EC:2.7.7.7 - FACTA Search

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Query: EC:2.7.7.7 (DNA polymerase)
17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

(+/-)-(1 alpha,2 beta,3 alpha)-9-[2,3-Bis(hydroxymethyl)cyclobutyl] guanine [(+/-)-BHCG] is a nucleoside analog with potent in vitro activity against herpesviruses [Tetrahedron Lett. 30:6453-6456 (1989)]. The two enantiomers have been synthesized, and their biochemical characterization is reported here. [1S(1 alpha,2 beta,3 alpha)]-9-[2,3-Bis(hydroxymethyl)cyclobutyl]guanine [(S)-BHCG] was phosphorylated by herpes simplex virus type 1 (HSV-1) thymidine kinase (Vmax = 8 nmol/hr/micrograms of enzyme), whereas [1R(1 alpha,2 beta,3 alpha)]-9-[2,3-bis(hydroxymethyl)cyclobutyl]guanine [(R)-BHCG] was a poor substrate for the viral thymidine kinase under these conditions. The triphosphate of each enantiomer was enzymatically synthesized, and both enantiomers competitively inhibited HSV-1 DNA polymerase with respect to dGTP. However, the potency of (R)-BHCG-TP was 4 orders of magnitude greater than that of (S)-BHCG-TP. (R)-BHCG-TP inhibited HeLa DNA polymerase alpha, but the inhibition constant was 30-fold higher than that for the viral DNA polymerase. In comparison, (S)-BHCG-TP was a very poor inhibitor of DNA polymerase alpha. (R)-[3H]BHCG-TP could be incorporated into a synthetic DNA template by HSV-1 DNA polymerase at 80% the extent of dGTP under the assay conditions used and, therefore, could act as an alternative substrate. Incorporation of (R)-BHCG-TP was similar to that observed for acyclovir triphosphate and ganciclovir triphosphate, based on maximal velocities. In contrast, HSV-1 DNA polymerase did not incorporate (S)-BHCG-TP into DNA. Compared with dGTP, only limited extension (10%) of the DNA primer by HSV-1 DNA polymerase occurred after incorporation of (R)-BHCG-TP and, therefore, (R)-BHCG-TP acts as a nonobligate chain terminator.
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PMID:Inhibition of herpes simplex virus type 1 DNA polymerase by [1R(1 alpha,2 beta,3 alpha)]-9-[2,3-bis(hydroxymethyl)cyclobutyl] guanine. 165 94

Antiviral drug resistance is an area of increasing clinical importance in treatment of a number of viruses including herpes simplex virus (HSV) and human cytomegalovirus (CMV). Work with these herpesviruses illustrates the value of studies of drug resistance. Novel aspects of drug mechanisms, such as a CMV gene product that contributes to ganciclovir phosphorylation, can be identified via drug resistance mutations. Drug targets such as the HSV DNA polymerase that are involved in drug recognition can be dissected by sequencing of drug-resistance mutations, which can point to alternate therapeutic strategies. Analysis of virus mutants in animal models and in patient populations can help assess the value of viral proteins such as the HSV thymidine kinase and ribonucleotide reductase as drug targets and the pathogenic potential of drug resistant mutants. Such studies reveal a broad spectrum of alterations conferring resistance and emphasize the importance of heterogeneous populations of virus in resistance and pathogenesis and the need to develop alternate therapies.
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PMID:The implications of resistance to antiviral agents for herpesvirus drug targets and drug therapy. 165 11

Using as antigens fusion proteins expressed in bacteria, we have generated polyclonal antisera specific for the herpes simplex virus (HSV) type 1 DNA polymerase. A variety of immunologic, genetic, and biochemical assays were used to characterize these antisera and demonstrate their specificity for the HSV DNA polymerase. Using these antisera, measurements of the synthesis and accumulation of HSV DNA polymerase in infected Vero cells were made. Peak rates of polymerase synthesis were observed at 4 h postinfection, as much as 2 h before peak levels of polymerase mRNA accumulation. At all times examined, the HSV DNA polymerase polypeptide was found to be synthesized at a lower rate per mRNA than the viral thymidine kinase, with this difference being especially dramatic at later times. Infected-cell RNA isolated at 2 and 6 h postinfection directed the synthesis of similar amounts of polymerase polypeptide per polymerase transcript in rabbit reticulocyte lysates, indicating that polymerase transcripts are inherently as translatable at both times. An HSV mutant in which sequences including a short upstream open reading frame in the HSV DNA polymerase transcript were deleted specified polymerase mRNA whose translational efficiency was no more than marginally greater than that of the wild-type virus. These results demonstrate that polymerase expression is regulated by inefficient translation mediated by sequences other than the short upstream open reading frame and that this leads to an early shutoff of polymerase synthesis during HSV infection.
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PMID:Translational regulation of herpes simplex virus DNA polymerase. 169 12

The enzymes of DNA polymerization and DNA precursor synthesis are assembled in the replitase complex during the S phase of the cell cycle. Cross-inhibition is a phenomenon shown by enzymes of the replitase complex, in which inhibition of one enzyme of the complex leads to inhibition of a second, unrelated enzyme. This inhibition occurs only in vivo and only during S phase. The second enzyme shows no inhibition in vitro. In this study, using Chinese hamster embryo fibroblast cells, we have shown that direct allosteric interactions, i.e., structural interaction from a remote site within the replitase complex, is the cause of cross-inhibition of thymidylate synthase activity by the inhibitors of ribonucleotide reductase and DNA polymerase, because disruptions of the deoxynucleotide pools, which would be predicted for alternative explantations, do not occur. Cross-inhibition of DNA polymerase by hydroxyurea is demonstrated by the cessation of DNA synthesis when ribonucleotide reductase block is circumvented by the provision of all four deoxynucleosides. In addition to the cross-inhibition for thymidylate synthase and DNA polymerase, we have also presented evidence, on the basis of alterations of the in vivo conversion of deoxyuridine to dUMP, that cross-inhibition also occurs for the enzyme thymidine kinase. This conclusion is further supported by the lack of inhibition of the similar process in RNA synthesis, because enzymes of RNA synthesis are not included in the replitase complex. To facilitate the measurements, we have introduced a novel method of distinguishing between thymidine and deoxyuridine derivatives, making use of the fact that a tritium label placed in the 5'-position of deoxyuridine is removed on conversion to thymidine by methylation, whereas a tritium placed in the 6'-position is not.
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PMID:Allosteric interaction of components of the replitase complex is responsible for enzyme cross-inhibition. 169 15

We recently found that inhibition of MYB protein synthesis in human peripheral blood mononuclear cells (PBMC) exposed to human c-myb (designated MYB) antisense oligodeoxynucleotides prevents entry into S phase and cell proliferation. To determine the mechanism(s) by which down-regulation of human c-myb protein (MYB) synthesis interferes with DNA synthesis, we analyzed mRNA levels of DNA polymerase alpha and proliferating cell nuclear antigen (PCNA), transcripts of two genes required for DNA synthesis, in normal and leukemic T lymphocytes exposed to MYB antisense oligodeoxynucleotides. Expression of DNA polymerase alpha was inhibited both in normal T lymphocytes progressing from G0 to S phase and in exponentially growing CCRF-CEM leukemic cells, whereas expression of PCNA was inhibited only in mitogen-stimulated PBMC and remained essentially unaffected in the leukemia T-cell line. The functional link between expression of MYB and DNA polymerase alpha mRNAs was further demonstrated by analyzing DNA polymerase alpha mRNA levels in a temperature-sensitive (ts) fibroblast cell line (TK-ts13; TK is thymidine kinase) constitutively expressing human MYB mRNA driven by the simian virus 40 (SV40) promoter. In the MYB-expressing TK-ts13 cells, DNA polymerase alpha mRNA levels were unaffected following shift to the nonpermissive temperature of 39.6 degrees C, whereas in the parental line, DNA polymerase alpha mRNA levels were readily down-regulated. These findings indicate that the expression of MYB is related to that of DNA polymerase alpha in cells expressing MYB at high levels and suggest that there is a functional link between c-myb and DNA polymerase alpha mRNA expression during cell cycle progression of normal T lymphocytes.
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PMID:Inhibition of T-cell proliferation by a MYB antisense oligomer is accompanied by selective down-regulation of DNA polymerase alpha expression. 169 13

The antiviral distamycin A and its phenyl mustard derivative FCE24517 possessing antitumor activity were tested for their ability to inhibit macromolecular synthesis in three human and one murine cell line. While distamycin A was poorly active in these systems, FCE24517 inhibited DNA synthesis efficiently, RNA synthesis to a lower extent and had little effect on protein synthesis. These findings suggest that the in vivo activity of FCE24517 derives from the specific inhibition of DNA synthesis. When the two drugs were tested on several enzymes involved in human DNA metabolism a strikingly similar pattern of inhibition appeared, with distamycin A being the more potent. Both drugs showed: A), no inhibitory activity against thymidine kinase and DNA primase; B), low activity against DNA topoisomerases I and II and the 3'-5' exonuclease associated with the DNA polymerase epsilon; C), high activity against DNA polymerases alpha and epsilon, uracil-DNA glycosylase and the joining activity of the replicative DNA ligase; D), the highest inhibitory activity against the AMP-dependent DNA relaxing activity of DNA ligase. The strong in vitro inhibition of several DNA enzymatic activities, including DNA ligase, do not match with the in vivo activities of the two drugs. However a unique difference was observed: only FCE24517 inhibited the DNA-independent reaction of adenylation of human DNA ligase while the adenylation reaction of T4 and E. coli DNA ligase was unaffected by either drug. It is still unclear whether these properties are relevant for modulating the killing activity of FCE24517 against proliferating cells both in culture and in vivo. Nevertheless FCE24517 is the first known molecule capable of interacting directly and specifically with human DNA ligase.
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PMID:Specific inhibition of human DNA ligase adenylation by a distamycin derivative possessing antitumor activity. 170 93

6-Methoxypurine arabinoside (ara-M) is a highly selective inhibitor of varicella-zoster virus (VZV). It belongs to a class of purine arabinosides whose anti-VZV activity in vitro correlates with substrate utilization by the VZV-encoded thymidine kinase (TK) (D. R. Averett, G. W. Koszalka, J. A. Fyfe, G. B. Roberts, D. J. M. Purifoy, and T. A. Krenitsky, Antimicrob Agents Chemother. 35:851-857, 1991). In this study, the mechanism of action of ara-M was explored. VZV-infected human fibroblasts selectively accumulated ara-M and its phosphorylated metabolites, whereas in uninfected fibroblasts or in those infected with a TK-deficient strain of VZV, there was virtually no cellular uptake of ara-M. The major intracellular metabolite of ara-M in VZV-infected cells was identified as the triphosphate of adenine arabinoside (ara-ATP). Appreciable levels of ara-ADP, ara-AMP, and ara-MMP were also detected. However, di- or triphosphorylated forms of ara-M were not detected. Moreover, in VZV-infected cells, the concentrations of ara-ATP which accumulated in the presence of ara-M were up to eightfold higher than those generated with ara-A itself. In contrast, in uninfected cells, the levels of ara-ATP which accumulated in the presence of ara-M were barely detectable. Clearly, Ara-M activation was dependent on the activity of the virus-encoded TK, while ara-A anabolism resulted primarily from the activity of host cell enzymes. Therefore, ara-M selectively generates the DNA polymerase inhibitor ara-ATP in the VZV-infected cell.
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PMID:Selective anabolism of 6-methoxypurine arabinoside in varicella-zoster virus-infected cells. 172 79

The biochemical mechanisms of resistance to CRC 680578, a new antitumour chloroethylnitrosourea alpha-amino acid derivative, were studied. Alterations in DNA, RNA and protein syntheses, SH-group content, drug efflux, activities of replicative and repair enzymes, such as ribonucleotide reductase, thymidine kinase, O6-alkylguanine-DNA-alkyltransferase and DNA polymerases alpha and beta and damages of the DNA secondary structure were investigated in sensitive and resistant to CRC 680578 leukemia L1210 cells. It was found that the total SH-group number in drug-resistant cells was increased (about 1.3-fold in comparison with sensitive cells) which seems to be due to the mechanisms of drug resistance. CHC 680578 induced less pronounced inhibition and more rapid restoration of DNA and RNA synthesis in resistant cells. No differences between the ribonucleotide reductase and thymidine kinase activities were found either in intact cells of the both strains or after drug administration. The efficiency of repair of DNA chloroethyl adducts by O6-alkylguanine-DNA-alkyltransferase in leukemia cells of various sensitivity was found to be identical. The differences in enzyme activities in intact cells of the both strains were insignificant. It was supposed that factors other than changes in the level of O6-alkylguanine-DNA-alkyltransferase in leukemia cells may be responsible for the resistance to CRC 680578. The increase in the levels of DNA polymerase alpha and, especially, of DNA polymerase beta, in sensitive (but not resistant) mouse leukemia cells 48 hours after drug administration is though to define the mechanism of resistance to the new antitumour agent CHC 680578.
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PMID:[Biochemical mechanisms of resistance to a new antineoplastic drug CRC 680578 from the nitrosourea class]. 178 68

We have applied the polymerase chain reaction (PCR) technique to analyse mutations in the thymidine kinase (TK) gene of varicella-zoster virus (VZV) associated with resistance to the 5-bromovinyl (BVaraU) and 5-propynyl (PYaraU) analogues of arabinofuranosyl deoxyuridine. The results from this study allow three clear conclusions to be drawn. Firstly, the technique clearly shows that populations of VZV derived from plaque purification were truly clonal only when the plaques were initiated from cell-free virus (representing a tiny fraction of infectious virus) and plaques initiated by infected cells contained a mixture of variants. Secondly, despite the background mutations caused by errors of the Taq DNA polymerase, mutations relevant to drug resistance can easily be distinguished. The BVaraU-resistant mutant, 7-1, contained an aspartic acid to asparagine mutation at residue 18 and a single base deletion (position 65298 of the VZV DNA sequence), resulting in a frameshift and premature termination of the polypeptide chain, was found in the BVaraU-resistant mutant YSR. PYaraU-resistant virus populations contained viruses with one or more of three independent mutations, i.e. single base substitutions resulting in mutations from leucine to proline at residue 92, histidine to arginine at residue 97 and a deletion of 20bp (residues 65,135 to 65,154). Finally, the technique has uncovered novel sites in the virus TK associated with drug resistance. We conclude that in vitro amplification using the PCR combined with cloning and sequencing is a relatively rapid method for identifying mutations in small virus populations even when they are not homogeneous.
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PMID:Analysis of mutations in the thymidine kinase genes of drug-resistant varicella-zoster virus populations using the polymerase chain reaction. 184 97

Purine and pyrimidine adducts of alpha-methylene-gamma-lactone demonstrated potent cytotoxicity against murine L1210 lymphoid leukemia growth as well as a variety of human tissue cultured tumors. The most potent compound, 9-[(2-methyl-4-methylene-5-oxotetrahydrofuran-2-yl)-methyl 1] adenine 1 demonstrated significant inhibition of DNA synthesis in L1210 leukemic cells with moderate inhibition of protein synthesis. The major enzyme activities inhibited by 1 were DNA polymerase alpha, ribonucleoside reductase and t-RNA polymerase with marginal inhibition of thymidine kinase, TMP kinase, PRPP amidotransferase and IMP dehydrogenase. The inhibition of DNA polymerase alpha activity by 1 was evident at the lowest concentration 25 microM and was evident within 15 min incubation at 100 microM. The magnitude of enzyme inhibition was consistent with the observed DNA synthesis inhibition by 1. The only deoxyribonucleotide level reduced by 1 was the dATP pool level. U.V. absorption of DNA after interacting with 1 demonstrated a hyperchromic effect and L1210 DNA strand scission was observed after 24 hr incubation with 1 suggesting some type of interference with the DNA template by the drug.
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PMID:The effects of alpha-methylene-gamma-lactone purines and pyrimidines on L1210 lymphoid leukemia nucleic acid metabolism. 201 69

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