UNIPROT:P00492 - FACTA Search

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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This paper examines the mechanism by which 5-bromodeoxyuridine (BrdUrd) induces a high frequency of transient trifluorothymidine (F3TdR)-resistant variants in the TK6 human lymphoblast cell line (a TK +/- heterozygote). This phenomenon has previously been termed 'pseudomutation' (Liber et al., 1985). We now report that 5-azacytidine (5-AzaC), an inhibitor of DNA methylation, reverses BrdUrd-induced pseudomutation in a dose-dependent manner. The inhibition by 5-AzaC is highly specific and does not appear to involve nucleotide pool perturbations. 5-AzaC inhibits the pseudomutagenic effect (transient trifluorothymidine resistance in a thymidine kinase heterozygote), but not the stable mutagenic effect (stable 6-thioguanine resistance or trifluorothymidine resistance in a hypoxanthine-guanine phosphoribosyltransferase-proficient cell) induced by BrdUrd. 5-AzaC did not affect the induction nor expression of mutation induced by several other chemical mutagens at either the tk or hgprt loci. Inhibition of pseudomutation by 5-AzaC did not appear to be caused by a number of potential confounding factors. Although significant changes in the levels of DNA methylation were detected by HPLC analysis in BrdUrd-treated cells, the dose response for inhibition of pseudomutation by 5-AzaC was correlated with a significant decrease in 5-methylcytidine levels. These results and additional data in the literature have led us to postulate a novel mechanism in which the substitution of BrdUrd in a TpG dinucleotide(s) may serve as a substrate for non-heritable methylation and hence transiently inactivate tk gene expression.
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PMID:5-Azacytidine inhibits the induction of transient TK-deficient cells by 5-bromodeoxyuridine. A novel hypothesis for the facilitation of hypermethylation by 5-bromodeoxyuridine. 170 44

Chinese hamster ovary (CHO) cells were subjected to electroporation in the presence of 5-methyl deoxycytidine-triphosphate. This treatment increases by 10 to 100-fold the frequency of cells lacking thymidine kinase, hypoxanthine-guanine phosphoribosyltransferase, or adenine phosphoribosyltransferase. The inactivation of the genes coding for these enzymes is thought to occur following the direct incorporation of the methylated nucleotide triphosphate into DNA. The enzyme-deficient clones were stable, but almost all were reactivated at high frequency by the demethylating agent 5-azacytidine, to produce derivatives with enzyme activity. The results indicate that there is a direct relationship between DNA methylation and gene silencing.
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PMID:Gene silencing in mammalian cells by uptake of 5-methyl deoxycytidine-5'-triphosphate. 172 91

The effects of low-fluence exposures to (Pu, Be) neutrons (En = 4.2 MeV) have been studied in a sensitive human B-lymphoblastoid cell line, TK6. Mutations were scored for two genetic loci, hypoxanthine phosphoribosyltransferase (hgprt) and thymidine kinase (tk), as a function of dose and dose rate. For exposures limited to less than one cell cycle, the mutation frequency for the hgprt locus was 1.92 X 10(-7)/cGy. When exposures were protracted over multiple cell generations, mutation yields were increased to 6.07 X 10(-7)/cGy. Similar yields were obtained for the induction of tk-deficient mutants with a normal cell generation time (tk-ng) when exposures were carried out at very low dose rates over multiple cell generations. In the series of data presented here, the results obtained for short-duration neutron exposures are compared with data obtained for monoenergetic heavy charged particles of defined linear energy transfer (LET) produced at the BEVALAC accelerator at Lawrence Berkeley Laboratory. TK6 cells have been exposed to beams ranging in atomic number from 20Ne to 40Ar over an energy range from 330 to 670 MeV/amu. Mutation induction was evaluated for both loci for a subset of these beams. The results obtained with 20Ne ions of 425 MeV/amu (LET = 32 keV/microns) and 28Si ions of 670 MeV/amu (LET = 50 keV/microns) closely resemble the mutation yields obtained for brief exposures to (Pu, Be) neutrons. The nature of alterations in DNA structure induced within the tk locus of tk-ng mutants is reviewed for a series of neutron-induced mutants and a series of mutants induced by exposure to 40Ar ions (470 MeV/amu, LET = 95 keV/microns). The mutational spectra for these two types of mutants were similar and were dominated by allele loss mutations. Multilocus deletions inclusive of the c-erbA1 locus were common among tk-deficient mutants induced by these densely ionizing radiations. For the mutants induced by 40Ar ions, it is likely that the mutations were produced by the traversal of the chromosome by a single particle.
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PMID:Perspectives on fast-neutron mutagenesis of human lymphoblastoid cells. 192 55

As part of the third UKEMS collaborative trial, the induction of mutations in mouse lymphoma L5178Y cells was analysed by an agar cloning method. The method used was based on the published methods of Clive and co-workers and Amacher and co-workers. Mutations at the thymidine kinase (tk) locus were analysed following exposure to ethylmethanesulphonate (EMS) in the absence of S9 mix, benzo[a]pyrene (B[a]P) in the presence of S9 mix and benzidine (BZD) in the absence and presence of S9 mix. Mutations were induced under all these conditions and no difference was found between a 48-h and 72-h expression period. Small and large colonies on trifluorothymidine (TFT) selective plates were expanded and found to be stably resistant to TFT. The effects of varying the S9 level and the composition of the cofactor mix on the mutagenicity of BZD and B[a]P were also analysed. The ability of BZD to induce mutations at the hprt locus was investigated. No mutations were detected either in the presence or absence of S9 mix.
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PMID:Induction of mutations in mouse lymphoma L5178Y cells by ethylmethanesulphonate, benzidine and benzo[a]pyrene. 218 17

Southern blot analyses were performed on DNA from at least 10 large and 10 small colony thymidine kinase-deficient (tk -/-) mutants induced by each of 10 mutagens [2-amino-N6-hydroxyadenine (AHA), ethyl methanesulfonate (EMS), methyl methanesulfonate, 2-acetylaminofluorene, methotrexate, caffeine, methapyrilene, 4-(9-acridinylamino)-methanesulfo-m-anisidide, hycanthone methanesulfonate and procarbazine]. Two molecular mutant genotypes were recognized upon digestion with NcoI and subsequent probing with a 1.1 kb cDNA insert from plasmid pMtk 4: (i) no detectable alteration, and (ii) the absence of the functional tkb allele as indicated by the absence of the 6.3 kb fragment. In combination with the previously established chromosomal nature of most small colony tk -/- mutants, this permitted the classification of these 10 mutagens according to the relative proportions of each of four classes of genetic damage they induced. AHA and EMS gave mutational spectra consistent with their point mutational effects in other systems. The other eight mutagens induced mostly small colony mutants, most of which had lost the entire original tkb allele. Methotrexate induced high frequencies of large colony mutants at the tk locus, most of which lacked the tkb allele, although it is weakly or non-mutagenic at the hemizygous hprt locus in these same cells. At least three of these mutagens-methotrexate, caffeine, methapyrilene (and possibly procarbazine)--lack structural alerts for DNA reactivity, implying a major class of non-DNA primary targets for mutagenicity in mammalian cells that interact secondarily with the chromosome. These results are discussed in relation to the known differences in sensitivity among various short-term tests for genotoxicity.
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PMID:Molecular aspects of chemical mutagenesis in L5178Y/tk +/- mouse lymphoma cells. 218 74

To examine the role of radiation energy deposition in DNA on cellular effects, we investigated the ability of 125IdUrd and 131IdUrd to kill cells and induce mutations at the hprt locus. We employed human lymphoblastoid cells proficient (TK6) or deficient (SE30) in the ability to incorporate a thymidine analog into DNA by way of the thymidine kinase (TK) scavenger pathway. Iodine-125 releases a shower of low-energy Auger electrons upon decay which deposit most of their energy within 20 nm of the decay site, whereas 131I is a high-energy beta/gamma emitter that is generally considered to emit sparsely ionizing radiation. Although 125IdUrd incorporated into cellular DNA was very effective at producing toxic and mutagenic effects in TK6 cells, virtually no effect was seen in TK-deficient cells incubated with similar levels of 125IdUrd in the extracellular medium. In response to 131IdUrd treatment, 0.45 X 10(-6) mutants were induced per centigray dose deposited within the nucleus in TK-proficient cells, whereas few mutations were induced in TK-deficient cells at doses up to 38 cGy from 131I decays occurring in the medium. The differences in biological response between TK6 and SE30 cells cannot be explained by differential radiosensitivity or IdUrd sensitization of the cell lines involved. We conclude that both 125I and 131I decays occurring while incorporated into DNA are more effective at inducing cell killing and mutations in human cells than either nonincorporated decays or low-LET radiations. These results suggest that localized energy deposition is an important factor in producing biologically important damage by both of these isotopes, and that residual lesions following the decay of DNA-incorporated radioisotopes may contribute to the toxic and mutagenic effects observed in TK-proficient cells. Furthermore, they emphasize that certain beta/gamma-emitting isotopes such as 131I may be particularly hazardous when incorporated into DNA.
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PMID:Efficient mutation induction by 125I and 131I decays in DNA of human cells. 237 80

5-Azacytidine (5-AzaC) induced mutation in the TK+/- human lymphoblastoid line, TK6, at both the thymidine kinase (tk) locus as measured by resistance to trifluorothymidine (F3TdR), and the hypoxanthine-guanine phosphoribosyltransferase (hgprt) locus, as measured by resistance to 6-thioguanine (6TG). F3TdRR and 6TGR mutant fractions induced by 5-AzaC were observed after a normal phenotypic expression time and remained stable. Interestingly, 5-AzaC was 5-10 times more mutagenic at the tk locus than the hgprt locus. However, F3TdRR colonies from 5-AzaC-treated cultures behaved like TK-deficient mutants induced by other chemical mutagens. The TK or HGPRT phenotype had no effect on the toxicity of 5-AzaC, thus eliminating differential toxicity as a potential cause for the observed higher mutability at the tk locus. 5-AzaC did not induce F3TdRR cells in the parental TK+/+ lymphoblastoid line, indicating that 5-AzaC-induced F3TdRR variants were not due to a dominant alteration in gene expression. 5-AzaC did not induce chromosomal aberrations in TK6 cells, eliminating clastogenic events as a potential cause for the higher mutability at the tk locus. 5-AzaC was also found to be mutagenic in a forward mutation assay to 8-azaguanine resistance in Salmonella typhimurium.
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PMID:Studies of mutagenicity and clastogenicity of 5-azacytidine in human lymphoblasts and Salmonella typhimurium. 242 Nov 58

Complete deficiency of the purine salvage enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT) results in a devastating neurological disease, the Lesch-Nyhan syndrome. This disorder has been identified as a candidate for initial attempts at somatic cell gene therapy. We have previously reported the construction of a recombinant herpes simplex virus type 1 (HSV-1) vector containing human hprt cDNA sequences under the regulatory control of the viral thymidine kinase gene (tk) [Palella et al., Mol. Cell. Biol. 8 (1988) 457-460]. Infection of HPRT- cultured rat neuronal cells with these vectors resulted in transient expression of human hprt. In this paper, we report the expression of human hprt mRNA transcripts in the brains of mice infected in vivo with this vector by direct intracranial inoculation. Human hprt transcripts were distinguished from endogenous mouse transcripts by RNase A mapping using riboprobes transcribed from human hprt cDNA. These initial studies demonstrate the transfer and transcription of a human gene in brain cells by direct in vivo infection with recombinant HSV-1 vectors.
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PMID:Expression of human HPRT mRNA in brains of mice infected with a recombinant herpes simplex virus-1 vector. 255 79

Recent reports by several laboratories indicate that not all non-essential target loci are equally capable of detecting chromosomal mutations. The present study was undertaken to determine if both the tk locus in mouse lymphoma cells and the hgprt locus in Chinese hamster ovary (CHO) cells can be used to quantitate chromosomal mutations. Seven known mutagens for the tk locus were selected. These compounds were evaluated in the mouse lymphoma assay and in a suspension adapted CHO assay for their mutagenicity. In addition to the specific locus mutagenesis analysis, mouse lymphoma and CHO cells were evaluated for the frequency of gross chromosome aberrations. From these investigations, it appears that only those compounds [2-methoxy-6-chloro-9-(3-[ethyl-2-chloroethyl] aminopropylamino)-acridine-dihydrochloride (ICR 170), ethyl methanesulfonate (EMS) and methyl methanesulfonate (MMS)] that induce significant numbers of large-colony thymidine kinase (TK) mutants also induce significant numbers of hypoxanthine-guanine phosphoribosyltransferase (HGPRT) mutants. The four acrylates evaluated (methyl acrylate, ethyl acrylate, trimethylolpropane triacrylate and tetraethyleneglycol diacrylate) induced almost exclusively small-colony TK mutants and very few if any HGPRT mutants. Aberration analysis revealed that both the mouse lymphoma and CHO cells responded to the clastogenicity of the compounds (except for ICR 170 which was not positive in CHO cells) and that neither cell line was clearly more sensitive than the other to the clastogens tested. It is significant that the four acrylates give little or no evidence of genotoxicity when evaluated using selection for HGPRT-deficient mutants, yet are clearly clastogenic to the same cells in the same experiment. These results are consistent with the hypothesis that the hgprt locus may not be useful as a marker to evaluate the clastogenic component of a genotoxic compound. The present study adds to the increasing number of studies that support the view that the hemizygous nature of the hgprt locus permits the recovery of mutations primarily affecting the function of a single gene; whereas the heterozygous nature of the tk locus permits the recovery of both single gene and chromosomal mutations.
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PMID:Differential mutant quantitation at the mouse lymphoma tk and CHO hgprt loci. 268 35

DNA-mediated gene transformation of mouse Ltk-aprt-hprt-cells was used to obtain stable, doubly selected transformants simultaneously expressing herpes virus thymidine kinase (TK) and mammalian adenine phosphoribosyltransferase (APRT). Cotransformants occurred at a frequency of 5 X 10(-6), a similar frequency for the transfer of the aprt marker has been previously observed. Isozyme and Southern blot analysis show that the TK and APRT expressed in these transformants resulted from gene transfer. For one stable cotransformant, [3H]thymidine [( 3H]TdR) selection against TK activity resulted in the loss of APRT activity as well, suggesting that these genes had become genetically linked together. Similarly selection against APRT expression resulted in the loss of a subset of the transferred herpes simplex virus tk genes. 5-Bromodeoxyuridine (BUdR) selected TK- variants differed from [3H]TdR selected TK- variants, in that they retained tk genes. However, BUdR-selected variants expressed full levels of APRT. Therefore, even though the transferred tk and aprt genes had become genetically linked together, they were, in this case, independently expressed since these cells were phenotypically TK- and APRT+.
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PMID:Genetic linkage but independent expression of functional HSV-1 tk and mammalian aprt genes after cotransfer to L cells. 298 26

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