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

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

Fluorodeoxyuridine (FdUrd) is a cytotoxic analogue of thymidine which requires activation by thymidine kinase to FdUMP. FdUMP inhibits thymidylate synthetase and, thus, the synthesis of dTTP. 5'-Aminothymidine (5'-AdThd) can antagonize the feedback inhibition exerted by dTTP on thymidine kinase activity and thereby stimulate FdUrd phosphorylation. This provided a novel approach to assess the degree to which end product inhibition regulates the phosphorylation of FdUrd. We used 5'-AdThd to investigate the effects of dThd and IdUrd on the regulation of FdUrd uptake in intact 647V cells, a human bladder cancer cell line. Contributions from catabolic processes were found not to be important in our system. We detected no nucleoside phosphorylase activity in the 647V cells or any effect of 5'-AdThd on the breakdown of 5-fluorodeoxyuridine monophosphate to FdUrd by crude preparations from these cells. Thus, phosphorylation by thymidine kinase determined FdUrd uptake (phosphorylation). In the absence of added nucleosides the rate of FdUrd uptake increased in a time dependent fashion. Diminished feedback inhibition of thymidine kinase appeared to be an important factor, as evidenced by a decrease in intracellular dTTP pools and a time dependent loss in the ability of 5'-AdThd to stimulate FdUrd uptake. Thymidine and iododeoxyuridine inhibited FdUrd phosphorylation (uptake) by two mechanisms: competition for the active site of thymidine kinase and increased feedback inhibition. Increased feedback inhibition was indicated by stimulation of FdUrd uptake by 5'-AdThd. The effects of IdUrd on FdUrd uptake were also time dependent, presumably reflecting accumulation of iododeoxyuridine triphosphate and dTTP pools. FdUrd cytotoxicity was modulated by dThd, IdUrd, and 5'-AdThd in parallel to their perturbation of FdUrd uptake. Individually they reduced the growth inhibitory properties of FdUrd. These results show that the regulation of FdUrd uptake is critically dependent on the presence of dThd and IdUrd and emphasize the potential importance of circulating levels of these nucleosides in mediating FdUrd activation and cytotoxicity.
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PMID:Regulation of the activation of fluorodeoxyuridine by substrate competition and feedback inhibition in 647V cells. 252 Dec 99

5'-Amino-2',5'-dideoxythymidine (5'-AdThd) is a nontoxic thymidine (dThd) analogue capable of antagonizing the feedback inhibition exerted by thymidine triphosphate (dTTP) on thymidine kinase (EC 2.7.1.21). In intact cells, this results in stimulation of thymidine uptake by 5'-AdThd. We have studied the interaction between 5'-AdThd and thymidine kinase purified from 647V cells. We found that 5'-AdThd inhibited competitively thymidine kinase activity (Ki of 0.5 microM) in the absence of dTTP whereas dTTP inhibited thymidine kinase activity in a noncompetitive manner. However, in the presence of dTTP, 5'-AdThd was able to stimulate enzyme activity in a mode that suggests competition with dTTP for the regulatory site. Altered interactions were observed at high substrate (dThd) concentrations, with dThd showing competitive kinetics with dTTP. In intact cells, we evaluated the hypothesis that antagonism of feedback inhibition could account for stimulation of dThd uptake by 5'-AdThd. If inhibition of thymidine kinase activity by dTTP is critical, then depletion of cellular dTTP by methotrexate should reduce the ability of 5'-AdThd to stimulate dThd uptake. Indeed, this was the case. If the dTTP pools were repleted by the addition of higher concentrations of dThd, the ability of 5'-AdThd to stimulate dThd uptake was restored. Furthermore, effects of 5'-AdThd on nucleoside phosphorylase or cytoplasmic 5'-nucleotidase activity (dTMP breakdown) could not account for the stimulation of dThd uptake in 647V cells. In summary, our results indicate that 5'-AdThd interacts with thymidine kinase at the dTTP-binding site, resulting in stimulation of enzyme activity and stimulation of dThd uptake in intact cells.
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PMID:Enzyme regulatory site-directed drugs: study of the interactions of 5'-amino-2', 5'-dideoxythymidine (5'-AdThd) and thymidine triphosphate with thymidine kinase and the relationship to the stimulation of thymidine uptake by 5'-AdThd in 647V cells. 253 72

We have previously reported that 5'-aminothymidine (5'-AdThd), an antagonist of the feedback inhibition exerted by dTTP that regulates thymidine kinase, enhances the uptake and cytotoxicity of 5-iododeoxyuridine in various human bladder cancer cell lines but not in normal human urothelial cells (HU) propagated in vitro. In this work we have analyzed the factors that could potentially account for the differential effect of 5'-AdThd among various cell types: 647V (a human bladder cancer cell line); HU; SV-HU (a SV40-transformed human urothelial cell line), and C3H/10T1/2 mouse embryo fibroblasts (10T1/2) cells. 5'-AdThd enhanced the uptake of IdUrd in SV-HU cells (greater than 400%), similar to what we have observed before for 647V cells. However, in 10T1/2 and HU cells, 5'-AdThd only minimally increased the uptake of 5-iododeoxyuridine (about 160%). Thymidine kinases purified from the different sources were similarly sensitive to inhibition by dTTP or 5'-AdThd and to deinhibition of the dTTP-induced regulation of enzyme activity by 5'-AdThd. Furthermore, [3H]-5'-AdThd permeated and accumulated intracellularly in all cell types. In none of these cultures was nucleoside phosphorylase activity detected, as indicated by the inability of the cells to produce thymine or iodouracil after exposure to the appropriate nucleosides. Also, 5'-AdThd did not affect the breakdown of dTMP by crude preparations of cytosolic 5'-nucleotidase from the different cells. We found that intracellular dTTP pools in the various cell types were substantially high (15-26 microM) compared to the sensitivity of thymidine kinase to inhibition by dTTP (IC50 2-4 microM). This suggests that thymidine kinase is in a strongly inhibited state in situ. To test the sensitivity of thymidine kinase (in situ) to regulation by dTTP we investigated: (a) the effect of depleting intracellular dTTP pools with methotrexate on the uptake of thymidine (dThd); and (b) the effect of pH on the uptake of dThd and its perturbation by 5'-AdThd, since the inhibition of thymidine kinase activity by dTTP is known to be pH dependent. We found that a 47% reduction of dTTP pools by methotrexate in 10T1/2 and HU cells did not result in an increase in thymidine kinase activity, as indicated by the lack of an effect on the uptake of dThd. However, we have previously shown that, under similar conditions, 647V cells show a substantial increase in dThd uptake.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Basis for the differential modulation of the uptake of 5-iododeoxyuridine by 5'-aminothymidine among various cell types. 270 29

PEG-mediated fusion between mouse Cl1d cells and primary Chinese hamster spleen cells produced interspecific hybrids which slowly and nonrandomly segregated Chinese hamster chromosomes. Cytogenetic and isozyme analysis (31 loci) of HAT and BrdU selected hybrid clones and subclones and of members of a hybrid clone panel retaining different combinations of Chinese hamster chromosomes enabled provisional assignment of the following enzyme loci on Chinese hamster chromosomes: thymidine kinase, galactokinase, and acid phosphatase-1 to chromosome 7; galactose-1-phosphate uridyltransferase to chromosome 2; and adenosine kinase, esterase D, glutathione reductase, glyoxalase, nucleoside phosphorylase, peptidases B and S, and phosphoglucomutase (PGM) 2 to chromosome 1. Assignments of PGM1, 6-phosphogluconate dehydrogenase, and enolase 1 to chromosome 2 were confirmed, and a chromosome 2 deletion (q23-q33) enabled the provisional assignment of PGM1 to that region. The assignments provide markers for the study of the genetic consequences of chromosomal rearrangements in Chinese hamster cell lines and support the concept of conservation of mammalian autosomal linkage groups.
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PMID:Confirmational, provisional, and/or regional assignment of 15 enzyme loci onto Chinese hamster autosomes 1, 2, and 7. 732 47

5-Iodo-2'-deoxy-L-uridine (L-IdU) and (E)-5-(2-bromovinyl)-2'-deoxy-L-uridine (L-BVdU) have been prepared and found to inhibit herpes simplex virus type 1 (HSV-1) thymidine kinase (TK) with activities comparable to those of their analogs with the natural D-sugar configuration. The mechanism of inhibition is purely competitive for L-IdU (Ki = 0.24 microM) and mixed-type for L-BVdU (Ki = 0.13 microM). High performance liquid chromatographic analysis of the reaction products demonstrated that the viral enzyme phosphorylates both L-enantiomers to their corresponding monophosphates with efficiency comparable to that for D-enantiomers. Neither L-enantiomer inhibits the human cytosolic TK. In contrast to their D-enantiomers, L-IdU and L-BVdU have no effect on human thymidylate synthase, either in HeLa cells or in TK-deficient HeLa cells transformed with the HSV-1 TK gene. Both L-enantiomers (i) have no effect on HeLa cell growth, (ii) are 1000-fold less cytotoxic toward TK-deficient HeLa cells transformed with the HSV-1 TK gene than are their D-enantiomers, (iii) in contrast to their D-enantiomers, are fully resistant to hydrolysis by nucleoside phosphorylase, and, (iv) in spite of their much lower cytotoxicity, most probably due to the very low affinity of L-BVdU monophosphate and L-IdU monophosphate for thymidylate synthase, are only 1 or 2 orders of magnitude less potent than their D-enantiomers in inhibiting viral growth, with potency comparable to that of acyclovir.
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PMID:5-Iodo-2'-deoxy-L-uridine and (E)-5-(2-bromovinyl)-2'-deoxy-L-uridine: selective phosphorylation by herpes simplex virus type 1 thymidine kinase, antiherpetic activity, and cytotoxicity studies. 760 65

Chromosomal aberrations in human gliomas are principally numerical. In tumours of low malignancy, karyotypes are frequently normal, but occasionally an excess of chromosome 7 and a loss of sex chromosome are observed. In highly malignant tumours, the most frequent aberrations are gain of chromosome 7, loss of chromosome 10 and less frequently losses or deletions of chromosomes 9, 22, 6, 13 and 14 or gains of chromosomes 19 and 20. To understand the meaning of these chromosome imbalances, the relationships between chromosome abnormalities and metabolic disturbances were studied. The losses or deletions observed affected principally chromosomes carrying genes encoding enzymes involved in purine metabolism. The activities of ten enzymes were measured: adenosine kinase, adenine phosphoribosyltransferase, adenylate kinase, methylthioadenosine phosphorylase, hypoxanthine phosphoribosyltransferase, adenylosuccinate lyase, inosine monophosphate dehydrogenase, adenosine deaminase, nucleoside phosphorylase and adenosine monophosphate deaminase. In parallel, two enzymes involved in pyrimidine metabolism, thymidine kinase and thymidylate synthase (TS), were studied. The activities of all these enzymes were measured on samples from 30 human primary glial tumours with low or high malignancy, six xenografted tumours at different passages, four portions of normal brain tissue and four non-glial brain neoplasms. As suggested by cytogenetic data, the enzymatic results showed a relatively low activity of purine metabolism in glial tumours when compared with normal brain and non-glial brain neoplasms. Considering the two enzymes involved in pyrimidine metabolism, only TS had higher activity in glial tumours of high malignancy than in normal brain. In comparison with normal brain, the balance between salvage and de novo pathways changes in gliomas, and even more in grafted tumours, in favour of de novo synthesis. The relation between chromosomes and metabolic imbalances does not correspond to a simple gene dosage effect in these tumours. These data suggest that the decrease of adenosine metabolism occurs before chromosomal aberrations appear, since it is observed in tumours of low malignancy when most karyotypes are still normal, and that the de novo pathway increases with tumour progression.
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PMID:Purine and pyrimidine metabolism in human gliomas: relation to chromosomal aberrations. 805 68