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)

N-Methylcarbamate esters are an important group of insecticides. They have lower acute toxicity to vertebrates than organophosphates, although their genotoxicity has not been adequately studied. Here we investigate the cytotoxicity and genotoxicity of N-methylcarbamate insecticides and their N-nitroso derivatives in Chinese hamster V79 cells, using the hprt locus as a marker, and also assess inhibition of gap junctional intercellular communication. N-Methylcarbamate insecticides were chemically N-nitrosated to obtain the N-nitroso derivatives. N-Nitrosation greatly increased the cytotoxicity and mutagenicity of N-methylcarbamates at the hprt locus in Chinese hamster V79 cells. The mutagenic potential of N-nitroso-N-methylcarbamates was much higher than those of many other known mutagenic nitroso compounds, as well as some non-nitroso mutagenic alkylating agents. Parental N-methylcarbamates themselves were not mutagenic, however, they inhibited gap junctional intercellular communication half as effectively as the well-studied tumor promoter 12-O-tetradecanoylphorbol-13-acetate. The findings show that N-methylcarbamate insecticides and their N-nitroso derivatives have the potential to act through mediation of epigenetic and genotoxic mechanisms respectively in the multiple stages of chemical carcinogenesis.
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PMID:Genetic toxicity of N-methylcarbamate insecticides and their N-nitroso derivatives. 971 79

The spectrum of mutations was determined at the hypoxanthine-guanine phosphoribosyltransferase (hprt) locus in the human uterine tumor cell line HEC-1-A which is defective in the mismatch repair gene hPMS2. The mutation frequency at the hprt locus in HEC-1-A was about two orders higher than that in wild type repair-proficient cells. The fifty-eight mutations detected were exclusively point mutations, with frameshifts of one base deletion/addition predominating (66%) the remaining were base substitutions. All the frameshift mutations occurred at sites of monotonous repeating sequences, including six consecutive guanine bases site which was the hot spot for the addition of one G that contributed 60% of the total mutations. Although the observed specificity of mutations in HEC-1-A apparently resembled that of the hMLH1-deficient cell line HCT116 [Ohzeki, S., Tachibana, A., Tatsumi, T., Kato, T., 1997. Spectra of spontaneous mutations at the hprt locus in colorectal carcinoma cell lines defective in mismatch repair. Carcinogenesis, 18, 1127-1133.], the pronounced increase of +/-1 bp frameshifts and the reduced incidence of C-->T transitions at the CpG site suggest that the hPMS2 gene product may have an additional function in the mismatch repair process independent of it's role in the hMutLalpha heterodimer.
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PMID:Specificity of mutations in the PMS2-deficient human tumor cell line HEC-1-A. 983 64

Cocaine is a widely abused drug. Recently, it has been shown to induce teratogenesis in both humans and animals. Cocaine-induced teratogenicity has been associated with reactive oxygen species (ROS), which are generated by cytochrome P450 during cocaine biotransformation. Since ROS have been reported to induce genotoxicity, it is of interest to know whether cocaine and/or its metabolites are also genotoxic. In this study, Chinese hamster ovary K1 cells were employed as a model system to investigate the genetic toxicity of cocaine in the presence or absence of rat liver S9 fraction. Cocaine-induced cytotoxicity was potentiated when S9 was present, indicating the cytochrome P450 metabolism plays a role in cocaine-mediated cytotoxicity. Cocaine treatments per se induced a few chromosome aberrations while treatments of cocaine plus S9 caused a significant increase in chromosome aberrations. In contrast, cocaine induced micronuclei (MN) formation and hypoxanthine-guanine phosphoribosyltransferase mutation only in the presence of S9. Therefore, cocaine itself is at best a weak clastogen, whereas metabolite(s) of cocaine is/are truly inducer(s) of clastogenesis and mutagenesis. Cocaine treatments alone also induced a significant increase in sister chromatid exchange frequency but the addition of S9 did not affect the results. Free radical scavengers, including superoxide dismutase and catalase, efficiently decreased the frequency of cocaine plus S9-induced MN, implying that ROS are indeed important components in cocaine-induced genotoxicity. The observation that non-toxic doses of cocaine can inhibit intercellular metabolic cooperation suggests that cocaine may also be a tumor promoter. Our data supports that cocaine could possess genotoxicity in addition to its well-known neurotoxicity and teratogenicity.
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PMID:Genetic toxicity of cocaine. 1038 89

The lymphocyte hypoxanthine-guanine phosphoribosyltransferase (Hprt) assay is frequently used as a biomarker for the exposure of both humans and laboratory animals to potentially carcinogenic agents. To obtain information concerning the sensitivity of the rat Hprt lymphocyte assay toward aromatic amine carcinogens, male F344 rats were fed 0.02% 2-acetylaminofluorene (2-AAF) for 1 month and then returned to control diet for 2 months. At 4, 27, 48, 62, and 90 days after the initiation of 2-AAF-feeding, the frequency of mutants in the Hprt gene was determined. In addition, DNA was isolated from liver nuclei, spleen lymphocytes, bone marrow, and thymus, and DNA adducts were analyzed by 32P-postlabeling. 2-AAF feeding resulted in a significant induction of 6-thioguanine-resistant T-lymphocytes and the mutant frequency continued to increase after the 2-AAF feeding was stopped. The same major DNA adduct, N-(deoxyguanosin-8-yl)-2-aminofluorene, was detected in liver, spleen lymphocytes, bone marrow, and thymus. DNA adduct levels were greatest in the tumor target tissue (liver) but occurred in all T-lymphocyte compartments, being highest in spleen lymphocytes. The DNA adduct levels were highest at the end of the 1-month 2-AAF feeding period and decreased rapidly in all tissues. The data indicate that the Hprt lymphocyte mutagenesis assay detects arylamine carcinogens, but with relatively low sensitivity.
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PMID:Hprt lymphocyte mutant frequency in relation to DNA adduct formation in rats fed the hepatocarcinogen 2-acetylaminofluorene. 1050 13

Mutatect MN-11 is a tumor line that can be grown subcutaneously in syngeneic C57BL/6 mice. The frequency of spontaneously arising mutants at the hypoxanthine phosphoribosyltransferase (Hprt) locus was observed to be elevated as a result of in vivo growth. The objective of the present study was to identify factors in the tumor microenvironment that might explain this increase in mutant frequency (MF). When tumors were examined histologically, neutrophils were found to be the predominant infiltrating cell type. Quantitative estimates of the number of neutrophils and MF of tumors in different animals revealed a statistically significant correlation (r = 0.63, P < 0.0001). Immunohistochemical analysis for inducible nitric oxide synthase (iNOS) demonstrated its presence, mainly in neutrophils. Biochemical analysis of tumor homogenates for nitric oxide synthase (NOS) activity indicated a statistically significant correlation with MF (r = 0.77, P < 0.0001). Nitrotyrosine was detected throughout the tumor immunohistochemically; both cytoplasmic and nuclear staining was seen. To increase the number of infiltrating neutrophils, tumors were injected with chemoattractant interleukin-8 and prostaglandin E2. This produced a statistically significant increase in neutrophil content (P = 0.005) and MF (P = 0.0002). As in control MN-11 tumors, neutrophil content and MF were strongly correlated (r = 0.63, P = 0. 003). Because neutrophils are a potential source of genotoxic reactive oxygen and/or nitrogen species, our results support the notion that these tumor-infiltrating cells may be mutagenic and contribute to the burden of genetic abnormalities associated with tumor progression.
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PMID:Neutrophils, nitric oxide synthase, and mutations in the mutatect murine tumor model. 1066 80

In the present study the carcinogenic metal ions Cd[II], Co[II], Cr[VI], Ni[II], and Pb[II], as well as As[III], were examined for their ability to induce intrachromosomal homologous and nonhomologous recombination in the hprt gene of two V79 Chinese hamster cell lines, SPD8 and Sp5, respectively. With the exception of Pb[II], all of these ions enhanced homologous recombination, the order of potency being Cr>Cd>As>Co>Ni. In contrast, Cr[VI] was the only ion to enhance recombination of the nonhomologous type. In order to obtain additional information on the mechanism of recombination in the SPD8 cell line, individual clones exhibiting metal-induced recombination were isolated, and the sequence of their hprt gene determined. These findings confirmed that all recombinogenic events in this cell line were of the homologous type, involving predominantly a chromatid exchange mechanism. The mechanisms underlying the recombination induced by these ions are discussed in relationship to their genotoxicity, as well as to DNA repair and replication. Induced recombination may constitute a novel mechanism for induction of neoplastic disease.
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PMID:Arsenic[III] and heavy metal ions induce intrachromosomal homologous recombination in the hprt gene of V79 Chinese hamster cells. 1071 45

The endometrial tumor cell line HHUA carries mutations in two mismatch repair (MMR) genes MSH3 and MSH6. We have established an MSH3-deficient HHUA/chr.2 cell line by introducing human chromosome 2, which carries wild-type MSH6 and MSH2 genes, to HHUA cells. Introduction of chromosome 2 to HHUA cells partially restored G:G MMR activity to the cell extract and reduced the frequency of mutation at the hypoxanthine-guanine phosphoribosyltransferase (hprt*) locus to about 3% that of the parental HHUA cells, which is five-fold the frequency in MMR-proficient cells, indicating that the residual mutator activity in HHUA/chr.2 is due to an MSH3-deficiency in these cells. The spectrum of mutations occurring at the HPRT locus of HHUA/chr.2 was determined with 71 spontaneous 6TG(r) clones. Base substitutions and +/-1 bp frameshifts were the major mutational events constituting, respectively, 54% and 42% of the total mutations, and more than 70% of them occurred at A:T sites. A possible explanation for the apparent bias of mutations to A:T sites in HHUA/chr.2 is haploinsufficiency of the MSH6 gene on the transferred chromosome 2. Comparison of the mutation spectra of HHUA/chr.2 with that of the MSH6-deficient HCT-15 cell line [S. Ohzeki, A. Tachibana, K. Tatsumi, T. Kato, Carcinogenesis 18 (1997) 1127-1133.] suggests that in vivo the MutSalpha (MSH2:MSH6) efficiently repairs both mismatch and unpaired extrahelical bases, whereas MutSbeta (MSH2:MSH3) efficiently repairs extrahelical bases and repairs mismatch bases to a limited extent.
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PMID:Mutation spectrum of MSH3-deficient HHUA/chr.2 cells reflects in vivo activity of the MSH3 gene product in mismatch repair. 1075 99

1,3-Butadiene (BD) is carcinogenic in mice and rats, with mice being more susceptible than rats to its carcinogenic effects. 1,3-Butadiene is mutagenic in the bone marrow and spleen cells of B6C3F1 lacI transgenic mice. The goal of this research was to assess the roles of two BD metabolites, 1,2-epoxy-3-butene (BDO) and 1,2,3,4-diepoxybutane (BDO2), in the mutagenicity and mutational spectrum of the parent compound BD by determining the mutagenicity and mutational spectra of BDO and BDO2 in human and rodent cells in vitro and in vivo. In human TK6 lymphoblastoid cells (TK6 cells), BDO exposure increased the frequency of G.C-->A.T transitions and A.T-->T.A transversions (Fisher exact test; p < 0.05). The most striking difference in the type of base-substitution mutations between BDO-exposed and BDO-unexposed TK6 cells was the 19-fold increase in A.T-->T.A transversions. 1,2,3,4-Diepoxybutane increased the frequency of A.T-->T.A transversions (Fisher exact test; p < 0.05) and the frequency of deletions in exposed TK6 cells compared with unexposed controls. Exposure of Rat2 lacI transgenic fibroblasts (Rat2 cells) to BDO increased the frequency of three types of base-substitution mutations: G.C-->A.T transitions, G.C-->T.A transversions, and A.T-->T.A transversions. Exposure of Rat2 cells to BDO2-induced dose-dependent increases in micronuclei at exposure levels that apparently did not induce mutagenicity at the lacI transgene. The lack of detectable mutagenicity at the lacI transgene in Rat2 cells exposed to BDO2 probably reflects the poor recovery of large deletions by this lambda phage-based mutagenicity assay. Inhalation exposure of B6C3F1 lacI transgenic mice (lacI mice) and F344 lacI transgenic rats (lacI rats) to BDO (29.9 parts per million [ppm]; 6 hours/day; 5 days/week for 2 weeks) did not increase the lacI mutant frequency (MF) in bone marrow or spleen cells of mice and rats, but in the cells of mouse lung (a tumor target organ for BD), significant mutagenicity was observed. An increased lacI MF was also observed in the bone marrow cells of rats exposed to BDO. Inhalation exposure of lacI mice and lacI rats to BDO2 (3.8 ppm; 6 hours/day; 5 days/week for 2 weeks) did not increase the lacI MF in bone marrow or spleen cells of mice or in the spleen cells of rats. An increased lacI MF was observed in the bone marrow cells of rats exposed to BDO2. In the present study, BDO specifically induced G.C-->A.T and A.T-->T.A transversions in vitro at both the endogenous hypoxanthine phosphoribosyltransferase (hprt) gene and the lacI transgene in Rat2 cells. It also induced an increased frequency of G.C-->T.A transversions in Rat2 cells. These types of mutations also occur at an increased frequency in mice exposed to the parent compound, BD. This finding demonstrates the induction of consistent mutational types across biological systems by BDO and indicates that BDO, but not BDO2, probably has a role in mediating the mutations recovered at the lacI transgene in animals exposed to the parent compound, BD. Therefore, it is apparent that in mice exposed to BD at carcinogenic levels, BDO and BDO2 act in concert to mediate the range of genotoxic responses. These data demonstrate that certain DNA adducts (guanine or adenine) may be useful biomarkers for BD genetic effects. However, other DNA lesions that can account for BDO2-induced deletions and chromosomal alterations also need to be considered as biomarkers for BD-induced genotoxicity.
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PMID:1,3-butadiene: cancer, mutations, and adducts. Part II: Roles of two metabolites of 1,3-butadiene in mediating its in vivo genotoxicity. 1092 39

The Mutatect system is a mouse tumor line in which mutations at the hypoxanthine phosphoribosyltransferase (Hprt) locus can be readily detected both in vitro and in vivo. We have previously shown that the nitric oxide-generating drugs, glyceryl trinitrate (GTN) and sodium nitroprusside (SNP), can induce mutations that are readily detected in these cells. In the present report, we have tested the effect of glutathione depletion by buthionine sulfoximine (BSO) on cytotoxicity and mutagenicity by these two drugs. Exposure for 24 h to either drug (123 microM GTN; 500 microM SNP) induced mutations with relatively little cytotoxicity. Pretreatment with 50 microM BSO for 24 h, and then removal at the time of GTN or SNP addition, enhanced cytotoxicity to a modest extent. However, mutagenicity induced by both GTN and SNP was largely abolished. BSO did not affect nitrite accumulation in the medium over a 24-h period, indicating no inhibition of bioactivation of GTN or SNP. Maintaining BSO in the medium for 24 h prior and throughout the period of exposure to GTN or SNP produced a similar effect on mutations. N-Acetylcysteine and oxothiazolidine-4-carboxylate, drugs that are used to increase intracellular glutathione, also blocked mutations. We postulate that a product of the reaction between nitric oxide and intracellular glutathione, such as GSNO or some species derived from it, is promutagenic.
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PMID:Depletion of intracellular glutathione reduces mutations by nitric oxide-donating drugs. 1102 Mar 38

Cockayne syndrome (CS) patients are deficient in the transcription coupled repair (TCR) subpathway of nucleotide excision repair (NER) but in contrast to xeroderma pigmentosum patients, who have a defect in the global genome repair subpathway of NER, CS patients do not have an elevated cancer incidence. To determine to what extent a TCR deficiency affects carcinogen-induced mutagenesis and carcinogenesis, CS group B correcting gene (CSB)-deficient mice were treated with the genotoxic carcinogen benzo(a)pyrene (B[a]P) at an oral dose of 13 mg/kg body weight, three times a week. At different time points, mutant frequencies at the inactive lacZ gene (in spleen, liver, and lung) as well as at the active hypoxanthine phosphoribosyltransferase (Hprt) gene (in spleen) were determined to compare mutagenesis at inactive versus active genes. B[a]P treatment gave rise to increased mutant frequencies at lacZ in all of the organs tested without a significant difference between CSB-/- and wild-type mice, whereas B[a]P-induced Hprt mutant frequencies in splenic T-lymphocytes were significantly more enhanced in CSB-/- mice than in control mice. The sequence data obtained from Hprt mutants indicate that B[a]P adducts at guanine residues were preferentially removed from the transcribed strand of the Hprt gene in control mice but not in CSB-/- mice. On oral treatment with B[a]P, the tumor incidence increased in both wild-type and CSB-deficient animals. However, no differences in tumor rate were observed between TCR-deficient CSB-/- mice and wild-type mice, which is in line with the normal cancer susceptibility of CS patients. The mutagenic response at lacZ, in contrast to Hprt, correlated well with the cancer incidence in CSB-/- mice after B[a]P treatment, which suggests that mutations in the bulk of the DNA (inactive genes) are a better predictive marker for carcinogen-induced tumorigenesis than mutations in genes that are actively transcribed. Thus, the global genome repair pathway of NER appears to play an important role in the prevention of cancer.
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PMID:The relationship between benzo[a]pyrene-induced mutagenesis and carcinogenesis in repair-deficient Cockayne syndrome group B mice. 1105 60

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