Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.7.48 (transcriptase)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reverse transcriptase activity of the human immunodeficiency virus (HIV) was blocked in vitro by immunoglobulin G (IgG) derived from certain individuals infected with this retrovirus. A heterogeneous immune response for inhibition of enzyme function was noted. Catalytic activity was depressed by 50% or more with the use of 10 micrograms of IgG from 11 of 16 HIV-seropositive asymptomatic carriers, but from 0 of 8 seronegative controls and 2 of 12 patients with acquired immune deficiency syndrome (AIDS) or the AIDS-related complex (ARC). The inhibitor was confined to the F(ab')2 fragment. It was not directed against the poly(rA) X oligo(dT) template, nor against major envelope or structural viral antigens, and did not cross-react with bacterial, avian, or other mammalian DNA polymerases. It did not correlate with recognition of polymerase antigens by radioimmunoprecipitation. Loss of this inhibitor may be associated with development of clinical disease. Ten asymptomatic HIV-seropositive carriers with high titers of IgG antibodies to reverse transcriptase were followed for a mean of 3 years. All of four lost inhibitory capability prior to development of AIDS or ARC, while titers persist in the six who remain clinically healthy.
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PMID:Characterization and clinical association of antibody inhibitory to HIV reverse transcriptase activity. 243 4

Human immunodeficiency virus (HIV) was detected by assay of reverse transcriptase activity in a "virus pellet" obtained by differential sucrose density centrifugation of cell-free semen from three patients with the acquired immune deficiency syndrome (AIDS), one individual with AIDS-related complex (ARC), and in an asymptomatic homosexual male. Reverse transcriptase assays indicated virus concentrations in the range of 10(8) particles/ml of semen, an accumulation substantiated by electron microscopic visualization of cell-free virus. This is the first description of cell-free retrovirus in seminal fluid and at a greater concentration than reported for blood or other body fluids or tissues. These results suggest that the male reproductive tract of humans may be a reservoir of HIV expression, and raises the possibility that the cells lining the epididymal lumen could be chronically infected with HIV. These are important considerations in formulating treatment and preventive strategies.
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PMID:Detection of human immunodeficiency virus in cell-free seminal fluid. 263 53

This paper presents the evolution during its follow-up of a virostatic combination study of the type I-II trial conducted on ten AIDS-related complex (ARC) or acquired immunodeficiency syndrome (AIDS) patients [1, 9, respectively]. Its concept is based on the following original notions: a) it is not the number of the virostatics applied to each patient at any phase which determines their effect; it is the number of affected virus targets which determines the effect. Thus, the so called "tritherapies", imposed by the "AIDS Command" to thousands of patients selected at random, to be compared to the same number of subjects receiving only "bi" or "monotherapies", might be beginning to face failure because they attack only two targets: retro-transcriptase and HIV1 protease. Having discovered, owing to our experimental screening, original HIV1 virostatics, acriflavine (ACF) and several ellipticine analogues among which we have used methyl-hydroxy-ellipticine (MHE), we are able to attack two virus targets unaffected by classical virostatics: ACF attacks DNA, from its integrated double branched stage to the provirus one, and MHE inhibits topoisomerase II. We experimentally combined these two agents with AZT, which inhibits retro-transcriptase, thus we realized a combination affecting three targets. This three agent combination was able to eradicate Friend's virus from infected mice. Clinically, combinations of three drugs affecting four targets (as they are selected among the ten virostatics available today) give a stronger result than three drug combinations affecting only three targets, because they were selected from the five virostatics which were the only ones available at the beginning of the present study. Five patients out of five who received the combinations of four virostatics chosen among the ten currently available (thus affecting four targets) from the beginning of their treatment to the present have all reduced their viral load (VL) and maintained it below the detectable level (< 200 RNA copies/mL then 20 copies/mL); b) as the toxicities of virostatics and as HIV1 resistances may happen as soon as 12 weeks of treatment, the combinations have been, in our study, applied in shorter (3 week) sequences, differing from each other due to drug rotation; c) neither toxicity nor resistance occurred; d) curiously, the CD4 numbers, even when they increased rapidly, has never attained their normal count, and their curve may be a Gombertzian one. This CD4 restoration limitation can be due to persisting virus, as indicated in some patients by small peaks which may appear on some VL plateaus, though they disappear without treatment change.
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PMID:Combinations of three or four HIV virostatics applied in short sequences which differ from each other by drug rotation. Preliminary results of the viral loads and CD4 numbers. 986 98

The unique nature of the replication cycle of the retroviruses, including HIV, offera number of possible targets for chemotherapeutic agents. These are RNA viruses which have the capacity to make DNA copies through their characteristic enzyme, reverse transcriptase, encoded in the pole region of the viral genoma. Reverse transcription is an attractive target for therapeutic intervention as this event is uniquelly associated with retroviruses. Dideoxynucleoside analogues can compete with endogenous nucleosides that are the natural substrate for reverse transcriptase or may be incorporated intro the growing chain of proviral DNA and terminate elongation. Reverse transcriptase inhibition is the principal mechanism of action of zidovudine (AZT) and related nucleosides, dideoxyinosine (ddl) and dideoxycitidine (ddC), which all attach to reverse transcriptase to the same site. This review will discuss current approaches to the antiretroviral therapy in AIDS patients. Several well controlled clinical trials have established both the efficacy and toxicity of AZT in patients with AIDS and severe ARC and it was shown that this drug decreased the incidence and severity of opportunistic infections, with the highly significant reduction in early mortality. The efficacy of newer reverse transcriptase-inhibiting nucleoside derivatives will be discussed too, as well as the issue of combination therapies.
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PMID:[Antiretroviral therapy of acquired immunodeficiency syndrome (AIDS)]. 1817 Sep 76