Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019693 (HIV)
 170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Substrate properties of the earlier synthesized and characterized dCTP derivatives bearing in the exo-N-position of cytosine 2-(4-azido-2,3,5,6-tetrafluorobenzoylamino)ethyl (I), 2-(2-nitro-5-azidobenzoylamino)ethyl (II), 2-(4-azido-2,3,5,6-tetrafluorobenzylideneaminooxymethylcarbonylamino)ethyl (III), 4-(4-azido-2,3,5,6-tetrafluorobenzylideneaminooxy)butyloxy (IV), or 4-(4-azido-2,3,5,6-tetrafluorobenzylidenehydrazinocarbonyl)butyl- carbonylamino (V) groups were studied in the primer extension reaction catalyzed by rat DNA polymerase beta. Unlike the earlier results obtained with HIV reverse transcriptase, dCTP derivatives (I)-(III) were not recognized by rat DNA polymerase beta as dTTP analogues, and all the five nucleotides were utilized as dCTP analogues. When compared with dCTP, Km values for the synthesized dCTP derivatives were higher by a factor of 4-20; Vmax were 1-2.3 times higher for (I)-(III) and (V) but 20-fold lower for derivative (IV). Site-specific photomodifications of the primer-template-DNA polymerase beta complexes were carried out using photoreactive reagents PRI-PRV, obtained in situ by extension of 5'-32P-labeled primers with dCTP analogues (I)-(V), respectively, when exposed to UV irradiation at 303-313 nm. Reagents PRI and PRIV provided the maximum photocrosslinking of the 5'-32P-labeled primer to the DNA template (56%) and to the enzyme (20%), respectively. The lowest efficiency of photocrosslinking was observed for PRII (about 1%).
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PMID:[Reagents for modification of protein-nucleic acids complexes. II. Site-specific photomodification of DNA-polymerase beta complexes with primers elongated by the dCTP exo-N-substituted arylazido derivatives]. 1144 42

Several reverse transcriptases were studied for their ability to accept anhydrohexitol triphosphates, having a conformationally restricted six-membered ring, as substrate for template-directed synthesis of HNA. It was found that AMV, M-MLV, M-MLV (H(-)), RAV2 and HIV-1 reverse transcriptases were able to recognise the anhydrohexitol triphosphate as substrate and to efficiently catalyse the incorporation of one non-natural anhydrohexitol nucleotide opposite a natural complementary nucleotide. However, only the dimeric enzymes, the RAV2 and HIV-1 reverse transcriptases, seemed to be able to further extend the primer with another anhydrohexitol building block. Subsequently, several HIV-1 mutants (4xAZT, 4xAZT/L100I, L74V, M184V and K65A) were likewise analysed, resulting in selection of K65A and, in particular, M184V as the most succesful mutant HIV-1 reverse transcriptases capable of elongating a DNA primer with several 1,5-anhydrohexitol adenines in an efficient way. Results of kinetic experiments in the presence of this enzyme revealed that incorporation of one anhydrohexitol nucleotide of adenine or thymine gave an increased (for 1,5-anhydrohexitol-ATP) and a slightly decreased (for 1,5-anhydrohexitol-TTP) K(m) value in comparison to that of their natural counterparts. However, no more than four analogues could be inserted under the experimental conditions required for selective incorporation. Investigation of incorporation of the altritol anhydrohexitol nucleotide of adenine in the presence of M184V and Vent (exo(-)) DNA polymerase proved that an adjacent hydroxyl group on C3 of 1,5-anhydrohexitol-ATP has a detrimental effect on the substrate activity of the six-ring analogue. These results could be rationalised based on the X-ray structure of HIV-1 reverse transcriptase.
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PMID:Reverse transcriptase incorporation of 1,5-anhydrohexitol nucleotides. 1147 Aug 72

The interaction of dNTPs with the active site of HIV-1 reverse transcriptase (HIV RT) has been investigated. The kinetic parameters of primer elongation catalyzed by wild-type HIV-1 RT and two of its mutants with substitutions for Tyr115 using dTTP and two of its photoreactive analogs were determined. The substitution for Tyr115 with alanine or tryptophan resulted in an increase in K(m) values of dTTP and its analogs. Wild-type RT and its mutants were photoaffinity modified using photoreactive primer synthesized in situ. The modification was made in two variants: direct photocross-linking under UV irradiation and photosensitized modification using Pyr-dUTP as a sensitizer. The use of the sensitizer decreased the number of modification products and increased selective labeling of the catalytic subunit of both the mutant and wild-type RT.
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PMID:Investigation of the dNTP-binding site of HIV-1 reverse transcriptase using photoreactive analogs of dNTP. 1170 83

Three polyphenolic catechins, epigallocatechin (1), epicatechin-3-O-gallate (2) and epigallocatechin-3-O-gallate (3), were isolated from Chinese green tea, Ti-Kaun-Yin (Camellia sinensis) and demonstrated as a new class of human immunodeficiency virus-reverse transcriptase (HIV-RT) inhibitor. The concentrations required for 50% inhibition for the compounds (1), (2) and (3) were 7.80, 0.32 and 0.68 &mgr;M, respectively. The polyphenolic catechins with a galloyl group at the 3 position were potent inhibitors of HIV-RT. Kinetic analysis indicated that the polyphenolic catechins were competitive inhibitors with respect to the template-primer (rA)(n)(dT)(12-18) and noncompetitive inhibitors to dTTP. Copyright 1994 S. Karger AG, Basel
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PMID:Inhibitory Effects of Polyphenolic Catechins from Chinese Green Tea on HIV Reverse Transcriptase Activity. 1172 21

Misincorporation at a DNA-carcinogen adduct may contribute to formation of mutations if a polymerase proceeds past the lesion, compromising fidelity, as in the G:C to A:T mutations caused by O(6)-alkylguanine. Replication of primer/templates containing guanine (G), O(6)-methylguanine (O(6)-MeG), or O(6)-benzylguanine (O(6)-BzG) was assessed using T7 DNA polymerase exo(-) (T7(-)) and HIV-1 reverse transcriptase (RT). The steady-state parameters indicated that T7(-) and RT preferentially incorporated dTTP opposite O(6)-MeG and O(6)-BzG. The incorporation efficiencies (k(cat)/K(m)) were less for O(6)-BzG than O(6)-MeG for both dCTP and dTTP insertion. Pre-steady-state analysis indicated that the product formed during the burst phase, i.e., the burst amplitude, differed significantly between the unmodified 24-mer/36-G-mer and the O(6)-alkylG-containing substrates. Extension of the O(6)-BzG-containing duplexes was much more difficult for both polymerases as compared to O(6)-MeG, except when RT easily extended the O(6)-BzG:T base pair. The for binding of dCTP or dTTP to a RT*DNA complex containing O(6)-MeG was 8-fold greater than for dNTP binding to a complex containing unmodified DNA. The for a RT*DNA complex containing O(6)-BzG was 50-fold greater. In conclusion, the bulkier O(6)-BzG is a greater block to polymerization by T7(-) and RT than is O(6)-MeG, but some polymerization does occur with an O(6)-BzG substrate. Pre-steady-state analysis indicates that neither dCTP nor dTTP insertion is strongly preferred during polymerization of O(6)-BzG-containing DNA, unlike the case of O(6)-MeG. These results and others regarding polymerase stalling opposite O(6)-MeG and O(6)-BzG are discussed in the following paper in this issue [Woodside, A. M., and Guengerich, F. P. (2002) Biochemistry 41, 1039-1050].
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PMID:Effect of the O6 substituent on misincorporation kinetics catalyzed by DNA polymerases at O(6)-methylguanine and O(6)-benzylguanine. 1179 Jan 27

Polyacetylenetriol (PAT), a natural marine product from the Mediterranean sea sponge Petrosia sp., was found to be a novel general potent inhibitor of DNA polymerases. It inhibits equally well the RNA- and DNA-dependent DNA polymerase activities of retroviral reverse transcriptases (RTs) (i.e. of HIV, murine leukaemia virus and mouse mammary tumour virus) as well as cellular DNA polymerases (i.e. DNA polymerases alpha and beta and Escherichia coli polymerase I). A study of the mode and mechanism of the polymerase inhibition by PAT has been conducted with HIV-1 RT. PAT was shown to be a reversible non-competitive inhibitor. PAT binds RT independently and at a site different from that of the primer-template and dNTP substrates with high affinity (K(i)=0.51 microM and K(i)=0.53 microM with dTTP and with dGTP as the variable substrates respectively). Blocking the polar hydroxy groups of PAT has only a marginal effect on the inhibitory capacity, thus hydrophobic interactions are likely to play a major role in inhibiting RT. Preincubation of RT with the primer-template substrate prior to the interaction with PAT reduces substantially the inhibition capacity, probably by preventing these contacts. PAT does not interfere with the first step of polymerization, the binding of RT to DNA, nor does the inhibitor interfere with the binding of dNTP to RT/DNA complex, as evident from the steady-state kinetic study, whereby K(m) remains unchanged. We assume, therefore, that PAT interferes with subsequent catalytic steps of DNA polymerization. The inhibitor may alter the optimal stereochemistry of the polymerase active site relative to the primer terminus, bound dNTP and the metal ions that are crucial for efficient catalysis or, alternatively, may interfere with the thumb sub-domain movement and, thus, with the translocation of the primer-template following nucleotide incorporation.
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PMID:Mode of inhibition of HIV-1 reverse transcriptase by polyacetylenetriol, a novel inhibitor of RNA- and DNA-directed DNA polymerases. 1187 96

Abacavir (1592U89, or Ziagen) is a powerful and selective inhibitor of HIV-1 viral replication that has been approved by the FDA for treatment of acquired immunodeficiency syndrome. Abacavir is metabolized to the active compound carbovir triphosphate (CBVTP). This compound is a guanosine analogue containing a 2',3'-unsaturation in its planar carbocyclic deoxyribose ring that acts on HIV-1 reverse transcriptase (RT(WT)) as a molecular target, resulting in chain termination of DNA synthesis. A single amino acid change from methionine 184 to valine in HIV-1 RT (RT(M184V)) has been observed clinically in response to abacavir treatment. The ability of the natural substrate, dGTP, or CBVTP to be utilized during DNA- and RNA-directed polymerization by RT(WT) and RT(M184V) was defined by pre-steady-state kinetic parameters. In the case of RT(WT), CBVTP was found to be a surprisingly poor substrate relative to dGTP. In both DNA- and RNA-directed polymerization, a decrease in the efficiency of CBVTP utilization with respect to dGTP was found with RT(M184V), suggesting that this mutation confers resistance at the level of CBVMP incorporation. The relatively low incorporation efficiency for RT(WT) was unanticipated considering earlier studies showing that the triphosphate form of a thymidine nucleoside analogue containing a planar 2',3'-unsaturated ribose ring, D4TTP, was incorporated with high efficiency relative to the natural substrate, dTTP. The difference may be related to the isosteric replacement of oxygen in the deoxyribose ring with carbon. This hypothesis was tested by synthesizing and evaluating D4GTP (the planar 2',3'-unsaturated deoxyribose guanosine analogue that is complementary to D4TTP). In contrast to CBVTP, D4GTP was found to be an excellent substrate for RT(WT) and no resistance was conferred by the M184V mutation, thus providing novel insight into structure-activity relationships for nucleoside-based inhibitors. In this work, we illustrate how an understanding of the molecular mechanism of inhibition and drug resistance led to the discovery of a novel prodrug of D4G. This compound shows promise as a potent antiviral especially with the drug resistant M184V HIV-1 RT that is so often encountered in a clinical setting.
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PMID:Insights into the molecular mechanism of inhibition and drug resistance for HIV-1 RT with carbovir triphosphate. 1195 63

A number of compounds used for cancer chemotherapy exert their effects by inhibiting DNA replication. New inhibitors of DNA polymerases, therefore, could be potential candidates for new anti-cancer drugs. This study tested the effects of two phenalenone-skeleton-based compounds, which were isolated from a marine-derived fungus Penicillium sp., sculezonone-B (SCUL-B) and sculezonone-A (SCUL-A), upon DNA polymerase activity. Both compounds inhibited bovine DNA polymerases alpha and gamma, moderately affected the activity of DNA polymerase epsilon, and had almost no effect on HIV-reverse transcriptase and an E. coli DNA polymerase I Klenow fragment. Most notably, whereas SCUL-A inhibited pol beta (IC(50) = 17 microM), SCUL-B has only a weak influence upon this polymerase (IC(50) = 90 microM). Kinetic studies showed that inhibition of both DNA polymerases alpha and beta by either SCUL-A or SCUL-B was competitive with respect to dTTP substrate and noncompetitive with the template-primer. Whereas pol alpha inhibition by SCUL-B is competitive with respect to dATP, the inhibition by SCUL-A was found to be a mixed type with dATP substrate. The K(i) values of SCUL-B were calculated to be 1.8 and 6.8 microM for DNA polymerases alpha and gamma, respectively. The K(i) of DNA polymerase beta for SCUL-A was 12 microM and that for DNA polymerase alpha, 16 microM. Therefore, deletion of the OH-group at C12 enhanced inhibition of DNA polymerase beta. Since computational analyses of these two inhibitors revealed a remarkable difference in the distribution of negative electrostatic charge on the surface of molecules, we infer that different electrostatic charges might elicit different inhibition spectra from these two compounds.
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PMID:Novel phenalenone derivatives from a marine-derived fungus exhibit distinct inhibition spectra against eukaryotic DNA polymerases. 1205 92

Analogues of a novel class of template-competitive reverse transcriptase inhibitors (Li, K.; Lin, W.; Chong, K. H.; Moore, B. M.; Doughty, M. B. Bioorg. Med. Chem. 2002, 10, 507) were analyzed as photoprobes of HIV-1 reverse transcriptase (RT) heterodimer. The two photoprobes, 2-(4-azidophenacyl)thio-1,N(6)-etheno-2'-deoxyadenosine 5'-triphosphate 2 and the tetrafluoro analogue 2-(4-azido-2,3,5,6-tetrafluorophenacyl)thio-1,N(6)-etheno-2'-deoxyadenosine 5'-triphosphate 3, photodecomposed at 3500 A with half-lives of 4.0 and 2.5 min, respectively. Analysis of the photoproducts of 2m demonstrated that the etheno group is stable but the azido decomposes primarily to the 2-(S-[3H-diazepinon-4-yl]thio)-1,N(6)-etheno-dAMP. Photolysis of both 2 and 3 with RT resulted in a time-dependent loss of activity, with maximum inactivation of 83 and 60%, respectively. Both 2 and 3 showed concentration-dependent photoinactivation of RT in the concentration range from 0 to 100 microM, with EC(50)s of 20 and 25 microM and maximum inactivation of 80 and 60%, respectively. Both the time and concentration dependent photoinactivation were strongly protected by template-primer, but only poorly inhibited by even high concentrations of TTP. Radiolabeled analogues [beta,gamma-(32)P]-2 and [beta,gamma-(32)P]-3 photoincorporated into the p66 subunit, an incorporation also protected by template primer. Identification of the site of incorporation was problematic for both photoprobes, but evidence presented is consistent with labeling sites for the phenacyl side chains of both 2 and 3 in the template grip. Nevertheless, the photoinactivation and incorporation data are consistent with our earlier conclusions from the kinetic data that these inhibitors are specific for the free form of RT in competition with template/primer, and thus represent a novel class of inhibitors.
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PMID:Characterization of a binding site for template competitive inhibitors of HIV-1 reverse transcriptase using photolabeling derivatives. 1241 67

Thrombotic thrombocytopenic purpura is a multisystem disease characterized by thrombocytopenia, hemolytic anemia, renal failure, fever, and neurologic abnormalities. Plasma exchange has revolutionized the outcome of this entity from a once fatal disease to a disease that potentially is cured or has prolonged remission. The understanding of the pathophysiology of TTP continues to evolve. Recently, investigators showed that a deficiency in a specific plasma protease responsible for cleaving vWf plays a crucial role in the familial form of TTP. This explains in part why patients usually respond to plasma exchange therapy. The identification of a mutation in a specific gene that belongs to the metalloproteinase family located at chromosome 9q34 could have important therapeutic implications. TTP can be induced by certain drugs, especially immunosuppressants, in the setting of bone marrow and solid organ transplantation. This disease also has been described in association with HIV, pregnancy, cancer, and chemotherapy. TTP remains an ideal example of how knowledge about the etiology of a disease can improve therapeutic interventions.
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PMID:Current concepts in the diagnosis and management of thrombotic thrombocytopenic purpura. 1262 68


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