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)

Karyotype, mitochondrial ultrastructure and several enzymatic activities were studied in two clones, D22 and D27, from SV40-transformed rabbit chondrocytes. Similar chromosome alterations, with recurrent losses and gains were observed at the various passages. Mitochondria were rare, with increase in size and crest alterations. By comparison to non-transformed rabbit chondrocytes, activities of superoxide dismutase 1 and 2 (SOD) and glutathione peroxidase were increased, those of glutathione reductase, glucose-6-phosphate dehydrogenase and glutathione-S-transferase fluctuated according to passages, thymidylate synthase decreased, thymidine kinase and hypoxanthine-phosphoribosyl-transferase increased and the ratio lactate dehydrogenase B/A increased. In most cases, these variations were correlated with the number of chromosomes carrying the genes encoding for corresponding enzymes. These results, compared to those obtained in SV40-transformed human fibroblasts, demonstrate that the two cell types behave differently for detoxication systems against oxygen radicals, in particular for SOD2 activity, and have opposite imbalances of chromosomes carrying the corresponding genes.
Carcinogenesis 1992 May
PMID:Chromosomal, mitochondrial and metabolic alterations in SV40-transformed rabbit chondrocytes. 131 10

Recently in vitro assays of mutagenesis have been criticized as being poorly predictive of long-term in vivo rodent assays of carcinogenicity. Questions have also been raised concerning the relevance of rodent assays to human risk. In vitro assays using mammalian cells can detect most types of genetic lesions thought to be important in human malignant disease. Molecular and cytogenetic analyses of mutations induced by a variety of genotoxic compounds at the heterozygous thymidine kinase locus in mouse lymphoma cells indicate that this in vitro assay does indeed register the range of genetic lesions recently found in a wide variety of human tumors. The types and complexity of the induced lesions are reflected in mutant colony phenotype in a compound-specific fashion. These studies point to the use of appropriate in vitro mammalian mutagenesis assays as new model systems for dissecting the genetic lesions important in human carcinogenesis, and as a means of determining the potential for compounds to induce such lesions.
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PMID:In vitro mammalian mutagenesis as a model for genetic lesions in human cancer. 138 37

Alkylated nucleotides have been detected by 32P-postlabelling using the enzyme T4 polynucleotide kinase which phosphorylates the 3'-mononucleotides to give the 3',[5'-32P]bisphosphates. These may then be separated by two-dimensional TLC as the bisphosphates or the [5'-32P]monophosphates. We describe here an alternative approach using the Epstein-Barr virus (EBV) encoded thymidine kinase (TK) to directly phosphorylate adducted nucleosides to give the [5'-32P]monophosphates. Using a series of methyl, ethyl and butyl thymidines EBV-encoded TK was shown to phosphorylate a wide range of adducted thymidines with varying degrees of labelling efficiency; N3-methyl thymidine was labelled with the highest efficiency and O4-ethyl thymidine the lowest. Whereas O4-methyl thymidine was labelled at a higher efficiency than O2-methyl thymidine, O4-ethyl and O4-butyl thymidines were labelled at a much lower efficiency than the corresponding O2-alkyl thymidines. Labelling efficiency increased with pH in the range pH 7 to pH 9, but the relative labelling efficiency was ATP independent. This direct phosphorylation of adducted nucleosides offers an alternative approach to the detection of alkylated residues in DNA which may complement current postlabelling procedures.
Carcinogenesis 1991 Apr
PMID:32P-postlabelling of alkylated thymidines using Epstein-Barr virus encoded thymidine kinase. 184 71

Mutation induction after exposures to 250 kVp X-rays, alpha-particles from the radon daughter 212Bi, and fission-spectrum neutrons from the JANUS reactor was studied in Chinese hamster ovary (CHO) K1 cells and in CHO-10T5, a K1 derivative containing the bacterial gene xanthine-guanine phosphoribosyl transferase (gpt). Mutation induction was analyzed at three genetic loci: the gpt locus, the hypoxanthine-guanine phosphoribosyl transferase (hprt) locus, and the thymidine kinase (tk) locus. After X-irradiation, mutants were induced at the tk loci at approximately 8-9 times the rate of mutant induction at the hprt locus, and the rate of mutant induction at the gpt locus was 8-10 times greater than that at the hprt locus. Neutron and alpha-radiation were more effective mutagenic agents. Mutant frequencies were approximately 4- to 6-fold higher than for X-rays at the hprt and gpt loci and greater than 12-fold greater than X-rays at the tk locus. The greater sensitivity of the tk locus to mutation induction by ionizing radiation (especially neutron and alpha-particle radiation) compared to the hprt locus is likely to be due to the recovery of an additional class of mutants, possibly ones containing larger-sized mutational events. Approximately half of the X-ray-induced tk-1- mutants were small-colony mutants, and 75% of the alpha- and neutron-induced tk-1- mutants were small-colony mutants. The increase in the proportion of small-colony mutants seen with increasing radiation linear energy transfer (LET) suggests that the radiation quality influenced the type of mutation recovered at this locus. There is probably a different reason for the hypersensitivity of the gpt locus because the frequency of gpt mutants, compared to the hprt locus, was independent of radiation quality. Therefore, the LET dependence of mutant induction is gene specific and not necessarily related to the size of deletion recoverable.
Carcinogenesis 1991 Sep
PMID:Differential locus sensitivity to mutation induction by ionizing radiations of different LETs in Chinese hamster ovary K1 cells. 190 39

The fixation of DNA lesions induced in Escherichia coli by N-ethyl-N-nitrosourea (ENU) occurs by both SOS-dependent and SOS-independent pathways. To determine whether these pathways result in differential processing of ENU-induced lesions, we have analyzed the DNA sequence changes of mutations induced at a plasmid-encoded herpes simplex virus type 1 thymidine kinase gene by ENU treatment of plasmid-bearing RecA- and RecA+ bacteria, and by transformation of RecA-, RecA+ and SOS-induced RecA+ bacteria with ENU-modified plasmid DNA. Transition mutations were the predominant types of base substitution mutations observed for wild-type and RecA- E. coli, consistent with the SOS-independent mispairing of O6-ethylguanine and O4-ethylthymine adducts during DNA replication. Under conditions of SOS processing of ENU lesions, however, we observed the frequent induction of A:T----C:G transversion mutations. The proportion of A:T----C:G transversion mutations (42%) observed after transformation of SOS-induced bacteria with ENU modified DNA was approximately equal to that of the G:C----A:T transitions (46%). The frequencies of these mutations were increased 20- and 5-fold respectively over that observed for non-induced RecA+ cells. We suggest that ethylated DNA lesions which normally block DNA replication can be processed to yield A:T----C:G transversion mutations in SOS-induced E. coli.
Carcinogenesis 1989 Dec
PMID:N-ethyl-N-nitrosourea induces A:T to C:G transversion mutations as well as transition mutations in SOS-induced Escherichia coli. 268 53

There has been considerable recent interest in the mechanisms by which recessive mutations involving cancer genes may be expressed. We have developed an in vitro model to study this phenomenon in an endogenous autosomal gene in human cells. We have analyzed the molecular structural changes that lead to loss of heterozygosity at the thymidine kinase (tk) locus. The results indicate that expression of a recessive allele frequently occurs by loss of heterozygosity at that locus. Over 90% of spontaneous mutants at the tk locus arose by allele loss. The fraction of induced mutants that arose by this mechanism depended upon the inducing agent. Loss of the active tk allele was often accompanied by loss of linked genetic loci on the long arm of chromosome 17. These results suggest that large-scale chromosomal mutations resulting from events such as deletion or mitotic recombination may be an important mechanism for the expression of activated or mutated recessive genes in human cells. Such recessive mutations could involve oncogenes or other growth regulatory genes important in carcinogenesis.
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PMID:In vitro models of carcinogenesis: expression of recessive genes by chromosomal mutations. 275 64

Dietary fibers may tend to enhance or inhibit chemically induced experimental colon cancer, depending on the particular fiber consumed. This study examined the relationship between colonic thymidine kinase enzyme activity and mucin histochemistry and the reported effects of various dietary fibers on chemically induced colon carcinogenesis. Fiber-supplemented diets containing fibers reported to inhibit (wheat bran) or enhance (guar gum, carrageenan) chemically induced colon carcinogenesis in the rat were selected. Four groups of male Fischer 344 rats consumed 10% wheat bran, 5% guar gum, 5% carrageenan, or fiber-free diets ad libitum for 4 weeks. At the completion of the treatment period, the distal 12 cm of colonic mucosa was scraped off and homogenized for determination of thymidine kinase activity, and a 0.5-cm section of midcolon was processed by the high-iron diamine/Alcian blue method for mucin histochemistry. Final animal weights did not differ significantly among groups. Thymidine kinase enzyme specific activity (mumole thymidine phosphate formed x 10(6)/min/mg protein, means +/- SEMs) was not significantly different in the fiber-free, wheat bran, and guar gum groups (10.98 +/- 1.50, 7.41 +/- 1.09, and 9.11 +/- 2.04, respectively) but was markedly elevated at 41.84 +/- 4.65 in the carrageenan group (alpha less than 0.001). Mucin histochemistry failed to reveal any significant differences among dietary groups.
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PMID:Alterations in colonic thymidine kinase enzyme activity induced by consumption of various dietary fibers. 284 79

We have demonstrated that the human cytochrome P1-450 gene can be transfected into the AHH-1 human lymphoblastoid cell line using the pHEBo vector and hygromycin selection. The transfected gene was expressed when regulatory sequences derived from the herpes simplex virus thymidine kinase gene were incorporated in appropriate orientations. Gene expression was monitored at the enzyme level using assays for 7-ethoxyresorufin deethylase, 7-ethoxycoumarin deethylase and benzo[a]pyrene hydroxylase activities. Bulk transformed cell populations had 2- to 3-fold more of these enzyme activities compared with control populations. Subclones of the bulk population expressing still higher levels of 7-ethoxyresorufin deethylase activity were also obtained. Expression of the transfected cytochrome P1-450 gene was stable for 20-30 days in the presence of hygromycin B. The transformed cell populations were found to be suitable for use in gene locus mutation assays and the mutagenicity of aflatoxin-B1 and 2-acetylaminofluorene (AAF) were examined. Aflatoxin-B1 was found to be 2-3 times more mutagenic to cells bearing the transfected cytochrome P1-450 activity as compared with control cells. In contrast, no difference in AAF mutagenicity was observed. Analysis of the AAF metabolite profile indicated that cells expressing the transfected cytochrome P1-450 gene produced 8-fold more N- and 7-hydroxy-AAF than control cells. The similarity in mutagenic responses between control cells and cells bearing the transfected cytochrome P1-450 gene may be due to the low deacetylase activity of AHH-1 cells. These observations indicate that this vector and expression system are suitable for introducing novel metabolic activities into the AHH-1 cell line.
Carcinogenesis 1989 Feb
PMID:Transfection of a human cytochrome P-450 gene into the human lymphoblastoid cell line, AHH-1, and use of the recombinant cell line in gene mutation assays. 291 81

Thymidylate synthetase (TS) and thymidine kinase (TK) are known to catalyse the methylation of dUMP for the de novo synthesis of dTMP and the phosphorylation of thymidine for the salvage synthesis of dTMP in the pyrimidine pathway, respectively. High TS and TK activities and the existence of TK isozymes have been observed in rapidly proliferating tissues. TS and TK activities in 1,2-dimethylhydrazine (DMH)-induced colon carcinomas in rats increased significantly to 331 and 207% of the activities in normal colon, respectively, and were well correlated inversely (y = -0.93x + 5.24), with a correlation coefficient of -0.787. The colonic TK isozymes were separated into two types by DEAE-cellulose column chromatography. The TK isozyme eluted from the column by the elution buffer alone without NaCl was markedly higher (23.6-fold) in activity in DMH-induced colon carcinoma than in normal control colon and was not affected by deoxycytidine triphosphate. This isozyme, whose mol. wt is 100,000 by h.p.l.c., is thought to be closely involved in rapid DNA replication. These results indicate that early biochemical changes in DMH-induced colon carcinoma in rats may serve as a useful model and provide valuable insight into the mechanisms involved in colonic carcinogenesis.
Carcinogenesis 1987 Mar
PMID:Relative activities of thymidylate synthetase and thymidine kinase in 1,2-dimethylhydrazine-induced colon carcinomas in rats. 381 35

A recombinant plasmid containing the thymidine kinase (TK) gene (pAGO; 6.36 kilobases) was reacted in vitro with (+/-)-7 beta, 8 alpha-dihydroxy-9 alpha, 10 alpha-epoxy-7,8,9,10-tetrahydrobenzo(a)pyrene, an ultimate carcinogenic metabolite of benzo(a)pyrene. The covalent binding of the metabolite to the circular forms of pAGO was visible by a drastic change in their mobility during agarose gel electrophoresis. The 4% modified DNA was only partially restricted by different endonucleases. Modification and limited restriction were correlated to the biological activity by transfer of the plasmid (TK gene), modified and unmodified, to TK-deficient cells. Upon transfection of mouse LTK- cells with modified plasmid or modified TK gene, no or only a few TK-positive cells were obtained, in contrast to the formation of many colonies after transfection with the unmodified plasmid (gene). Benzo(a)-pyrene itself and phenanthrene oxide, a weakly reactive but noncarcinogenic chemical, did not induce this effect. The reactive diol-epoxides of noncarcinogenic benzo(a)acridine and carcinogenic benzo(c)acridine showed a weaker but similar decreasing effect on the formation of TK+ clones. This inhibition of transformation efficiency suggests inactivation of the gene by chemical modification. Our experimental approach challenges the repair capacity of the eukaryotic cell and thus renders the strategy suitable not only as a eukaryotic test for carcinogens but also as a tool for the study of carcinogenesis as aberrant gene expression.
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PMID:Inactivation of the thymidine kinase gene after in vitro modification with benzo(a)pyrene-diol-epoxide and transfer to LTK- cells as a eukaryotic test for carcinogens. 643 73


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