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)

Deoxynucleoside analogs, AZT and/or ddN, are the therapeutic agents currently utilized to inhibit the human immunodeficiency virus (HIV) reverse transcriptase. The effects of their anabolic products, AZT-triphosphate (AZT-TP) and ddCTP on human cellular DNA metabolic processes were studied using highly purified, structurally and enzymatically defined forms of the two major human host DNA polymerases, alpha and beta, and compared to those of the reverse transcriptase purified from HIV viron. Human DNA polymerase alpha during processive DNA synthesis is able to incorporate AZT-monophosphate (AZT-MP) but not ddCMP into DNA, causing chain termination. During its initial encounter with a primer terminus, polymerase alpha is able to incorporate both AZT-MP and ddCMP into DNA chains. Polymerase beta is able to incorporate AZT-MP and ddCMP into DNA, causing chain termination in both modes of DNA synthesis. Steady state kinetic analyses demonstrate that polymerase alpha inserts one AZT-MP molecule into DNA for every 2500 dTMP molecules incorporated. Polymerase beta incorporates ddCMP with efficiency nearly equal to that of dCMP. HIV reverse transcriptase prefers to incorporate AZT-MP and ddCMP rather than dTMP and dCMP, respectively. The findings described here raise the concern that the capability of the two major host DNA polymerases to incorporate AZT-MP or ddCMP into DNA might cause adverse side effects on human DNA metabolism and mutation in the genomes of patients under long term continuous treatment with AZT and ddC.
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PMID:Human DNA polymerases alpha and beta are able to incorporate anti-HIV deoxynucleotides into DNA. 140 Apr 58

In studies examining potential interactions between ganciclovir (GCV) and either zidovudine (AZT) or didanosine (DDI) in H9 cells, GCV was found to consistently reduce the anti-human immunodeficiency virus type 1 potency of both AZT and DDI. In the presence of GCV, the 50% effective doses of AZT and DDI were increased three- to sixfold, depending on the molar ratio of drugs and the measure of human immunodeficiency virus type 1 replication (p24 antigen, reverse transcriptase activity, or infectious virus yield). Multiple dose-effect analysis revealed strong antagonism between GCV and either AZT or DDI (combination indices, 2.2 to 6.7). This antagonistic effect occurred at drug concentrations that were well below the cytotoxic range. At higher drug concentrations, the combination of GCV and AZT was synergistically cytotoxic (combination indices, less than 1.0), whereas GCV and DDI were only additively cytotoxic (combination indices, ca. 1.0). Thus, the combination of GCV with AZT or DDI may result in antiviral antagonism and either synergistic (AZT-GCV) or additive (DDI-GCV) cytotoxicity.
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PMID:Ganciclovir antagonizes the anti-human immunodeficiency virus type 1 activity of zidovudine and didanosine in vitro. 151 Apr 5

A comparison of the activity against human immunodeficiency virus 1 of zidovudine (AZT) and poly I poly C double-stranded RNA both alone and in combination in MT4 cells and primary monocyte/macrophage (M/M) cultures was made. The inhibition of the HIV-induced cytopathic effect or reverse transcriptase production by AZT in MT4 cells was not modified by the combination of the two agents. In contrast, AZT inhibition of reverse transcriptase production in the supernatant of M/M cultures was enhanced by the addition of poly I poly C. The inhibitory effect of the drug combination was more marked in M/M than in MT4 cells, indicating that the evaluation of compounds involving the induction of an antiviral state should be tested not only CD4+ T cells but also in monocyte-macrophages.
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PMID:Anti-human immunodeficiency virus effects of zidovudine in combination with double-stranded RNA poly I poly C in T cells and monocytes-macrophages. 152 May 35

The replication cycle of human immunodeficiency virus type 1 (HIV-1) consists of four distinct stages, each of which can be targeted for specific antiviral chemotherapy. The stages are (1) the attachment of virus to the CD4 receptor at the cell surface; (2) the uncoating of viral nucleic acid and its conversion via viral reverse transcriptase activity to DNA; (3) cellular multiplication, accompanied by the replication of integrated proviral DNA and production of viral RNA and proteins; and (4) the assembly and liberation of progeny virus from the cell and the potential reinitiation of the replication cycle in previously uninfected cells. Since each of these steps represents a potential target for anti-HIV chemotherapy, it is apparent that the rationale for the use of antiviral drugs is not dissimilar from the manner in which antineoplastic agents are targeted to specific stages in the replication cycle of tumor cells. As in the case of anticancer chemotherapy, it is hoped that combinations of drugs, which act against different steps in the viral replication cycle, might have synergistic potential. AZT or zidovudine is the most widely used drug to date to impede the replication of HIV-1; it is significant that this compound was designed initially with anticancer chemotherapy in mind. Although AZT therapy has been reasonably successful, this drug has had important toxic side effects. As in the case of many cancer chemotherapeutic agents, drug resistance to AZT is likely to be an important problem, and there have been several reports of the isolation of drug-resistant variants of HIV-1.
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PMID:Strategies in the treatment of AIDS and related diseases: the lessons of cancer chemotherapy. 155 Oct 24

HIV-1 proteinase activity is thought to occur primarily post-integration by cleaving the viral Gag and Gag-Pol polyproteins. Its role in the pre-integration stages of viral replication, however, has not been studied in detail. Here we report that a synthetic peptide analogue, UK-88,947, which is a specific inhibitor of purified HIV-1 proteinase, inhibits the processing of the viral polyproteins in cultures of HIV-1 infected cells and prevents the formation of mature, infectious virions. Analysis of DNA from HIV-1 infected cells treated with UK-88,947 showed that viral DNA synthesis was inhibited when the compound was added to cultures one hour before infection. Similar results were obtained when AZT was used. Neither HIV-1 reverse transcriptase or the replication of FIV are inhibited by UK-88,947.
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PMID:HIV-1 proteinase is required for synthesis of pro-viral DNA. 165 47

In the search for compounds active against human immunodeficiency virus (HIV), we have found that members of a novel series of tetrahydro-imidazo[4,5,1-jk][1,4]-benzodiazepine-2(1H)-one and -thione (TIBO) derivatives inhibit the replication of HIV-1, the main aetiological agent of AIDS, but not of HIV-2, or of any other DNA or RNA viruses. In five cell systems, HIV-1 is inhibited by TIBO derivatives in nanomolar amounts, which are 10(4)-10(5) times lower than the cytotoxic concentration. The unprecedented specificity of these compounds may be due to an interaction with a reverse transcriptase-associated process. By contrast, AZT (3'-azido-2',3'-dideoxythymidine), which is used for the treatment of AIDS, and DDC (2',3'-dideoxycytidine) and DDI (2',3'-dideoxyinosine), whose clinical application is being assessed, inhibit both HIV-1 and HIV-2 at concentrations that, depending on the cell systems, are 2 to 4 orders of magnitude below their cytotoxic concentration. TIBO-derivatives are new chemicals unrelated to any other antiviral agents. We believe that they are the most specific and potent inhibitors of HIV-1 replication studied so far.
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PMID:Potent and selective inhibition of HIV-1 replication in vitro by a novel series of TIBO derivatives. 168 15

As human immunodeficiency virus type 1 (HIV-1) has become better understood, numerous drugs have been developed that act at virus-specific sites. These are challenging our ability to evaluate them thoroughly and rapidly. Zidovudine (AZT) remains the mainstay of anti-HIV-1 drugs. Recent controlled trials indicate it should be used early in infection (in those with CD4 cell counts less than 500/mm3) and in lower doses (500-600 mg/day). Prolonged AZT treatment in patients with AIDS, however, is often associated with viral resistance. Newer reverse transcriptase-inhibiting nucleoside derivatives are currently in phase II-III clinical trials. Other HIV-1 replicative sites under attack in clinical studies include binding and entry of virus, envelope protein glycosylation, and viral assembly and release. Agents that target HIV-1 proteinase, integrase, ribonuclease H, and products of regulatory genes such as tat are under development. Combination therapies that target different viral replicative sites likely will allow use of individual agents below their toxic concentrations and help prevent drug resistance. Innovative programs for expanded access to experimental drugs are needed that will permit expeditious clinical trials, optimize the gathering of useful information, and permit the widest access to promising treatments.
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PMID:Chemotherapy of human immunodeficiency virus infections: current practice and future prospects. 169 Dec 43

The reverse transcriptase enzyme of HIV-1 is known to be error-prone. We were interested in the possibility of isolating a variant HIV-1 strain that might be capable of replication in the presence of AZT, thought to act by antagonizing reverse transcriptase activity. Toward this end, chronically infected H-9 cells were exposed to various concentrations of AZT for at least 500 days. No mutant has yet arisen from such cultures, which continued to produce high levels of each of the viral proteins p24, p17, gp41, and gp51/66 in the presence of the drug. Notwithstanding such expression of viral antigens, culture fluids from these various AZT-treated cultures were not capable of infecting otherwise susceptible target cells. Electron microscopic observations of AZT-treated chronically infected H-9 cells indicated a lower production of viral structures, in comparison with control cultures. Furthermore, those particles seen at the plasma membrane of AZT-treated cells often appeared to be envelope-deficient. These data suggest that AZT may be able to interfere in some way with proper assembly and/or packaging of infectious progeny HIV-1 at the cell membrane, although other modes of action for a postintegrational effect of AZT cannot be excluded.
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PMID:AZT (zidovudine) may act postintegrationally to inhibit generation of HIV-1 progeny virus in chronically infected cells. 169 85

Three analogs of thymidine, D4T [2',3'-didehydro-2',3'-dideoxythymidine; 1-(2,3-dideoxy-beta-D-glyceropent-2-enofuranosyl)thymine], FddT (3'-fluoro-3'-deoxythymidine), and AZT (3'-azido-3'-deoxythymidine), were compared in biological tests designed to assess their potential utility as anti-human immunodeficiency virus (HIV) agents. The in vitro potencies of these compounds against HIV infection in CEM cells were measured, with FddT and AZT being more potent than D4T. The cytotoxicities of D4T, FddT, and AZT for CEM cells were comparable. The triphosphates of these three derivatives inhibited purified HIV reverse transcriptase, and their affinities for this polymerase were found to be 1 or 2 orders of magnitude greater than that for the normal substrate, dTTP. D4T was less toxic than FddT or AZT for cultured human and mouse bone marrow cells (granulocyte-macrophage CFU). The three compounds had similar toxicities for human progenitor erythrocyte burst-forming units. In a 30-day mouse toxicity study, AZT and FddT produced a similar spectrum of hematopoietic toxicities. These toxic effects occurred at much lower doses of FddT than of AZT. At the higher doses of FddT, a significant incidence of lethality occurred. By contrast, D4T was considerably less toxic than both AZT and FddT in this study. The dose-limiting toxicity of D4T in mice was hepatotoxicity. The very different phosphorylation patterns of D4T, its lower toxicity, and its comparable potency relative to FddT and AZT suggest that the potential of D4T as an anti-HIV agent should be further explored.
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PMID:Comparison of in vitro biological properties and mouse toxicities of three thymidine analogs active against human immunodeficiency virus. 169 57

Diphosphates of N-(2-phosphonylmethoxyethyl) derivatives of heterocyclic bases were studied in the endogenous oligo(dT)12-18 primed reaction of reverse transcriptase from detergent-disrupted AMV(MAV) retrovirions. These diphosphates (analogues of nucleotide 5'-triphosphates) exhibited an inhibitory activity towards reverse transcriptase. This inhibitory activity was dependent on the character of the heterocyclic base and decreased in the order: 2-aminoadenine greater than adenine greater than guanine much greater than cytosine much greater than thymine greater than uracil. The 2-aminoadenine derivative was more potent than either AZT-TP or ddTTP, while PMEApp had approximately the same potency as the two reference compounds (IC50 approximately 1 microM at 20 microM competing substrate). This finding is consistent with the antiviral activity of the parent nucleotide analogues against retroviruses (including HIV).
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PMID:Inhibition of avian myeloblastosis virus reverse transcriptase by diphosphates of acyclic phosphonylmethyl nucleotide analogues. 169 92

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