EC:2.7.1.21 - FACTA Search

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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)

To develop a suitable suicide gene/prodrug therapy for the treatment of thyroid carcinomas, the relative therapeutic efficacy of four different suicide gene/prodrug combinations was compared in thyroid carcinomas in vitro. Herpes simplex virus thymidine kinase and ganciclovir (HSV-TK/GCV), Escherichia coli cytosine deaminase and 5-fluorocytosine (CD/5FC), E coli nitroreductase and CB1954 (NTR/CB1954), and human deoxycytidine kinase and cytosine arabinoside (dCK/AraC) were employed. The suicide genes were transduced into two thyroid carcinoma cell lines with retroviral vectors in which all the suicide genes were under the control of the same promoter. When the relative efficacy of four suicide gene/prodrugs was compared with therapeutic index and degree of bystander effect, we found a clear dissociation between these two parameters. Thus, HSV-TKIGCV demonstrated the widest therapeutic index, while CD/5FC and NTR/CB1954 showed the stronger bystander effect than HSV-TK/GCV. dCK/AraC had little efficacy. Advantages and limitations of each suicide gene/prodrug combinations are discussed.
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PMID:Treatment of thyroid carcinoma cells with four different suicide gene/prodrug combinations in vitro. 967 64

Two non-conventional analogues of ATP, 3'-deoxyadenosine-2'-triphosphate (3'-d-2'-ATP) and 2'-deoxyadenosine-3'-triphosphate (2'-d-3'-ATP), the syntheses of which are described, were examined as potential phosphate donors for the nucleoside kinases: 2'-deoxycytidine kinase (dCK), cytosolic thymidine kinase (TK1) and mitochondrial thymidine kinase (TK2). The reactions were monitored by means of a mixture of [gamma-32P]ATP and cold analogue, and/or with the use of 3H-labelled acceptors and cold donor. With dCK, using equimolar mixtures of ATP with each analogue, and dC as acceptor, phosphate transfer from 3'-d-2'-ATP and 2'-d-3'-ATP amounted to 34% and 14%, respectively. With each analogue used alone (each at concentration of 100 microM), phosphate transfer from 3'-d-2'-ATP was 55% that from ATP, and from 2'-d-3'-ATP 16%. With human TK2, and equimolar mixtures of [gamma-32P]ATP with each of the analogues, and 1 microM dT as acceptor, there was no detectable transfer from either analogue. But, when each analogue was used alone, phosphate transfer attained 11% and 5%, respectively, that for ATP alone. With the low affinity form of human TK1, and dT as acceptor, only low phosphate transfer occurred with either analogue used alone. Both compounds exhibited Michaelis-Menten kinetics (with significantly lower Vmax than ATP), while ATP exhibited cooperative kinetics with all three kinases.
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PMID:Unusual nucleoside triphosphate donors for nucleoside kinases: 3'-deoxyadenosine-2'-triphosphate and 2'-deoxyadenosine-3'-triphosphate. 970

Nucleosides and nucleoside analogs are anabolised to their triphosphates by intracellular kinases. The anti-HIV analogue zidovudine (AZT) is phosphorylated by cytosolic thymidine kinase 1 (TK1), thymidylate kinase (dTMPK), and nucleoside diphosphate kinase. It is known that dTMPK is one of the rate-limiting steps in the activation of zidovudine. The activities of TK1, dTMPK, and deoxycytidine kinase (dCK) were determined in extracts of in vitro activated peripheral blood mononuclear cells from HIV-infected patients and healthy noninfected individuals. dTMPK activity was 10-fold lower and TK1 activity was five-fold lower in extracts from infected as compared to uninfected persons. Deoxycytidine kinase activities in the extracts from both groups were very similar. Differences in in vitro activation, as determined by flow cytometry, of the peripheral lymphocytes were not responsible for the decreased TK1 and dTMPK activities. A reduced level of intracellular azido-dideoxythymidinetriphosphate in activated mononuclear cells from HIV-infected patients was also observed. The low levels of TK1 and dTMPK in lymphocytes from HIV-infected patients may be related to the anergy phenomenon observed as a result of HIV infection. This effect should also be considered in the development of new anti-HIV drugs.
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PMID:Decrease in thymidylate kinase activity in peripheral blood mononuclear cells from HIV-infected individuals. 974 77

Deoxyribonucleoside salvage in animal cells is mainly dependent on two cytosolic enzymes, thymidine kinase (TK1) and deoxycytidine kinase (dCK), while Escherichia coli expresses only one type of deoxynucleoside kinase, i.e., TK. A bacterial whole-cell system based on genetically modified E. coli was developed in which the relevant bacterial deoxypyrimidine metabolic enzymes were mutated, and the cDNA for human dCK or TK1 under the control of the lac promoter was introduced. The TK level in extract from induced bacteria with cDNA for human TK1 was found to be 20,000-fold higher than that in the parental strain, and for the strain with human dCK, the enzyme activity was 160-fold higher. The in vivo incorporation of deoxythymidine (Thd) and deoxycytidine (dCyd) into bacterial DNA by the two recombinant strains was 20 and 40 times higher, respectively, than that of the parental cells. A number of nucleoside analogs, including cytosine arabinoside, 5-fluoro-dCyd, difluoro-dCyd, and several 5-halogenated deoxyuridine analogs, were tested with the bacterial system, as well as with human T-lymphoblast CEM cells. The results showed a close correlation between the inhibitory effects of several important cytostatic and antiviral analogs on the recombinant bacteria and the cellular system. Thus, E. coli expressing human salvage kinases is a rapid and convenient model system which may complement other screening methods in drug discovery projects.
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PMID:An Escherichia coli system expressing human deoxyribonucleoside salvage enzymes for evaluation of potential antiproliferative nucleoside analogs. 975 65

We have developed a continuous spectrophotometric assay for thymidine and deoxycytidine kinase activities by coupling nucleoside 5'-monophosphate formation to a methylation reaction which generates a product absorbing at 340 nm. With thymidine kinase, we used the alternate substrate deoxyuridine and coupled the reaction to thymidylate synthase. For deoxycytidine kinase, we coupled the reaction to a thymidylate synthase mutant which converts the product 2'-deoxycytidine-5'-monophosphate (dCMP) to m5dCMP. In both cases, the methylation reactions are accompanied by conversion of 5,10-methylene-5,6,7,8-tedrahydrofolate to 7,8-dihydrofolate and can be continuously monitored by the increase of absorbance at 340 nm. The assay should be particularly useful for kinetic studies, and for the purification of these enzymes from various sources.
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PMID:A continuous spectrophotometric assay for thymidine and deoxycytidine kinases. 986 91

We demonstrate that l-ATP is recognized by some enzymes that are involved in the synthesis of nucleotides and nucleic acids. l-ATP, as well as its natural d-enantiomer, acts as a phosphate donor in the reaction catalysed by human deoxycytidine kinase, whereas it is not recognized by either enantioselective human thymidine kinase or non-enantioselective herpes virus thymidine kinase. l-ATP strongly inhibits (Ki 80 microM) the synthesis of RNA primers catalysed by DNA primase associated with human DNA polymerase alpha, whereas RNA synthesis catalysed by Escherichia coli RNA polymerase is completely unaffected. Moreover, l-ATP competitively inhibits ATP-dependent T4 DNA ligase (Ki 25 microM), suggesting that it interacts with the ATP-binding site of the enzyme. Kinetic studies demonstrated that l-ATP cannot be used as a cofactor in the ligase-catalysed joining reaction. On the other hand, l-AMP is used by T4 DNA ligase to catalyse the reverse reaction, even though a high level of intermediate circular nicked DNA molecules accumulates. Our results suggest that a lack of enantioselectivity of enzymes is more common than was believed a few years ago, and, given the absence of selective constraints against l-nucleosides in Nature, this may depend on chance more than on evolutionary strategy.
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PMID:L-ATP is recognized by some cellular and viral enzymes: does chance drive enzymic enantioselectivity? 989 5

Cytosolic thymidine kinase (TK1) and deoxycytidine kinase (dCK) and the mitochondrial thymidine kinase (TK2) and deoxyguanosine kinase (dGK) phosphorylate deoxynucleosides and their analogs. Recombinant human TK1 only phosphorylated beta-D Thd, but recombinant TK2, dCK and dGK all phosphorylated equally well beta-D and beta-L as well as to some extent alpha-D and alpha-L deoxynucleosides.
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PMID:The enantioselectivity of the cellular deoxynucleoside kinases. 1043 82

Continuing our studies on ribonucleotide reductase (RNR) mechanism-based inhibitors, we have now prepared the diphosphates (DP) of 2'-O-allyl-1-beta-D-arabinofuranosyl-uracil and -cytosine and 2'-O-allyl-9-beta-D-arabinofuranosyl-adenine and evaluated their inhibitory activity against recombinant murine RNR. 2'-O-Allyl-araUDP proved to be inhibitory to RNR at an IC(50) of 100 microM, whereas 2'-O-allyl-araCDP was only marginally active (IC(50) 1 mM) and 2'-O-allyl-araADP was completely inactive. The susceptibility of the parent nucleosides to phosphorylation by thymidine kinase and 2'-deoxycytidine kinase was also investigated, and all nucleosides proved to be poor substrates for the above-cited kinases. Moreover, prodrugs of 2'-O-allyl-araU and -araC monophosphates, namely 2'-O-allyl-5'-(phenylethoxy-L-alanyl phosphate)-araU and -araC, were prepared and tested against tumor cell proliferation but proved to be inactive. A molecular modeling study has been conducted in order to explain our results. The data confirm that for both the natural and analogue nucleoside diphosphates, the principal determinant interaction with the active site of RNR is with the diphosphate group, which forms strong hydrogen bonds with Glu623, Thr624, Ser625, and Thr209. Our findings indicate that the poor phosphorylation may represent an explanation for the lack of marked in vitro cytostatic activity of the test compounds.
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PMID:5'-Phosphoramidates and 5'-diphosphates of 2'-O-allyl-beta-D-arabinofuranosyluracil, -cytosine, and -adenine: inhibition of ribonucleotide reductase. 1046 11

Exposure of a human lymphocytic cell line, H9 cells, to 0.5 microM and 5.0 microM dideoxycytidine (ddC) resulted in isolation of ddC-resistant H9-ddC0.5w and H9-ddC5.0w cell lines. In addition, these cell lines were also resistant to azidothymidine and had reduced deoxycytidine kinase and thymidine kinase activities. We now show that these cell lines are 4-fold and 2000-fold collaterally resistant to 5-fluoro-2'-deoxyuridine (FdUR), respectively, but not to 5-fluorouracil (FU). Biochemical evaluations show that, compared to the parental cells, the FdUR phosphorylation was reduced to 36.3% and 9.2% and the FdUMP levels were decreased to 48.1% and 1.2% in these cell lines. Taken together, the data suggest that ddC, an antiviral agent, is capable of inducing resistance to FdUR-a drug that is not its analog and which has a different metabolism, target site, and mechanism of action.
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PMID:Collateral resistance of a dideoxycytidine-resistant cell line to 5-fluoro-2'-deoxyuridine. 1047 81

2',3'-Dideoxycytidine (ddC) and azidothymidine (AZT) inhibit HIV-1 replication and currently are used in AIDS therapy. Long-term use of the drugs is associated with the selection of drug-resistant HIV strains, thus limiting their effectiveness. Another mechanism, associated with their altered metabolism in host cells, also can cause "cellular" drug resistance. Human lymphocytic H9 cell lines (H9-ddC0.5w and H9-ddC5.0w) selected for ddC resistance by exposure to 0.5 and 5.0 microM ddC were found to be cross-resistant to AZT. Compared with controls, the thymidine kinase (TK) activities in H9-ddC0.5w and H9-ddC5.0w cells were 56.7 and 51.4% (with thymidine as a substrate) and 50.3 and 42% (with AZT as a substrate). Consequently the cellular incorporation of AZT and thymidine (24-hr incubation) also was reduced to 51.3 and 70.0% in H9-ddC0.5w cells and to 12.1 and 17.3% in H9-ddC5.0w cells. A 3-hr incubation with 25 microM AZT and ddC decreased their cellular incorporation to 50.5 and 76.15% in H9-ddC0.5w cells and to 12.95 and 47.8% in H9-ddC5.0w cells compared with H9 cells. Thus, the change in AZT accumulation did not correlate exactly with the decrease in TK activity and far exceeded the effect on ddC accumulation. Evidence is presented that ddC, in addition to deoxycytidine kinase, affected TK1 activity. The involvement of multidrug resistance proteins in the mechanism of the resistance was ruled out by the failure of trifluoperazine and verapamil to alter cellular accumulations of AZT, ddC, daunorubicin, and rhodamine-123. Development of cellular ddC and AZT cross-resistance may affect the therapeutic efficacy of these antiviral agents.
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PMID:Cross-resistance of dideoxycytidine-resistant cell lines to azidothymidine. 1053 51

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