIV-1) protease is a homodimeric aspartyl endopeptidase that is required for virus replication. A number of specific, active-site inhibitors for this enzyme have been described. Many of the inhibitors exhibit significant differences in activity against the HIV-1 and HIV type 2 (HIV-2) enzymes. An initial study was conducted to ascertain the HIV-1 protease's potential to lose sensitivity to several test inhibitors while retaining full enzymatic activity. The substrate binding sites of the HIV-1 and HIV-2 enzymes are almost fully conserved, except for four amino acid residues at positions 32, 47, 76, and 82. Accordingly, recombinant mutant type 1 proteases were constructed that contained the cognate type 2 residue at each of these four positions. The substitution at position 32 resulted in a significant adverse effect on inhibitor potency. However, this substitution also mediated a noted increase in the Km of the substrate. Individual substitutions at the remaining three positions, as well as a combination of all four substitutions, had very little effect on enzyme activity or inhibitor susceptibility. Hence, the four studied active site residues are insufficient to be responsible for differences in inhibitor sensitivity between the HIV-1 and HIV-2 proteases and are unlikely to contribute to the generation of inhibitor-resistant mutant HIV-1 protease.
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PMID:Human immunodeficiency virus type 1 protease inhibitors: evaluation of resistance engendered by amino acid substitutions in the enzyme's substrate binding site. 811 57

The proteases expressed by the HIV-1 and HIV-2 viruses process the polyproteins encoded by the viral genomes into the mature proteins required for virion replication and assembly. Eight analogs of haloperidol have been synthesized that cause time-dependent inactivation of the HIV-1 protease and, in six cases, HIV-2 protease. The IC50 values for the analogues are comparable to that of haloperidol itself. Enzyme inactivation is due to the presence of an epoxide in two of the analogues and carbonyl-conjugated double or triple bonds in the others. Irreversible inactivation is confirmed by the failure to recover activity when one of the inhibitors is removed from the medium. At pH 8.0, the agents inactivate the HIV-1 protease 4-80 times more rapidly than the HIV-2 protease. Faster inactivation of the HIV-1 protease is consistent with alkylation of cysteine residues because the HIV-1 protease has four such residues whereas the HIV-2 protease has none. Inactivation of the HIV-2 protease requires modification of non-cysteine residues. The similarities in the rates of inactivation of the HIV-2 protease by six agents that have intrinsically different reactivities toward nucleophiles suggest that the rate-limiting step in the inactivation process is not the alkylation reaction itself. At least five of the agents inhibit polyprotein processing in an ex vivo cell assay system, but they are also toxic to the cells.
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PMID:Haloperidol-based irreversible inhibitors of the HIV-1 and HIV-2 proteases. 812 7

The irreversible inhibition of human immunodeficiency virus type 1 (HIV-1) and type 2 (HIV-2) proteases by 1,2-epoxy-3-(p-nitrophenoxy)propane (EPNP) and eight haloperidol derivatives has been studied. EPNP specifically inhibits HIV-1 and HIV-2 proteases with a stoichiometry of one EPNP molecule/dimeric enzyme. The site of modification of HIV-2 protease by EPNP has been unambiguously identified as Asp-25 using high performance tandem mass spectrometry. The haloperidol derivatives assayed consist of epoxides, ynones, and alpha,beta-unsaturated ketones. The Kinact values for these haloperidol derivatives range from 10.7 to 521 microM for HIV-1 protease and from 8.6 to 283 microM for the HIV-2 enzyme, being in some cases approximately 1000-fold more potent irreverisble inhibitors of HIV proteases than EPNP. This potency results from the haloperidol character of the compounds and the chemical reactivity of the groups capable of forming a covalent bond with the enzyme. Covalent modification of HIV-2 protease by a radiolabeled epoxide derivative of haloperidol, UCSF 84, is prevented by EPNP and the peptidomimetic transition state analog U-85548. In similar experiments, incorporation of UCSF 84 into HIV-1 protease is partially prevented by these active-site inhibitors. In contrast, a mutant HIV-1 protease, HIV-1 PR C95M, in which Cys-95 has been replaced by Met, is labeled 50% less than HIV-1 protease and is fully protected by EPNP and U-85548. These results indicate the presence of 2 reactive residues in HIV-1 protease: Cys-95 and another located in the active site of the enzyme. The alpha,beta-unsaturated ketone derivative of haloperidol, UCSF 191, which is stable over a broad pH range, was used to study the pH profile of inactivation of HIV-1 and HIV-2 proteases. Comparison of the profiles of inactivation of wild-type HIV-1 protease, HIV-1 PR C95M, and HIV-1 PR C67L as well as HIV-2 protease (which has no cysteine residues) reveals the contribution of Cys-95 to the reactivity of these irreversible inhibitors. The inhibitors UCSF 70, UCSF 84, UCSF 115, UCSF 142, and UCSF 191 reduce p55gag polyprotein processing when assayed in a mammalian cell line that produces HIV-1 viral particles lacking the envelope.
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PMID:In vitro characterization of nonpeptide irreversible inhibitors of HIV proteases. 814 59


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