UMLS:C0019693 - FACTA Search

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Query: UMLS:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO(*)) reacts with guanine in DNA and RNA to produce xanthine (X) as a major product. Despite its potential importance in NO(*)-mediated mutagenesis, the biochemical properties of X in polynucleotides have been relatively unexplored. We describe the synthesis and chemical characterization of xanthine-containing oligonucleotides and report on the susceptibility of X to depurination, its miscoding potential during replication by polymerases, and its recognition and excision by several members of the base excision repair (BER) family of DNA glycosylases. At neutral pH, X was found to be only slightly less stable than guanine to depurination (k(X)/k(G) = 1.19), whereas at pH <or= 4 the depurination rate exceeded that of G by more than an order of magnitude. HIV-1 RT inserted dCTP and dTTP with approximately equal frequencies opposite X in a DNA template, whereas DNA Pol 1(KF(-)) preferentially inserted dCTP. Several DNA glycosylases were found to excise X specifically in X.C base pairs, whereas activity toward X.G, X.A, or X.T pairs was detected only for AlkA. The order of reactivity of glycosylases for the removal of X.C base pairs was found to be AlkA > Mpg > Nth > Fpg. Implications of these results for the induction of mutations by nitric oxide are discussed.
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PMID:Stability, miscoding potential, and repair of 2'-deoxyxanthosine in DNA: implications for nitric oxide-induced mutagenesis. 1265 65

This study was aimed to apply an LC-MS-MS method previously developed for intracellular nucleoside reverse transcriptase inhibitors-triphosphate (NRTI-TPs) to the determination of natural deoxyribonucleotides (dNTPs) in human peripheral blood mononuclear cells. The LC-MS-MS method was directly used in assay of dATP and dTTP. Interferences by ribonucleotides (rNTPs) prevented direct application to the two other analytes: dGTP and dCTP. A periodate oxidation procedure was therefore optimized to remove rNTPs from the cell medium in order to quantitate dCTP and dGTP. The determination of the intracellular ratio of NRTI-TP/dNTP in HIV-infected patients now involves use of the same chromatographic system for simultaneous assay of several analytes.
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PMID:Liquid chromatography-tandem mass spectrometry assays for intracellular deoxyribonucleotide triphosphate competitors of nucleoside antiretrovirals. 1274 19

Telomerase is a ribonucleoprotein reverse transcriptase that uses its internal RNA moiety as a template for synthesis of telomere repeats. To clarify the susceptibility of telomerase to HIV-1 reverse transcriptase inhibitors (RT), we investigated the inhibitory effects of 3'-azido-3'-deoxythymidine 5'-triphosphate (AZTTP), which is known to be a potent HIV-1 RT inhibitor, and acyclovir triphosphate (ACVTP). Lineweaver-Burk plot analyses showed that the inhibition mode of these compounds was competitive with the substrate dNTP counterpart. However, inhibition by AZTTP was weak (Ki = 15 microM, Km of dTTP = 7.1 microM). Interestingly, ACVTP showed considerable inhibition. The Ki value of ACVTP was 5.0 microM, being smaller than the Km of dGTP (12 microM).
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PMID:Telomerase-inhibitory effects of the triphosphate derivatives of some biologically active nucleosides. 1283 39

Mechanisms governing viral replicative capacity are poorly understood at the biochemical level. Human immunodeficiency virus, type 1 reverse transcriptase (HIV-1 RT) K65R or L74V substitutions confer viral resistance to 2',3'-dideoxyinosine (ddI) in vivo. The two substitutions never occur together, and L74V is frequently found in patients receiving ddI, while K65R is not. Here we show that recombinant viruses carrying K65R and K65R/L74V display the same resistance level to ddI (about 9.5-fold) relative to wild type. Consistent with this result, purified HIV-1 RT carrying K65R RT or K65R/L74V substitutions exhibits an 8-fold resistance to ddATP as judged by pre-steady state kinetics of incorporation of a single nucleotide into DNA. Resistance is due to a selective decrease of the catalytic rate constant k(pol): 22-fold (from 7.2 to 0.33 s(-1)) for K65R RT and 84-fold (from 7.2 to 0.086 s(-1)) for K65R/L74V RT. However, the K65R/L74V virus replication capacity is severely impaired relative to that of wild-type virus. This loss of viral fitness is correlated to a poor ability of K65R/L74V RT to use natural nucleotides relative to wild-type RT: 15% that of wild-type RT for dATP, 36% for dGTP, 50% for dTTP, and 25% for dCTP. The order of incorporation efficiency is wild-type RT > L74V RT > K65R RT > K65R/L74V RT. Processivity of DNA synthesis remains unaffected. These results explain why the two mutations do not combine in the clinic and might give a mechanism for a decreased viral fitness at the molecular level.
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PMID:A loss of viral replicative capacity correlates with altered DNA polymerization kinetics by the human immunodeficiency virus reverse transcriptase bearing the K65R and L74V dideoxynucleoside resistance substitutions. 1504 78

The bioassay-directed isolation of a marine brown alga, Ecklonia cava, afforded four phlorotannin derivatives, eckol (1), 8,8'-bieckol (2), 8,4"'-dieckol (3), and phlorofucofuroeckol A (4). Among these compounds, 2 and 3 exhibited an inhibitory effect on human immunodeficiency virus type 1 (HIV-1) reverse transcriptase (RT) and protease. Specifically, they inhibited the RT more potently than the protease. The inhibitory activity of compound 2 (IC(50), 0.51 microM) against HIV-1 RT was comparable to that of nevirapine (IC(50), 0.28 microM), a reference compound. An enzyme kinetic assay showed that this compound inhibited the RNA-dependent DNA synthesis activity of HIV-1 RT noncompetitively against dUTP/dTTP with a K(i) value of 0.78 microM. With respect to the homopolymeric template/primer, (rA)n(dT)15, 8,8'-bieckol (2) displayed an uncompetitive type of inhibition (K(i), 0.23 microM).
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PMID:Inhibition of HIV-1 reverse transcriptase and protease by phlorotannins from the brown alga Ecklonia cava. 1505 63

Tissue macrophages are an important cellular reservoir for replication of human immunodeficiency virus type 1 (HIV-1) and simian immunodeficiency virus. In vitro, the ability of macrophages to support viral replication is differentiation dependent in that precursor monocytes are refractory to infection. There is, however, no consensus as to the exact point at which infection is restricted in monocytes. We have revisited this issue and have compared the efficiencies of early HIV-1 replication events in monocytes and in differentiated macrophages. Although virus entry in monocytes was comparable to that in differentiated macrophages, synthesis of full-length viral cDNAs was very inefficient. Relative to differentiated macrophages, monocytes contained low levels of dTTP due to low thymidine phosphorylase activity. Exogenous addition of D-thymidine increased dTTP levels to that in differentiated macrophages but did not correct the reverse transcription defect. These results point to a restriction in monocytes that is independent of reverse transcription precursors and suggest that differentiation-dependent cellular cofactors of reverse transcription are rate limiting in monocytes.
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PMID:Characterization of restrictions to human immunodeficiency virus type 1 infection of monocytes. 1511 33

Successive phosphorylation of nucleoside analog prodrugs to their triphosphate forms is required for the pharmacological activity of these compounds in the chemotherapeutic treatment of viral infections and cancer. Human thymidylate kinase (TMPK), apart from its essential physiological role in the biosynthesis of TTP, is also required for the activation of thymidine analogs, such as the clinically used anti-HIV prodrugs AZT and d4T. This enzyme is rate determining in the three-step cascade of AZT phosphorylation. Our structural work on human, yeast and E. coli TMPKs, in conjunction with sequence homology analyses and biochemical data, has demonstrated that three loops are crucial for the function of this enzyme: the first is the highly conserved P-loop motif, which binds and positions the phosphoryl groups of ATP, the second critical loop contains the DR(Y/H) motif that supplies a catalytic arginine and is also important for the binding and positioning of the magnesium ion complexed to ATP, and the third loop is the so-called Lid-region that is a flexible stretch which closes on ATP when it binds. Modifications of the sugar moieties of nucleoside monophosphates are shown to exert drastic effects on the enzyme's conformation and, thus, reduced activity. Our structural work on several TMPKs has formed the basis for generating mutants of human TMPK that are about 100 times more efficient in phosphorylating AZTMP. These enzyme variants could potentially be introduced into HIV-targeted cells in order to significantly improve AZT's antiviral activity.
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PMID:Structural requirements for efficient phosphorylation of nucleotide analogs by human thymidylate kinase. 1513 38

Six oligonucleotides with carcinogen derivatives bound at the N2 atom of deoxyguanosine were prepared, including adducts derived from butadiene, acrolein, crotonaldehyde, and styrene, and examined for effects on the replicative enzymes bacteriophage DNA polymerase T7- (T7-) and HIV-1 reverse transcriptase for comparison with previous work on smaller DNA adducts. All of these adducts strongly blocked dCTP incorporation opposite the adducts. dATP was preferentially incorporated opposite the acrolein and crotonaldehyde adducts, and dTTP incorporation was preferred at the butadiene- and styrene-derived adducts. Steady-state kinetic analysis indicated that the reduced catalytic efficiency with adducted DNA involved both an increased Km and attenuated kcat. Fluorescence estimates of Kd and pre-steady-state kinetic measurements of koff showed no significantly decreased affinity of T7- with the adducted oligonucleotides or the dNTP. Pre-steady-state kinetics showed no burst phase kinetics for dNTP incorporation with any of the modified oligonucleotides. These results indicate that phosphodiester bond formation or a conformational change of the enzyme.DNA complex is rate-limiting instead of the step involving release of the oligonucleotide. Thio elemental effects for dNTP incorporation were generally relatively small but variable, indicating that the presence of adducts may sometimes make phosphodiester bond formation rate-limiting but not always.
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PMID:Kinetics of nucleotide incorporation opposite DNA bulky guanine N2 adducts by processive bacteriophage T7 DNA polymerase (exonuclease-) and HIV-1 reverse transcriptase. 1553 46

Ala-114, together with Asp-113, Tyr-115 and Gln-151, form the pocket that accommodates the 3'-OH of the incoming dNTP in the HIV-1 RT (reverse transcriptase). Four mutant RTs having serine, glycine, threonine or valine instead of Ala-114 were obtained by site-directed mutagenesis. While mutants A114S and A114G retained significant DNA polymerase activity, A114T and A114V showed very low catalytic efficiency in nucleotide incorporation assays, due to their high apparent K(m) values for dNTP. Discrimination between AZTTP (3'-azido-3'-deoxythymidine triphosphate) and dTTP was not significantly affected by mutations A114S and A114G in assays carried out with heteropolymeric template/primers. However, both mutants showed decreased susceptibility to AZTTP when poly(rA)/(dT)16 was used as substrate. Steady-state kinetic analysis of the incorporation of ddNTPs compared with dNTPs showed that substituting glycine for Ala-114 produced a 5-6-fold increase in the RT's ability to discriminate against ddNTPs (including the physiologically relevant metabolites of zalcitabine and didanosine), a result that was confirmed in primer-extension assays. In contrast, A114S and A114V showed wild-type ddNTP/dNTP discrimination efficiencies. Discrimination against ribonucleotides was not affected by mutations at position 114. Misinsertion and mispair extension fidelity assays as well as determinations of G-->A mutation frequencies using a lacZ complementation assay showed that, unlike Tyr-115 or Gln-151 mutants, the fidelity of HIV-1 RT was not largely affected by substitutions of Ala-114. The role of the side-chain of Ala-114 in ddNTP/dNTP discrimination appears to be determined by its participation in van der Waals interactions with the ribose moiety of the incoming nucleotide.
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PMID:Nucleotide specificity of HIV-1 reverse transcriptases with amino acid substitutions affecting Ala-114. 1554 34

A class of amino acid substitutions in drug-resistant HIV-1 reverse transcriptase (RT) is responsible for the selectively impaired incorporation of the nucleotide analog inhibitor into DNA. We have shown previously that alpha-boranophosphate nucleoside analogs suppress RT-mediated resistance when the catalytic rate is responsible for drug resistance such as in the case of K65R and dideoxy (dd)NTPs, and Q151M toward AZTTP and ddNTPs. Here, we extend this property to BH3-d4TTP and BH3-3TCTP toward their clinically relevant mutants Q151M and M184V, respectively. Pre-steady-state kinetics on mutants of the Q151M RT family reveal a 3-5-fold resistance to d4TTP. This resistance is suppressed using BH3-d4TTP. Likewise, resistance to 3TCTP by M184V RT (30-fold) and K65R/M184V RT (180-fold) is suppressed using BH3-3TCTP because of a 160-fold acceleration of the catalytic constant kpol. Mechanistic insights into the rate enhancement were obtained using various alpha-boranophosphate nucleotides. The presence of the BH3 group renders kpol independent of amino acid substitutions present in RT. Indeed, the approximately 100-fold decrease in polymerase activity caused by the R72A substitution is restored to wild-type levels using BH3-dTTP. Metal ion titration studies show that alpha-boranophosphate nucleoside analogs enhance 3-8-fold the binding of Mg2+ ions to the active site of the RT.DNA.dNTP complex and alleviate the requirement of critical amino acids involved in phosphodiester bond formation. To our knowledge, this is the first example of rescue of polymerase activity by means of a nucleotide analog.
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PMID:Mechanistic insights into the suppression of drug resistance by human immunodeficiency virus type 1 reverse transcriptase using alpha-boranophosphate nucleoside analogs. 1555 Mar 79

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