EC:2.7.7.49 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Based on the sequence-coupled (Markov chain) model and vector-projection principle, a discriminant function method is proposed to predict sites in protein substrates that should be susceptible to cleavage by the HIV-1 protease. The discriminant function is defined by delta = phi+ - phi-, where phi+ and phi- are the cleavable and noncleavable attributes for a given peptide, and they can be derived from two complementary sets of peptides, S+ and S-, known to be cleavable and noncleavable, respectively, by the enzyme. The rate of correct prediction by the method for the 62 cleavable peptides and 239 noncleavable peptides in the training set are 100 and 96.7%, respectively. Application of the method to the 55 sequences which are outside the training set and known to be cleaved by the HIV-1 protease accurately predicted 100% of the peptides as substrates of the enzyme. The method also predicted all but one of the sites hydrolyzed by the protease in native HIV-1 and HIV-2 reverse transcriptases, where the HIV-1 protease discriminates between nearly identical sequences in a very subtle fashion. Finally, the algorithm predicts correctly all of the HIV-1 protease processing sites in the native gag and gag/pol HIV-1 polyproteins, and all of the cleavage sites identified in denatured protease and reverse transcriptase. The new predictive algorithm provides a novel route toward understanding the specificity of this important therapeutic target.
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PMID:Predicting human immunodeficiency virus protease cleavage sites in proteins by a discriminant function method. 862 33

Recently we demonstrated that the p58 subunit of p68/p58 HIV-2 reverse transcriptase (RT) heterodimer, produced by processing of p68/p68 homodimer with recombinant HIV-2 protease, terminates at Met484 [Fan, N., et al. (1995) J. Biol. Chem. 270, 13573-13579]. Here we describe purification and characterization of the p68/p58 heterodimer of recombinant HIV-2 RT. It exhibited both RT and RNase H activities, obeyed Michaelis-Menten kinetics, and was competitively inhibited by the DNA chain terminator ddTTP (Ki[app] = 305 +/- 20 nM). The HIV-2 RT-associated RNase H exhibited a marked preference for RNA hydrolysis from a HIV-1 gag-based heteropolymeric RNA/DNA hybrid in the presence of either Mg2+ or Mn2+, compared to the [3H]poly(rA).poly(dT) or [3H]poly(rG).poly(dC) homopolymeric substrates. Relative to HIV-1 RT, the RNase H activity of HIV-2 RT was only 5% toward the [3H]poly(rA).poly(dT) in the presence of Mg2+. The size distribution of products generated from [3H]poly(rA).poly(dT) by HIV-2 RT-associated RNase H was markedly distinct from that of HIV-1 RT in the presence of Mg2+ or Mn2+. The p68/p58 HIV-2 RT heterodimer, produced by specific cleavage using HIV-2 protease, should be useful for inhibition and biophysical studies aimed at discovering and designing drugs directed toward HIV-2.
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PMID:Characterization of the p68/p58 heterodimer of human immunodeficiency virus type 2 reverse transcriptase. 863 74

A series of omega-undecanoic amides of lup-20(29)-en-28-oic acid derivatives were synthesized and evaluated for activity in CEM 4 and MT-4 cell cultures against human immunodeficiency virus type 1 (HIV-1) strain IIIB/LAI. The potent HIV inhibitors which emerged, compounds 5a, 16a, and 17b, were all derivatives of betulinic acid (3beta-hydroxylup-20(29)-en-28-oic acid). No activity was found against HIV-2 strain ROD. Compound 5a showed no inhibition of HIV-1 reverse transcriptase activity with poly(C).oligo(dG) as template/primer, nor did it inhibit HIV-1 protease. Additional mechanistic studies revealed that this class of compounds interfere with HIV-1 entry in the cells at a postbinding step.
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PMID:Betulinic acid derivatives: a new class of human immunodeficiency virus type 1 specific inhibitors with a new mode of action. 867 41

A novel series of omega-aminoalkanoic acid derivatives of betulinic acid were synthesized and evaluated for their activity against human immunodeficiency virus (HIV). The anti-HIV-1 activity of several members of this new series was found to be in the nanomolar range in CEM 4 and MT-4 cell cultures. The optimization of the omega-aminoalkanoic acid side chain is described. The presence of an amide function within the side chain was found important for optimal activity. RPR 103611 (14g), a statine derivative, was found to be inactive against HIV-1 protease, reverse transcriptase, and integrase as well as on gp120/CD4 binding. "Time of addition" experiments suggested interaction with an early step of HIV-1 replication. As syncytium formation, but not virus-cell binding, seems to be affected, betulinic acid derivatives are assumed to interact with the postbinding virus-cell fusion process.
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PMID:Betulinic acid derivatives: a new class of specific inhibitors of human immunodeficiency virus type 1 entry. 867 42

141W94 (VX-478) is a novel HIV-1 protease inhibitor with an IC50 of 0.08 microM against HIV-1 (strain IIIB) and a mean IC50 of 0.012 microM against six HIV clinical isolates. 141W94 was synergistic on the basis of isobologram analysis with each of the following reverse transcriptase inhibitors: AZT, 935U83, 524W91, 1592U89 and ddl, 141W94 was also synergistic with saquinavir and additive with either indinavir or ritonavir. Resistance to 141W94 has been reported in vitro passage experiments. The binding of 141W94 to human alpha 1-acid glycoprotein was relatively weak (Kd = 4 microM) and the off-rate for the drug is very fast (> or = 100 s-1). Only a 2-fold reduction of in vitro antiviral activity was observed in the presence of 45% human plasma. No serious drug associated adverse experiences were reported in a Phase I placebo-controlled, single-dose escalation, pharmacokinetic and safety study. The average concentration of 141W94 at 8 and 12 h after single doses of 900 and 1200 mg, respectively, was in excess of 10 times the IC50. As 141W94 is synergistic with a variety of anti-HIV-1 agents and exhibits a unique cross resistance profile compared to other protease inhibitors, 141W94 is considered a good candidate for combination therapy.
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PMID:In vitro antiviral activity of 141W94 (VX-478) in combination with other antiretroviral agents. 872 45

The HIV-1 genome encodes a protease that is required for viral processing of the precursor polyproteins Pr55gag and Pr160gag-pol. Interference with this process in human lymphocytes inhibits production of infectious virus. We tested the ability of several protease inhibitors to decrease replication of HIV-1BaL in human monocytes and peritoneal macrophages. The compounds tested are oligopeptide analogs of HIV-1 protease substrates in which the scissile dipeptide has been replaced by a hydroxyethylene isostere. The protease inhibitors were added only once, 1 hr prior to inoculation with virus. Every 3-5 days, half the medium was replaced with fresh medium. Inhibition of virus production was assessed by measuring reverse transcriptase (RT) activity in supernatant medium 14 days after infection. The concentration of drug required to inhibit infection by 50% (IC50) in monocytes ranged from 0.17 to 2.99 microM; IC50 values for peritoneal macrophages ranged from 0.21 to 1.9 microM. The IC50 values for these compounds were 1.1- to 10-fold higher when tested in monocytes compared to their inhibitory effect in lymphocytes, although still potently effective in the dosage range that appeared nontoxic to cells. Cell toxicity was seen only at concentrations greater than 10 microM, and varied among the drugs tested. Immunoblot analysis of two of the drugs (SB205700 and SB108922) confirmed inhibition of polyprotein processing. In control cells, 22% of viral protein pr55 was processed to p24 by 24 hr, and 51% was processed by 48 hr. In cells treated with the protease inhibitors (2 microM), Pr55 processing was inhibited 77% at 24 hr and 89% at 48 hr. Thus, these synthetic peptide analogs potently inhibit productive infection of mononuclear phagocytes by HIV-1. Drugs of this class may be useful for the treatment of HIV-1 infection in humans.
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PMID:Potent inhibition of HIV type 1 infection of mononuclear phagocytes by synthetic peptide analogs of HIV type 1 protease substrates. 873 29

Rationally designed synthetic inhibitors of retroviral proteases inhibit the processing of viral polypeptides in cultures of human T lymphocytes infected with human immunodeficiency virus type 1 (HIV-1) and therefore suppress the infectivity of HIV-1 in vitro. We have previously reported the antiviral activity in vitro of HIV-1 protease inhibitors against the C-type retrovirus Rauscher murine leukemia virus (RMuLV) and the lentivirus simian immunodeficiency virus (SIV). The same compounds which blocked the infectivity of HIV-1 also inhibited the infectivity of RMuLV and SIV in vitro. This report extends these findings by testing the antiviral activity of HIV-1 protease inhibitors in vivo in the RMuLV model. RMuLV-infected mice were treated twice a day (bid) with either an active (SKF 108922) or inactive (SKF 109273) compound for fourteen days by the intraperitoneal (i.p.) route. Compared with excipient control, SKF 108922, formulated with hydroxypropyl-beta-cyclodextrin (HPB), reduced virus-induced splenomegaly, viremia, and serum reverse transcriptase (RT) levels, while SKF 109273 was inactive. The HPB vehicle by itself enhanced replication of RMuLV. The effects of changing the formulation and the route of administration were examined. SKF 108922, formulated in HPB, had similar antiviral activity when administered by the i.p. or subcutaneous (SC) routes. However, SKF 108922 administered as a colloidal suspension in cholesterol sulfate (CS) had no detectable antiviral effect. Measurements of the circulating levels of the protease inhibitor in plasma explained this result. Plasma concentrations of SKF 108922 exceeded 1000 nM within 10 min after SC administration of the compound solubilized in HPB, but SKF 108922 was not detected in plasma after SC administration of the same dose formulated with CS. Information on optimal conditions for administering these agents should prove useful in guiding their clinical application Therefore, RMuLV should provide a good model for the preclinical evaluation and development of this class of agents for the treatment of HIV.
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PMID:Effects of SKF 108922, an HIV-1 protease inhibitor, on retrovirus replication in mice. 873 97

Antiretroviral chemotherapeutic agents exhibit complex immunoregulatory changes in HIV-1 infected individuals that reflect the summation of the direct effects of the agents on the immune response and indirect effects through the amelioration of viral replication. Immunological parameters are useful in the context of clinical investigation and in the management of HIV-1 infected individuals in that they serve as prognostic indicators of disease, markers of biologic activity of antiretroviral drugs, and, to a lesser extent, predictors of clinical outcome. Many questions remain in the evaluation of these parameters in the context of clinical trials and in the management of individual patients. Although it is frequently tempting to measure all available parameters in any setting, it is important to be cognizant both of cost and of the fact that many of these parameters are codependent variables (29). Most evaluations that have been undertaken to date involve nucleoside analogs, either as single agents or in combination. It is clear that CD4 cells rise in association with the initiation of non-nucleoside reverse transcriptase inhibitors and HIV-1 protease inhibitors (30-32). It is not yet clear whether the CD4 cell changes observed with these classes of drugs exhibit the same relationships with other immunologic markers or with virologic or clinical parameters. Evidence has begun to emerge that CD4 cell changes in association with HIV-1 protease inhibitor therapy may be more durable than changes in viral load as assessed by plasma HIV-1 RNA. Given the more robust antiviral potency of HIV-1 protease inhibitors alone or in combination with nucleoside analogs, it is quite likely that many of the ambiguities with respect to prior studies of immunologic markers will be resolved in that the changes observed will likely be of a much greater magnitude and duration than those seen in association with nucleoside analog monotherapy. Finally, with the advent of more potent antiviral regimens, and with the more reproducible and sensitive techniques for measuring viral replication in vivo, the cogent investigation of immunologic parameters will provide important insights into the pathogenesis of HIV-1 infection (33, 34).
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PMID:Immunomodulatory effects of antiretroviral chemotherapy. 878 19

Acute HIV-1 infection of H9 and C8166 cultures has been shown to be suppressed by certain flavonoids, and evidence for inhibition of HIV-1 protease, integrase, and reverse transcriptase by flavonoids also exists. The present aim was to determine whether flavonoids inhibit HIV-1 activation in models of latent infection. By screening flavonoids from six different classes, three structurally related compounds (chrysin, acacetin, and apigenin) were identified that inhibited HIV expression in TNF-alpha-treated OM-10.1 cultures. The three compounds had favorable potencies against HIV activation in relation to their growth inhibitory effects (therapeutic index 5-10). Chrysin also inhibited HIV expression in response to PMA in OM-10.1 cells, in ACH-2 cells stimulated with either TNF-alpha or PMA, and in 8E5 cultures. Furthermore, return to viral latency in OM-10.1 cells previously exposed to TNF-alpha occurred over a shorter time interval when chrysin was added. The inhibition of HIV activation was not dependent on preincubation with flavonoids relative to TNF, and was characterized by a lack of HIV RNA accumulation by Northern analysis. Gel-shift experiments revealed that NF-kappa B activation after TNF-alpha treatment was not inhibited by these agents, suggesting that some other critical factor(s) needed for viral transcription was being affected. These findings indicate that flavonoids inhibit HIV-1 activation via a novel mechanism, and that these agents are potential candidates for therapeutic strategies aimed at maintaining a cellular state of HIV-1 latency.
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PMID:Inhibition of HIV activation in latently infected cells by flavonoid compounds. 882 17

The enormous resources spent on developing inhibitors of the HIV proteinase is finally proving worth while. The FDA in the USA approved saquinavir (Invirase, Roche) for treatment of AIDS in December 1995, and the presumably even more useful inhibitors, ritonavir (Norvir, Abbott) and indinavir (Crixivan, Merck) in March 1996. The clinical trials indicate that these substances are more efficient antiviral agents than the well known reverse transcriptase inhibitors (e.g., AZT or ddC). In the present article, the function of the HIV proteinase will be discussed, as well as the drug design strategies leading to the success. We believe that the combination of biotechnology and computer modelling is a potent tool for designing drugs, and that these proteinase inhibitors not only signal optimism in the treatment of AIDS, but also a new era in the development of therapeutics.
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PMID:[The HIV proteinase--a target for antiviral agents]. 897 9

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