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)

Deoxythymidine kinases (EC 2.7.1.--) induced in HeLa TK- cells by Herpes simplex Type I and Type II viruses both had a requirement for divalent cations. The enzymes had the highest activities in the presence of Mg2+, followed by Mn2+, Ca2+, Fe2+, and in that order, whereas they were inactive in the presence of Zn2+ and Cu2+. The amount of Mg2+ required for optimal activity was dependent on the amount of ATP present, so that optimal activities were found when the concentration of Mg2+ was equal to that of ATP; an excess of Mg2+ inhibited the reaction. The activities of various nucleoside triphosphates as phosphate donors for Herpes simplex virus Type I deoxythymidine kinase were in the order: ATP = dATP = ara ATP greater than CTP greater than dCTP greater than UTP greater than dUTP greater than GTP greater than dGTP. Those for Herpes simplex virus Type II deoxythymidine kinase were in the order: CTP greater than dCTP = ara CTP greater than dATP greater than ATP greater than UTP greater than GTP greater than dUTP = dGTP. For both deoxythymidine kinases induced by Herpes simplex virus, the nucleoside triphosphates tested exerted cooperative effects. The Km values of ATP and CTP for the Herpes simplex virus Type I enzyme were 30 and 70 muM respectively; whereas those for the Herpes simplex virus Typr II enzyme were 140 and 450 muM. Studies on binding of various thymidine analogs with free 5'-OH to these deoxythymidine kinases indicated that 5-substituted ethyl-, vinyl-, allyl-, propyl-, iodo- and bromo-dUrd as well as iodo5 dCyd and bromo5 dCyd had good affinity to both enzymes. In contrast, vinyl5 Urd, iodo5 Urd and arabinosylthymidine had good affinity only to the Herpes simplex virus Type I enzyme but not to the Herpes simplex virus Type II deoxythymidine kinase. All of these thymidine analogs were competitive inhibitors, with KI values in the range of 0.25 to 1.5 muM. Herpes simplex virus Type I deoxythymidine kinase was less sensitive to either dTTP or iodo dUTP inhibition than Herpes simplex virus Type II. Both dThd and dCyd could serve as substrates and competed with each other for Herpes simplex viruses Type I and Type II induced kinases, but they differed in their Km values for these enzymes. The Km values of dThd and dCyd were 0.59 muM and 25 muM for Herpes simplex virus Type I deoxythymidine kinase; while they were 0.36 muM and 88 muM respectively for the Herpes simplex virus Type II enzyme.
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PMID:Deoxythymidine kinase induced in the HELA TK- cells by herpes simplex virus type I and type II. Substrate specificity and kinetic behavior. 18 65

1-beta-d-Arabinofuranosylthymine (ara-T), a metabolite of the sponge Tethya crypta, has shown selective activity against herpes simplex virus (HSV) replication (G. A. Gentry and J. F. Aswell, Virology 65:294-296, 1975). Analysis of HSV-infected and uninfected cell lysates by CsCl isopycnic centrifugation showed that ara-T blocked the incorporation of [(3)H]hypoxanthine into viral deoxyribonucleic acid and, to a large extent, into host deoxyribonucleic acid of infected (but not uninfected) cells. Additional experiments with [gamma-(32)P]adenosine 5'-triphosphate as a radiophosphate donor demonstrated that ara-T is phosphorylated by extracts of HSV-infected BHK cells and not by those of uninfected cells. At an ara-T concentration that almost completely inhibited the growth of LM cells, which had been transformed to a pyrimidine deoxyribonucleoside kinase(+) (dPyK(+)) phenotype by ultraviolet-inactivated HSV-1, the growth of uninfected LM cells was not affected. These results indicate that the viral dPyK is responsible for the selective antiviral activity of ara-T. This conclusion was further supported by experiments that showed that the replication of a variety of dPyK(-) mutants of HSV-1 and HSV-2 were not affected by ara-T and that ara-T inhibited the phosphorylation of deoxycytidine and deoxythymidine by HSV-1 dPyK, but not by host deoxycytidine and deoxythymidine kinases, respectively. Ara-T also selectively inhibited the replication of equine herpesvirus type 1 (EHV-1) in vitro and was effective against EHV-1 infection in vivo in hamsters. Further, EHV-1 was inhibited by ara-T and by bromodeoxyuridine in LM cells lacking a cytosol thymidine kinase, suggesting that EHV-1 induces a dPyK. Finally, spectrophotometric assay for thymine suggested that ara-T is not a substrate for nucleoside phosphorylase of hamster liver, and a microbiological assay indicated that substantial amounts of ara-T were excreted in the urine of uninfected hamsters that had received a single injection of 5 mg of ara-T, the amount given in each injection in the in vivo experiments with EHV-1.
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PMID:Antiviral activity of arabinosylthymine in herpesviral replication: mechanism of action in vivo and in vitro. 19 86

The phosphorylation of arabinofuranosylthymine (araThd) has been studied both in non-infected cells and in those infected with herpes simplex virus (HSV-1, Lennette; HSV-1, IES and HSV-2, D-316). In these experiments, HSV strains were used which either contain (Lennette, TK+ and D-316 TK+) or lack (IES, TK-) the capacity to induce pyrimidine deoxyribonucleoside kinase. It was found that extracellularly administered araThd is phosphorylated to ara TTP via araTMP and araTDP in both non-infected and in HSV-infected cells. The phosphorylating capacity is more than tenfold lower in non-infected cells than in infected cells. Interestingly, cells infected with the TK- strain have a tenfold higher phosphorylating capacity than normal, uninfected cells, a fact which might indicate that host cell deoxythymidine kinase is induced during HSV infection. AraTMP is incorporated into cellular DNA but not into HSV DNA. This finding is in contrast to observations with arabinofuranosyladenine, which is incorporated into both cellular and HSV DNA. In vitro experiments with HSV-induced DNA polymerase show that araTTP strongly inhibits the enzyme activity. Therefore we conclude that the inhibition of HSV DNA polymerase by araTTP (formed intracellularly from araThd) is the explanation for the observed antiviral activity of araThd.
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PMID:Phosphorylation of arabinofuranosylthymine in non-infected and herpesvirus (TK+ and TK-)-infected cells. 22 22

Cytoplasmic and mitochondrial deoxythymidine kinase isozymes derived from the blast cells of acute myelocytic leukemia differ in their substrate specificity and kinetic behavior. These enzymes require divalent cations for their activity. The data suggest that the major role of idvalent cations is to chelate with ATP; the complex thus formed serves as the phosphate donor for the reaction. The activity of various triphosphate nucleosides as a phosphate donor for cytoplasmic deoxythymidine kinase is as follows: ATP = dATP greater than ara-ATP greater than GTP greater than CTP greater than dGTP = dCTP greater than dUTP, whereas for mitochondrial deoxythymidine kinase, the order of activity is ATP greater than CTP greater than UTP = dATP greater than ara-ATP greater than dGTP = dCTP greater than dUTP. Neither IdUTP nor dTTP could serve as a phosphate donor in the reaction catalyzed by either isozyme. From the many pyrimidine analogues tested for their binding affinity to each of these isozymes, I-dUrd and Br-dUrd had high good affinity which was equivalent to that of deoxythymidine. 5-Allyl-dUrd, 5-ethyl-dUrd, and 5-propyl-dUrd were only weakly bound to each isozyme. 5-I-dCyd, 5-Br-dCyd, dCyd, and 5-vinyl-dUrd were tightly bound to mitochondrial deoxythymidine kinase but not to the cytoplasmic isozyme. dTTP and I-dUTP are potent inhibitors of the reaction catalyzed by both isozymes. In contrast, dCTP and ara-CTP are potent inhibitors only of the mitochondrial isozyme, but not of the cytoplasmic isozyme. ATP-MG2+ acts as a sigmoidal substrate of the cytoplasmic isozyme with a"Km" of 0.22 mM, and as a regular substrate of the mitochondrial isozyme with a Km of 0.1 mM. Deoxythymidine acts as a regular substrate for both cytoplasmic and mitochondrial isozyme with a Km of 2.6 and 5.2 muM, respectively. Initial velocity as well as product inhibition studies suggest that the cytoplasmic isozyme catalyzes the reaction via a "sequential" mechanism. In contrast, mitochondrial deoxythymidine kinase catalyzes the reaction via a "ping-pong" mechanism.
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PMID:Human deoxythymidine kinase II: substrate specificity and kinetic behavior of the cytoplasmic and mitochondrial isozymes derived from blast cells of acute myelocytic leukemia. 106 65

Twenty four cloned isolates of Aujeszky's disease virus collected from outbreaks of Aujeszky's disease from 1981 through 1989 in Japan were characterized by their restriction endonuclease (RE) cleavage patterns, virulence for mice and thymidine kinase (TK) activity. All of the isolates belonged to Type II of the four types classified by Herrmann et al. (1984). Based on the number and migration rate of the restriction fragments, the isolates were divided into 7 groups with Bam HI, 9 groups with Kpn I, 3 groups with BstE II and 2 groups with Sal I. The results indicate that the RE analysis, especially with Bam HI and Kpn I, provides useful epidemiological information about field isolates of Aujeszky's disease virus. All of the isolates showed virulence for mice ranging from 6.9 to 63.0 (PFU/LD50). It was interesting that the Nagano S87 strain, which had the highest virulence for the mouse, showed unique RE cleavage patterns with four enzymes. On the other hand, ara-T-resistant, TK-negative strain, was avirulent for mice (greater than 10(6.4) PFU/LD50). All of the isolates investigated in this study showed TK activity by the thymidine plaque autoradiography.
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PMID:Characterization of Japanese isolates of Aujeszky's disease virus by restriction endonuclease cleavage patterns, virulence in mice and thymidine kinase activity. 132 16

Ara-U-induced S-phase accumulation and the interaction between high concentrations of ara-U (HiCAU) and ara-C were investigated in L1210 leukemia cells in vitro. Treatment of exponentially growing L1210 murine leukemia cells with ara-U (200-1000 microM) for 48 h caused a dose-dependent accumulation of cells in the S-phase. The extent of this ara-U-induced S-phase accumulation correlated with ara-U incorporation into DNA and with increases of up to 172% and 464% in the specific activities of deoxycytidine kinase and thymidine kinase, respectively, over control values. Metabolism of 1 microM ara-C following the exposure of cells to ara-U (1 mM) resulted in 4.5 pmol araC DNA/mg protein vs 2.1 pmol/mg protein in control cells. Although 48-h exposure of cells to 200 and 400 microM ara-U is not cytotoxic, it enhances the cytotoxicity of ara-C (10-100 microM) 4- to 10-fold. Ara-U-induced S-phase accumulation is inhibited by deoxypyrimidine nucleosides but not by pyrimidine or deoxypurine nucleosides. Some of the ara-U and ara-C concentrations used in this study are achievable in clinical practice, and ara-U/ara-C interactions may explain in part the unique therapeutic utility of high-dose ara-C.
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PMID:Deoxypyrimidine-induced inhibition of the cytokinetic effects of 1-beta-D-arabinofuranosyluracil. 156 88

Seven 6-alkoxypurine arabinosides were synthesized and evaluated for in vitro activity against varicella-zoster virus (VZV). The simplest of the series, 6-methoxypurine arabinoside (ara-M), was the most potent, with 50% inhibitory concentrations ranging from 0.5 to 3 microM against eight strains of VZV. This activity was selective. The ability of ara-M to inhibit the growth of a variety of human cell lines was at least 30-fold less (50% effective concentration, greater than 100 microM) than its ability to inhibit the virus. Enzyme studies suggested the molecular basis for these results. Of the seven 6-alkoxypurine arabinosides, ara-M was the most efficient substrate for VZV-encoded thymidine kinase as well as the most potent antiviral agent. In contrast, it was not detectably phosphorylated by any of the three major mammalian nucleoside kinases. Upon direct comparison, ara-M was appreciably more potent against VZV than either acyclovir or adenine arabinoside (ara-A). However, in the presence of an adenosine deaminase inhibitor, the arabinosides of adenine and 6-methoxypurine were equipotent but not equally selective; the adenine congener had a much less favorable in vitro chemotherapeutic index. Again, this result correlated with data from enzyme studies in that ara-A, unlike ara-M, was a substrate for two mammalian nucleoside kinases. Unlike acyclovir and ara-A, ara-M had no appreciable activity against other viruses of the herpes group. The potency and selectivity of ara-M as an anti-VZV agent in vitro justify its further study.
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PMID:6-Methoxypurine arabinoside as a selective and potent inhibitor of varicella-zoster virus. 164 71

6-Methoxypurine arabinoside (ara-M) exhibits potent activity against varicella-zoster virus (VZV) as a result of ara-M's anabolism to the triphosphate of adenine arabinoside (ara-ATP) in VZV-infected cells. The adenosine deaminase inhibitor erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) enhanced the formation of ara-ATP by inhibiting ara-M demethoxylation. In contrast, deoxycoformycin and coformycin, inhibitors of both adenosine deaminase and AMP deaminase, blocked the formation of ara-ATP and reversed the anti-VZV activity of ara-M. These results indicate that after the initial phosphorylation of ara-M by the VZV-coded thymidine kinase, the monophosphate is demethoxylated by AMP deaminase to form ara-IMP, which is converted to ara-ATP by the sequential actions of the cellular adenylosuccinate synthetase, adenylosuccinate lyase, and nucleotide kinases.
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PMID:Anabolic pathway of 6-methoxypurine arabinoside in cells infected with varicella-zoster virus. 166 24

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 present studies have examined the effects of 1-beta-D-arabinofuranosylcytosine (ara-C) on activation of the transcription factor kappa B (NF-kappa B). The results demonstrate that treatment of human KG-1 myeloid leukemia cells with ara-C is associated with induction of protein binding to the NF-kappa B consensus sequence. NF-kappa B binding was activated at 30 min and reached maximal levels of binding at 1-2 hr of ara-C treatment. The NF-kappa B consensus sequence was ligated to the heterologous thymidine kinase (TK) promoter and the human growth hormone (GH) reporter gene to determine whether ara-C-induced NF-kappa B activity includes an enhancer function. Ara-C treatment had little effect on transient expression of pTKGH in KG-1 cells but increased transcription of the p (NF-kappa B) TKGH vector by 8-fold. The results also demonstrate that ara-C transiently increases NF-kappa B mRNA levels. However, the finding that ara-C-induced binding of NF-kappa B to DNA occurs in the presence of cycloheximide indicates that this agent activates preexisting NF-kappa B protein. These results suggest that ara-C induces a cytoplasmic pathway that transduces signals to the nucleus by activation of NF-kappa B.
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PMID:Activation of the transcription factor kappa B in human KG-1 myeloid leukemia cells treated with 1-beta-D-arabinofuranosylcytosine. 173 23


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