EC:2.7.1.21 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.1.21 (thymidine kinase)
7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The outcome of virus-host interaction after peripheral inoculation of herpes simplex virus (HSV) depends on virus replication at the portal of entry, the ability of the virus to invade nerve endings and capillary endothelium cells and, the rate of virus replication in neurons and nonneural cells of the nervous system. Functions involved are the activity of viral thymidine kinase, DNA polymerase, immediate early transactivator proteins, the transcription initiation protein, the envelope protein(s) governing virus penetration, syncytium formation and natural killing of infected cells as well as some other regulatory DNA sequences.
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PMID:DNA regions and genes determining the virulence of herpes simplex virus. 135 74

Left pneumonectomy was performed on 4 week-old male Fischer-344 rats. Changes in DNA biosynthesis and the activities of related enzymes were studied in the contralateral lungs of the pneumonectomized animals (n = 55) and compared with sham-operated (n = 55) and untreated control animals (n = 40) The wet weight of the contralateral lung of the pneumonectomized rats reached that of both lungs of the untreated and sham-operated rats 14 days after the operation. The activities of thymidine kinase and DNA polymerase from the regenerating lungs were elevated on Days 1 and 7. To determine the molecular forms of DNA polymerase in the crude extract, phosphocellulose column chromatography was performed. The type of DNA polymerase with the highest activity was alpha in regenerating lung on Days 1, 3, and 7. These results suggest that DNA replication for cellular proliferation was elevated in the remaining lung after pneumonectomy. In addition, an interlobar difference in DNA biosynthesis was observed in the remaining lung. The increase was especially marked in the cardiac lobe, followed by increases in the DNA content of the remaining lobes on Day 7. From these observations we conclude (1) that increased activity of DNA polymerase alpha is likely to be an initial change in compensatory lung growth, and may be caused by some unknown stimulator in lung tissue, and (2) that DNA biosynthesis may differ among the lobes of the lung, at least until 3 days post-pneumonectomy.
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PMID:DNA synthesis and related enzymes altered in compensatory lung growth in rats. 145 64

Herpes simplex virus (HSV) resistant to acyclovir can produce persistent mucocutaneous ulcerative disease in patients with the acquired immunodeficiency syndrome (AIDS). The incidence of clinically significant acyclovir-resistant HSV disease has dramatically increased since the advent of the AIDS epidemic. The primary mechanism of acyclovir resistance is induction of viral mutants defective or deficient in thymidine kinase, the viral-encoded enzyme, which catalyzes the rate-limiting step in the triphosphorylation of acyclovir to its active form (acyclovir triphosphate). Foscarnet, a potent inhibitor of HSV DNA polymerase, does not require phosphorylation for its antiviral activity. This compound has been found to be effective in the treatment of acyclovir-resistant HSV infection by several investigators. A recently completed dose-comparative trial of foscarnet in AIDS patients with acyclovir-resistant HSV has confirmed the safety and efficacy of two doses of foscarnet (40 mg/kg every 8 or 12 hours) in the treatment of this disease, as well as providing preliminary evidence supporting the utility of foscarnet maintenance therapy in delaying recurrence of HSV lesions. Analysis of data from this trial has been complicated by the tremendous variability in lesion size at initiation of therapy, making any statistically valid comparison of treatment regimens almost impossible. A further trial in AIDS patients with acyclovir-resistant HSV infection has been designed to define better the role of foscarnet maintenance and, in light of evidence that a significant proportion of initial recurrences are due to acyclovir-sensitive HSV, to examine the potential utility of acyclovir maintenance following foscarnet induction therapy.
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PMID:Foscarnet treatment of acyclovir-resistant herpes simplex virus infection in patients with acquired immunodeficiency syndrome: preliminary results of a controlled, randomized, regimen-comparative trial. 153 Dec 85

Combination therapy with A1110U, an inactivator of the herpes simplex virus (HSV) and the varicella zoster virus ribonucleotide reductase, and acyclovir (ACV) was evaluated for treatment of cutaneous herpetic disease in athymic mice infected on the dorsum. In this model, infection with HSV produces a 'zosteriform-like' rash that is first visible on day 3 or 4 post-infection (p.i.) and eventually extends from the anterior mid-line to the dorsal mid-line of the affected flank. In untreated mice, the infection is fatal at about day 7 p.i. presumably due to central nervous system involvement. Topical treatment of infections induced by either wild-type (wt) HSV-1 or wt HSV-2 with 3% A1110U in combination with 5% ACV resulted in synergistic (P less than 0.01) reductions in lesion scores. Therapy was also synergistic in mice infected with an ACV-resistant thymidine kinase-deficient mutant and an ACV-resistant TK-altered mutant HSV-1 isolated. Combination therapy was very effective in reducing lesion scores of mice infected with an ACV-resistant HSV-1 DNA polymerase mutant, but did not result in statistically significant synergy (P = 0.07) because of the enhanced efficacy of A1110U alone against this virus. These results provide encouragement that the combination of A1110U and ACV may offer an effective therapy for topical treatment of cutaneous HSV infections in humans.
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PMID:Synergistic topical therapy by acyclovir and A1110U for herpes simplex virus induced zosteriform rash in mice. 165 Jan 66

(+/-)-(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

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

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