Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Cocultures were established of mouse epidermal cells (HEL/37) and mouse fibroblast cells (PG-19) deficient in the enzyme hypoxanthine-guanine phosphoribosyltransferase. Metabolic cooperation between the cocultured cells was detected as labeling of PG-19 cells on incubation of cocultures with [3H]-hypoxanthine. The transfer of label from HEL/37 cells to PG-19 cells was inhibited by the tumor prmoters 12-O-tetra-decanoylphorbol-13-acetate (10(-8) M) and phorbol-12,13-di-decanoate (10(-7) M) but not by nonpromoting derivatives of these phorbol esters. The inhibition was partially prevented by the antiinflammatory steroid fluocinolone acetonide, which is an antagonist of mouse skin tumor promotion, and by prolonged exposure of the cocultures to 12-O-tetradecanoylphorbol-13-acetate.
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PMID:Inhibition of intercellular communication by tumor-promoting phorbol esters. 738 43

Several gpt+ transgenic cell lines were derived from hprt V79 cells to study mutagenesis mechanisms in mammalian cells. The G12 cell line was previously shown to be hypermutable by X-rays and UV at the gpt locus compared to the endogenous hprt gene of the parental V79 cells (Klein and Rossman, 1990), and is now shown to be highly mutable by the clastogenic anti-tumor agent bleomycin sulfate. A second transgenic cell line G10, which has a different gpt insertion site, was studied in comparison with G12. Both G12 and G10 cell lines carry the stable gpt locus at a single integration site in the Chinese hamster genome, and neither spontaneously deletes the integrated gpt sequence at a high frequency. Although spontaneous mutation to 6-thioguanine resistance in G10 cells is 3-4 times higher than in G12 cells, the cell lines differ to a much greater extent when mutated by clastogens. In comparison to G12 cells, the gpt locus in G10 cells is up to 13 times more sensitive to bleomycin mutagenesis and 5 times more responsive to X-ray mutagenesis. In contrast, there is much less difference in UV-induced mutagenesis and no differences in mutagenesis induced by alkylating agents such as N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). The dose-dependent decrease in survival of the transgenic cells is the same for all mutagens tested, and does not differ from that of V79 cells. Neither transgenic cell line is generally hypermutable, since mutagenesis at an endogenous gene, Na+K+/ATPase, is similar to that of the parental V79 cell line. Although both cell lines can be induced to delete the transgene following clastogen exposure, deletions are not the only recovered mutations, and the cell lines can also be used to study mutations within the PCR recoverable gpt gene. The utility of these transgenic cells to investigate genome position effects related to mammalian mutagenesis mechanisms is discussed.
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PMID:Transgenic gpt+ V79 cell lines differ in their mutagenic response to clastogens. 750 65

O6-Methylguanine (m6G) is an altered base produced in DNA by SN1 methylating agents such as N-methyl-N'-nitro-N-nitrosoguanidine (MNNG). This lesion is repaired by the protein O6-methylguanine-DNA methyltransferase (MGMT) in normal human cell lines, but is not repaired in certain human tumor lines that are termed Mex- or Mer-. Compared with repair-proficient cell lines, such repair-deficient tumor lines are hypersensitive to the production by MNNG of sister-chromatid exchanges (SCE), mutations and lethality. We report here that MNNG treatment produces 1 SCE for every 42 +/- 10 m6G formed in the genome of Mer- tumor cells, 1 6TG-resistant mutant for every 8 (range of 5-14) m6G produced statistically in the coding region of the hypoxanthine phosphoribosyltransferase gene, and 1 lethal event per 6650 +/- 1200 m6G. In addition, in vitro base mismatch incision at m6G: BrU pairs was similar to that at m6G: T pairs, the lesions that likely initiate SCE production. We conclude that m6G residues in genomic DNA are very recombinogenic as well as highly mutagenic in Mer- human tumor cells. The results are interpreted in terms of the relationship between methylation-induced SCE and G: T mismatch recognition.
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PMID:On the quantitative relationship between O6-methylguanine residues in genomic DNA and production of sister-chromatid exchanges, mutations and lethal events in a Mer- human tumor cell line. 751 Mar 69

The potent mouse skin tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) was examined for its mutagenic and recombinagenic activity at the heterozygous thymidine kinase (tk +/-) locus and the hemizygous hypoxanthine phosphoribosyltransferase (hprt +/0) locus in the TK6 human lymphoblastoid cell line. TPA at concentrations of 0.01-1.0 micrograms/ml induced a low frequency of tk mutants showing the slow growth phenotype in a dose-dependent manner, but few normal growth tk mutants or hprt mutants. Concentrations of 1.0-10 micrograms/ml TPA induced all three types of mutants. The molecular structure of tk mutants arising spontaneously or induced by 1.0 and 10 micrograms/ml TPA was investigated by Southern hybridization with a human tk cDNA probe: 86% of all mutants arising after incubation with 10 micrograms/ml TPA lost the entire active tk allele, resulting in loss of heterozygosity (LOH), while 71% of spontaneously arising mutants showed LOH. Densitometric analysis indicated that the majority of LOH mutants induced by TPA were homozygous at the tk locus (retained two copies of the mutant allele), consistent with the occurrence of interchromosomal homologous recombination. These results support the hypothesis that tumor promoters such as TPA may increase the rate of chromosomal mitotic recombination and hence facilitate the segregation of recessive mutations. TPA may thus induce a type of genetic instability during the process of tumor promotion that involves enhanced recombinagenic activity.
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PMID:Recombinagenic activity of the phorbol ester 12-O-tetradecanoylphorbol-13-acetate in human lymphoblastoid cells. 763 95

We have characterized a series of 69 independent mutants at the endogenous hprt locus of human TK6 lymphoblasts and over 200 independent S1-deficient mutants of the human x hamster hybrid cell line AL arising spontaneously or following low-fluence exposures to densely ionizing Fe ions (600 MeV/amu, linear energy transfer = 190 keV/microns). We find that large deletions are common. The entire hprt gene (> 44 kb) was missing in 19/39 Fe-induced mutants, while only 2/30 spontaneous mutants lost the entire hprt coding sequence. When the gene of interest (S1 locus = M1C1 gene) is located on a nonessential human chromosome 11, multilocus deletions of several million base pairs are observed frequently. The S1 mutation frequency is more than 50-fold greater than the frequency of hprt mutants in the same cells. Taken together, these results suggest that low-fluence exposures to Fe ions are often cytotoxic due to their ability to create multilocus deletions that may often include the loss of essential genes. In addition, the tumorigenic potential of these HZE heavy ions may be due to the high potential for loss of tumor suppressor genes. The relative insensitivity of the hprt locus to mutation is likely due to tight linkage to a gene that is required for viability.
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PMID:Heavy ion mutagenesis: linear energy transfer effects and genetic linkage. 765 54

To study the pathways associated with genomic instability in cancer, we examined UV-induced and spontaneous mutagenesis in clonal cell lines expressing human papillomavirus (HPV) proteins, either high-risk (HPV16) E6 or E7 or low-risk (HPV11) E6, in comparison to the parental RKO cells, a colon carcinoma cell line expressing only normal p53. High-risk E6 and E7 bind and functionally inactivate tumor suppressor proteins p53 and Rb, respectively, and both disrupt the G1 arrest in response to DNA damage. Low-risk HPV E6 proteins bind p53 with much lower affinity than high-risk E6 and fail to mediate p53 degradation or to disrupt the G1 checkpoint. We found that cells expressing HPV16 E6 had reduced survival and increased mutagenesis at the hprt locus when treated with low doses of UV. However, this analysis was complicated by the unexpected observation of a very high background of spontaneous mutagenesis in the unirradiated cells expressing the HPV16 E6 gene. Fluctuation analysis revealed a 5-fold elevated mutation rate in the cells expressing HPV16 E6. HPV11 E6 conferred a 2-fold elevation in the mutation rate, but HPV16 E7 had no effect. The increased spontaneous mutagenesis, therefore, appeared to be mediated by p53 inactivation and to be independent of Rb (which acts downstream of p53 in the G1 arrest pathway following DNA damage). Taken together, these findings suggest that the effect of p53 inactivation on spontaneous mutagenesis is manifested at the level of DNA repair, recombination, or coupling of transcription with one of these processes instead of by an alteration in G1 arrest.
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PMID:p53 inactivation by HPV16 E6 results in increased mutagenesis in human cells. 767 Dec 55

We investigated gene-specific damage in adenocarcinoma cells, obtained from pleural effusions of 9 primary lung cancer patients, induced by incubation with cisplatin for 3 h in vitro. The 2.7 kb fragment of the hypoxanthine phosphoribosyltransferase (HPRT) gene was amplified by the polymerase chain reaction (PCR) to quantify the DNA damage. A 7-fold difference in the extent of gene-specific damage among the patients was observed. Mononuclear cells (MNC) were obtained from freshly isolated blood from the same patients before they received chemotherapy. These cells were also incubated with cisplatin in vitro, and PCR amplification of the HPRT gene was carried out. A 4-fold variation of DNA damage among the patients was observed. Moreover, there was a linear correlation between the extents of the DNA damage in the tumor cells and MNCs (R2 = 0.676, P = 0.0016). These results suggest that the PCR-stop assay could be used to detect interindividual variations in the extent of gene-specific damage in both tumor cells and MNC from the same patients induced by cisplatin treatment. In conclusion, MNC could be used to analyze cisplatin-induced gene-specific damage in cancer patients whose tumor cells are inaccessible.
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PMID:Correlation of gene-specific damage with cisplatin between human adenocarcinoma cells and peripheral blood mononuclear cells analyzed by polymerase chain reaction-stop assay. 773 Jan 49

Cysteine conjugate beta-lyase, an enzyme that converts cysteine S-conjugates to free thiols, pyruvate and ammonia, is normally expressed primarily in the liver and kidney. In theory, this selective distribution affords the opportunity to target thiol-containing drugs to these organs and, perhaps, to tumors derived from them. To assess the potential for delivery of such drugs to kidney-derived tissue, we have used a typical beta-lyase substrate, S-(2-benzothiazolyl)-L-cysteine, to measure the beta-lyase activity in normal and tumor tissue of kidneys removed from patients with renal carcinoma. Although considerable heterogeneity in enzyme activity levels was observed in normal and tumor-derived samples, a high proportion of tumor samples had enzyme activity that was at least 50% of that observed in adjacent normal tissue. Frequently, hypoxanthine-guanine phosphoribosyltransferase activity was observed to be greater in the tumor than in normal tissue. These results may aid in the development of therapy for renal carcinomas.
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PMID:Cysteine conjugate beta-lyase activity in human renal carcinomas. 776 99

Hereditary Non-Polyposis Colon Cancer (HNPCC) tumors and some sporadic colon cancers acquire somatic changes in the length of microsatellite sequences. We hypothesized that this 'replication error' (RER) phenotype in these cancers reflects a more general defect which should result in hypermutability of expressed genes. To test this hypothesis mutations of hprt were studied in RER and non-RER tumor cell lines. Increased mutation rates of greater than 100-fold were found in RER compared to non-RER lines. Heterogeneity within the RER group suggests the likely existence of different classes of RER tumors. One non-RER cell line demonstrated a greater than 10-fold increase in mutation rate, suggesting that a novel mutator phenotype may exist in some non-RER tumors.
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PMID:Increased mutation rate at the hprt locus accompanies microsatellite instability in colon cancer. 782 77

Mutations in mammalian genomes are the result of several mutagenic processes that are intrinsic to cell metabolism. Analysis of the mutation spectrum of a chromosomal gene is a valuable tool for assessing the contribution of these mechanisms to mutagenesis in the cell. We have studied the specificity of mutations induced by various mutagens in a cDNA hprt gene integrated in a chromosome of a mouse cell line. To understand the mechanisms underlying mammalian cell mutagenesis, we compiled a list of more than 250 sequenced hprt mutations that arose spontaneously or were induced by mutagens, and compared it with the published mutation data. There are at least two distinct processes of mutagenesis in eukaryotic cells: one is mispairing, while another is errors in translesion synthesis. The alkylating agent methylnitrosourea causes G:T mispairing; consequently, most mutations it induces are G to A transitions. The second process can occur spontaneously or be caused by exposure to X-rays, Trp-P2, a tryptophan pyrolysate, or acetylaminofluorene. A variety of premutagenic lesions are produced in DNA by these mutagens, but spectra of the mutations resemble each other, especially in the high frequency of deletions at the sites of short direct repeats. The slippage--misalignment mechanism accounted well for the greater part of the observed deletions. A similar spectrum of mutations was observed in the tumor suppressor gene APC from colorectal tumors; about 40% are deletions at the sites of short repeats. These findings led us to propose that slippage--misalignment is an ubiquitous mechanism of mutagenesis and is responsible for a significant proportion of spontaneous mutations in mammalian cells.
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PMID:Slippage--misalignment: to what extent does it contribute to mammalian cell mutagenesis? 783 71


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