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: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

3'-Azido-2',3'-dideoxyuridine-5'-triphosphate was found to be a potent and highly selective inhibitor of human immunodeficiency virus type 1 and simian immunodeficiency virus reverse transcriptases. The affinity of 3'-azido-2',3'-dideoxyuridine-5'-triphosphate for the reverse transcriptases was similar to that observed for 3'-azido-3'-deoxythymidine-5'-triphosphate. Both compounds were competitive inhibitors with respect to the normal substrate dTTP and served at least 100 times better as substrates than did dTTP. In contrast, cellular DNA polymerase alpha showed an about 60-times-higher preference for dTTP as substrate than for either inhibitor. The phosphorylation of thymidine in human peripheral blood mononuclear cell extracts was inhibited in a competitive manner by both 3'-azido-2',3'-dideoxyuridine and 3'-azido-3'-deoxythymidine, with apparent inhibition constants of 290 and 3.4 microM, respectively. The Michaelis-Menten constant, Km, for thymidine was 7.0 microM. 3'-Azido-2',3'-dideoxyuridine and 3'-azido-3'-deoxythymidine both served as substrates, with apparent Km values of 67 and 1.4 microM, respectively. The maximal rates of phosphorylation with 3'-azido-2',3'-dideoxyuridine and 3'-azido-3'-deoxythymidine were 40 and 30%, respectively, of the rate with thymidine. The different affinities of 3'-azido-2',3'-dideoxyuridine and 3'-azido-3'-deoxythymidine for the thymidine kinase and the Km values observed with these compounds as substrates may explain the difference in effects on human immunodeficiency virus type 1 replication in infected peripheral blood mononuclear cells observed when equimolar concentrations of the two compounds are compared.
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PMID:Phosphorylation of 3'-azido-2',3'-dideoxyuridine and preferential inhibition of human and simian immunodeficiency virus reverse transcriptases by its 5'-triphosphate. 248 79

The reverse transcriptase from human immunodeficiency virus type 1 was purified from the virus to near homogeneity. The enzyme was shown to possess both RNA-dependent and DNA-dependent DNA-synthesizing activity. Activated DNA as a heteropolymeric substrate was used as efficiently as was the homopolymeric substrate poly(rA)-oligo(dT). The Michaelis-Menten constants were determined for each of the four nucleotides needed to elongate a natural template primer. Azidothymidine triphosphate, a well-known inhibitor of the enzyme, inhibited the enzyme competitively with respect to dTTP and noncompetitively with respect to the other nucleotides. Azidothymidine triphosphate acted as an efficient inhibitor of cellular DNA polymerase gamma, whereas other enzymes of eucaryotic DNA metabolism, namely, DNA polymerase alpha-primase and DNA polymerase beta, were not inhibited. This finding may explain why some acquired immunodeficiency syndrome patients suffer side effects during azidothymidine therapy.
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PMID:Azidothymidine triphosphate is an inhibitor of both human immunodeficiency virus type 1 reverse transcriptase and DNA polymerase gamma. 248 2

The 5'-triphosphates of some 5-substituted 2'-deoxyuridine analogs were investigated for their effects on purified recombinant reverse transcriptase of human immunodeficiency virus type 1 (HIV-1) as well as cellular DNA polymerase alpha. The triphosphates were competitive inhibitors of the viral enzyme with dTTP as the variable substrate and poly(rA)oligo(dT) as template, and preferentially inhibited the viral polymerase. Ordering the compounds according to their decreasing binding affinities, as reflected by their increasing inhibition constants for the reverse transcriptase, gave nPrearaUTP greater than nPrdUTP greater than EtdUTP greater than nPredUTP greater than HMdUTP greater than CEdUTP. Although nPredUTP was less inhibitory than nPrearaUTP under conditions of competitive inhibition, nPredUTP caused a time- and concentration-dependent inactivation of reverse transcriptase activity when preincubated with template. This inactivation was not reversed by excess dTTP. The decrease in template-primer activity did not occur with nPrearaUTP, but was shown with the chain-terminating 5'-triphosphates of 3'-fluoro- and 3'-azidothymidine. As nPredUTP, but not nPrearaUTP, was an alternative substrate, shown by the ability to support DNA synthesis in absence of competing substrate, the incorporation of nPredUTP into the primer-template apparently leads to increased inhibition of the enzyme.
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PMID:Inhibition of HIV-1 reverse transcriptase by 5'-triphosphates of 5-substituted uridine analogs. 248 78

High levels of deoxyadenosine and deoxyguanosine in patients with inherited deficiency of either adenosine deaminase or purine-nucleoside phosphorylase, respectively, are considered to be responsible for the associated immunological disorder. The mechanism involves phosphorylation to the corresponding deoxyribonucleoside triphosphates which subsequently inhibit the CDP-reducing activity of ribonucleotide reductase. Addition of deoxycytidine protects cells from the cytotoxic effects of deoxyadenosine and deoxyguanosine by competition for phosphorylation and by replenishing dCTP, the apparent limiting DNA precursor. Addition of cytidine, but not uridine, led to a reversal of deoxyguanosine and thymidine growth inhibition, comparable to that obtained with deoxycytidine. Analysis of the intracellular nucleotide pools showed that increased levels of cytidine ribonucleotides were sufficient to overcome the inhibitory effects of dGTP and dTTP on CDP reduction, thereby circumventing a depletion of the dCTP pool. A partial reversal of deoxyadenosine toxicity was also obtained with addition of cytidine. In this case little change in the dCTP level was observed, but a decreased dGTP pool appeared to be correlated with growth inhibition. High cytidine ribonucleotide levels partially prevented this effect. The present results may encourage the use of cytidine in combination with deoxycytidine as a pharmacological regime in treatment of immunodeficiency disease associated with increased deoxyribonucleotide levels.
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PMID:On the mechanism of deoxyribonucleoside toxicity in human T-lymphoblastoid cells. Reversal of growth inhibition by addition of cytidine. 387 78

Enzymatic incorporation of 2',3'-dideoxynucleotides into DNA results in chain termination. We report that 3'-esterified 2'-deoxynucleoside 5'-triphosphates (dNTPs) are false chain-terminator substrates since DNA polymerases, including human immunodeficiency virus reverse transcriptase, can incorporate them into DNA and, subsequently, use this new 3' end to insert the next correctly paired dNTP. Likewise, a DNA substrate with a primer chemically esterified at the 3' position can be extended efficiently upon incubation with dNTPs and T7 DNA polymerase lacking 3'-to-5' exonuclease activity. This enzyme is also able to use dTTP-bearing reporter groups in the 3' position conjugated through amide or thiourea bonds and cleave them to restore a DNA chain terminated by an amino group at the 3' end. Hence, a number of DNA polymerases exhibit wide catalytic versatility at the 3' end of the nascent DNA strand. As part of the polymerization mechanism, these capabilities extend the number of enzymatic activities associated with these enzymes and also the study of interactions between DNA polymerases and nucleotide analogues.
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PMID:Catalytic editing properties of DNA polymerases. 747 98

The natural product of the Red Sea sponge Verongia sp., identified as 3,5,8-trihydroxy-4-quinolone, was found to be a potent inhibitor of the RNA-directed DNA synthesis of the reverse transcriptases (RTs) of human immunodeficiency viruses type 1 and type 2 (HIV-1 and HIV-2, respectively). This inhibition was unaffected by the nature of the primer template used for DNA synthesis. The DNA-dependent DNA polymerase activity was inhibited to a lesser extent, whereas the ribonuclease H (RNase H) function associated with both HIV RTs was only slightly inhibited. The inhibition by the trihydroxyquinolone is reversible and noncompetitive with respect to both substrates--dTTP and the template primer poly(rA)n.oligo(dT)12-18. The inhibitor binds HIV-1 RT with a high affinity (Ki = 0.46 microM). This compound was shown also to inhibit the catalytic activities of the RT of murine leukemia virus, establishing the general inhibitory effect on retroviral RTs. Introductions of acetyl or methoxy moieties at positions with potential activity have generated three synthetic analogs of the natural compound. Only one analog, 5,8-dimethoxy-4-quinolone, exhibited an inhibition potency similar to that of the unmodified compound. Analysis of the three analogs has led us to the conclusion that the hydroxyl group at the ortho position to the carbonyl group in the pyridinone ring is a key structural element for the inhibitory activity. Thus, it could well be that the inhibitor interacts with the enzyme through a hydrogen bond of this hydroxyl group. We hope that the identification of the inhibitory site of the compound might be an important step toward the rational design of new potent anti-HIV RT drugs.
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PMID:3,5,8-Trihydroxy-4-quinolone, a novel natural inhibitor of the reverse transcriptases of human immunodeficiency viruses type 1 and type 2. 751 Sep 44

5'-Triphosphates of 1-(2',3'-epithio-2',3'-dideoxy-beta-D-lyxofuranosyl) thymine, 1-(2',3'-epithio-2',3'-dideoxy-beta-D-ribofuranosyl) thymine and 2',3'-lyxoanhydrothymidine have been shown to be terminator substrates of human immunodeficiency virus and avian myeloblastosis virus reverse transcriptases as well as DNA polymerase I from E. coli. At the same time they do not terminate DNA synthesis catalysed by DNA polymerase epsilon from human placenta. The KM values of ltTTP, rtTTP and laTTP incorporation into DNA chain agree closely with each other, being 1.5-2.5 times higher than KM for dTTP. Furthermore, Vmax values for modified substrates are only 2-3 times less than Vmax for dTTP. The evidence favours the hypothesis of a great affinity of modified nucleosides with flattened ribose ring of glycone for DNA polymerases active sites.
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PMID:[Modified nucleoside-5'-triphosphates with an additional conjugated through the 2'-3'-fused ring as DNA polymerase substrates]. 751 83

Inhibitory effects of 2'-deoxy-L-thymidine 5'-triphosphate (L-dTTP), the enantiomer of the natural substrate D-dTTP, on the activity of mammalian DNA polymerases alpha, beta and gamma, Escherichia coli DNA polymerase I and human immunodeficiency virus 1 (HIV-1) reverse transcriptase were examined. When poly(rA)n-oligo(dT)12-18 was used as the template-primer, L-dTTP showed remarkable inhibitory effect on HIV-1 reverse transcriptase in competitive fashion with respect to the substrate dTTP. In contrast, L-dTTP did not inhibit DNA polymerases alpha and was slightly inhibitory to DNA polymerase beta. These results suggest that the nuclear DNA polymerases alpha and beta showed high specificity for the substrate with the natural configuration of the sugar moiety, D-dTTP, exhibiting little or no ability to recognize L-dTTP, whereas HIV-1 reverse transcriptase essentially lacked the ability to differentiate the D- and L-sugar moieties.
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PMID:Chiral discrimination of enantiomeric 2'-deoxythymidine 5'-triphosphate by HIV-1 reverse transcriptase and eukaryotic DNA polymerases. 751 92

6-Chloro-(4S)-cyclopropyl-3,4-dihydro-4-((2-pyridyl)-ethynyl)quinazol in- 2(1H)-one (L-738,372) is representative of a novel structural class of nonnucleoside inhibitors of human immunodeficiency virus, strain 1 (HIV-1), reverse transcriptase (RT), the quinazolinones. L-738,372 is a reversible inhibitor of HIV-1 RT and is noncompetitive against dTTP with a Ki of 140 nM with poly(rA).oligo(dT) as primer-template. Mixed noncompetitive inhibition by L-738,372 was observed against poly(rC).oligo(dG) as primer-template. This quinazolinone binds to RT at a site that overlaps the binding site of other nonnucleoside inhibitors as evidenced by the ability of L-738,372 to displace bound radiolabeled L-696,229, a member of the pyridinone class of inhibitors of HIV-1 RT, from complexes of RT and primer-template. Inhibition by L-738,372 shows slow binding characteristics in reactions with all of the primer-templates employed. Synergistic inhibition of RT activity was evident in combinations of L-738,372 and any of the nucleoside analogs, azidothymidine triphosphate, dideoxyinosine triphosphate, or dideoxycytosine triphosphate. The azidothymidine-resistant form of RT (D67N, K70R, T215Y, K219Q) is inhibited by L-738,372 with 2-3-fold more potency than is the wild-type RT. Comparison of inhibition by L-738,372 with inhibition by pyridinone inhibitors reveals differences in synergistic inhibition with nucleoside analogs and in the rates of binding of the inhibitors.
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PMID:Inhibition of HIV-1 reverse transcriptase by a quinazolinone and comparison with inhibition by pyridinones. Differences in the rates of inhibitor binding and in synergistic inhibition with nucleoside analogs. 752 14

G-->A hypermutation is a remarkable phenomenon resulting from retroviral reverse transcription in the presence of highly biased dNTP concentrations. Of the three reverse transcriptases (RTases) available, those of human immunodeficiency virus type 1 (HIV-1), avian myeloblastosis virus (AMV) and Moloney murine leukemia virus (MoMLV), the HIV-1 enzyme showed the greatest sensitivity to biased [dCTP]/[dTTP] ratios. The HIV-1 RTase was able to discriminate between dUTP, dITP and the four DNA precursors and was insensitive to pH. There was little preference for nucleotide contexts. A few exceptionally modified sequences were found presumably resulting from G-->A hypermutation and multiple strand transfer. This particular predilection of the HIV-1 and, by extrapolation, the lentiviral RTases towards G-->A hypermutation suggests that the phenomenon may have contributed to the remarkably elevated A content of these retroviral genomes.
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PMID:Reverse transcriptase and substrate dependence of the RNA hypermutagenesis reaction. 754 58


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