Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interaction of multiple carcinogens on human cells has not been extensively examined. This study reports the results of experiments in which normal human fibroblasts were exposed to both benzo[a]pyrene diolepoxide (BPDE) and potassium dichromate. The effect of four different treatment protocols on the cloning ability of the cells and the mutant frequency of the HPRT gene was determined. The combined treatment of both carcinogens caused a slightly greater than additive decrease in the cloning ability of the cells when compared to cells treated with the individual carcinogens. The result was the same regardless of the treatment protocol used in the experiment. The results of the mutant frequency experiments, however, varied dramatically with the protocol employed. The mutant frequency in cells which were simultaneously treated with both carcinogens was dramatically reduced from the mutant frequency found when cells were treated with BPDE alone. This antagonistic effect was not present when cells were either pretreated with potassium dichromate prior to BPDE or incubated with potassium dichromate following BPDE treatment. The observed antagonistic effect was the result of oxidative stress produced by chromium since it was completely or nearly completely reversed by the addition of either vitamin E or catalase to the cultures.
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PMID:Chromium can reduce the mutagenic effects of benzo[a]pyrene diolepoxide in normal human fibroblasts via an oxidative stress mechanism. 972 58

The cellular response to multiple carcinogen treatment has not been extensively studied, even though the effect of individual carcinogens is, in many cases, well known. We have previously shown that potassium dichromate can protect normal human fibroblasts from the mutagenic effects of benzo[a]pyrene diolepoxide (BPDE), and that this effect may be via an oxidative stress mechanism [Tesfai et al. (1998) Mutat Res 416:159-168]. Here, we extend our previous work by showing that nickel subsulfide can produce the some effect. Normal human fibroblasts, preincubated with nickel subsulfide for 46 hr followed by a coincubation of nickel subsulfide and BPDE for 2 hr, showed a dramatic reduction in the mutant frequency of the hypoxanthine (guanine)phosphoribosyl-transferase (HPRT) gene when compared to cells treated only with BPDE. The preincubation period with nickel subsulfide was necessary to see the antagonistic effect, since it was not observed if the cells were simply incubated with both carcinogens for 2 hr. The extent of the antagonistic effect was nickel subsulfide dose-dependent and also appeared to be species-specific, since the effect was not observed when Chinese hamster fibroblasts were tested. Finally, the antagonistic effect of the nickel subsulfide was eliminated by vitamin E, suggesting that production of reactive oxygen species by the nickel may be required. This data, along with our previous work, suggest that the antagonistic effect we observe is not chromium-specific, and that it could be species-specific.
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PMID:Nickel subsulfide is similar to potassium dichromate in protecting normal human fibroblasts from the mutagenic effects of benzo[a]pyrene diolepoxide. 1033 23

Molecular analysis of mutations at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in peripheral blood T-lymphocytes can provide information on mechanisms of somatic in vivo mutation in populations exposed to exogenous carcinogens and in individuals with inherent susceptibility to cancer and other diseases. To study possible mutational changes associated with smoking as a risk factor for lung cancer, we analyzed HPRT mutations in T-cells of newly diagnosed, nonsmoking and smoking lung cancer patients before treatment. Reverse transcriptase polymerase chain reaction (RT-PCR) and DNA sequencing methods were used to identify 146 independent mutations, 73 each from 32 nonsmoking and 31 smoking cases. In 35 T-cell mutants, the HPRT cDNA showed loss of an entire exon, indicating a splicing mutation. Among the remaining 111 fully characterized mutations in the coding region, single base pair (bp) substitutions predominated with 79% (48/61) in nonsmokers and 90% (45/50) in smokers. Frameshift and small deletion (1-24 bp) mutations were found in 18 mutants. The distribution of base pair substitutions was nonrandom, with significant clustering at previously identified hotspot positions 143, 197 and 617 in the HPRT coding sequence (P< or =0.008). One additional hotspot, GC-->TA at position 606, was observed only in smokers (P=0.006). The frequency of GC>TA transversions was higher in smokers (13%) than in nonsmokers (6%). Conversely, smokers had a lower frequency of GC>AT transitions (24%) than nonsmokers (35%). This smoking-associated shift of the HPRT mutational spectrum, although not statistically significant, is consistent with the in vitro mutagenicity of benzo(a)pyrene (BaP), a prominent carcinogen of tobacco smoke, and with known differences in the TP53 mutational spectrum in lung tumors of smokers and nonsmokers. Among nonsmokers, the HPRT mutational spectra in healthy population controls and lung cancer patients were similar, but there was a marginally significant difference (P=0.07) in the distribution of base pair substitutions between smoking controls and patients. These results suggest that (i) general mechanisms of somatic mutagenesis in individuals with possible predisposition to cancer (e.g. nonsmoking lung cancer patients) are not different from those in normal healthy individuals, and (ii) the HPRT gene in T-cells is a useful reporter locus for smoking-associated somatic in vivo mutations occurring early in lung cancer development.
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PMID:Mutational spectra at the hypoxanthine-guanine phosphoribosyltransferase (HPRT) locus in T-lymphocytes of nonsmoking and smoking lung cancer patients. 1086 57

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

2D NMR has been used to examine the structure and dynamics of a 12-mer DNA duplex, d(T(1)A(2)G(3)T(4)C(5)A(6)A(7)G(8)G(9)G(10)C(11)A(12))-d(T(13)G(14)C( 15)C(16)C(17)T(18)T(19)G(20)A(21)C(22)T(23)A(24)), containing a 10R adduct at dA(7) that corresponds to trans addition of the N(6)-amino group of dA(7) to (-)-(7S,8R,9R,10S)-7,8-dihydroxy-9, 10-epoxy-7,8,9,10-tetrahydrobenzo[a]pyrene [(-)-(S,R,R,S)-BP DE-2]. This DNA duplex contains the base sequence for the major dA mutational hot spot in the HPRT gene when Chinese hamster V79 cells are given low doses of the highly carcinogenic (+)-(R,S,S,R)-BP DE-2 enantiomer. NOE data indicate that the hydrocarbon is intercalated on the 5'-side of the modified base as has been seen previously for other oligonucleotides containing BP DE-2 (10R)-dA adducts. 2D chemical exchange-only experiments indicate dynamic behavior near the intercalation site especially at the 10R adducted dA, such that this base interconverts between the normal anti conformation and a less populated syn conformation. Ab initio molecular orbital chemical shift calculations of nucleotide and dinucleotide fragments in the syn and anti conformations support these conclusions. Although this DNA duplex containing a 10R dA adduct exhibits conformational flexibility as described, it is nevertheless more conformationally stable than the corresponding 10S adducted duplex corresponding to trans opening of the carcinogenic isomer (+)-(R,S,S, R)-BP DE-2, which was too dynamic to permit NMR structure determination. UV and imino proton NMR spectral observations indicated pronounced differences between these two diastereomeric 12-mer duplexes, consistent with conformational disorder at the adduct site and/or an equilibrium with a nonintercalated orientation of the hydrocarbon in the duplex containing the 10S adduct. The existence of conformational flexibility around adducts may be related to the occurrence of multiple mutagenic outcomes resulting from a single DE adduct.
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PMID:NMR evidence for syn-anti interconversion of a trans opened (10R)-dA adduct of benzo[a]pyrene (7S,8R)-diol (9R,10S)-epoxide in a DNA duplex. 1108 51

LC-MS and LC-MS/MS analyses were used to investigate the chemoselectivity of the carcinogenic diol epoxide metabolite, (-)-(1R,2S,3S,4R)-1,2-epoxy-3,4-dihydroxy-1,2,3, 4-tetrahydrobenzo[c]phenanthrene [(-)-(R,S,S,R)-BcPh DE-2], on reaction in vitro with an oligonucleotide dodecamer derived from the HPRT gene. The sequence of this dodecamer, 5'-T(1)A(2)G(3)T(4)C(5)A(6)A(7)G(8)G(9)G(10)C(11)A(12)-3', contains a base (corresponding to A(7)) which is a hot spot for mutagenesis in the hprt gene induced by the carcinogenic (R,S,S,R)-enantiomer of benzo[a]pyrene 7,8-diol 9,10-epoxide, and an adjacent base (corresponding to A(6)) which gave no mutations with this diol epoxide. Modified oligonucleotides were generated by reaction of (-)-BcPh DE-2 with both the single-stranded and duplex forms of the dodecamer. Multiple purine targets in both strands led to the formation of complex reaction mixtures of regioisomeric BcPh DE-modified oligonucleotides, which were partially separated by reverse phase HPLC on a polystyrene-divinylbenzene column. On-line LC-MS data allowed facile distinction between adducts on the two strands of the duplex, and MS/MS analysis permitted unambiguous assignment of the major sites of modification in the regioisomeric, adducted strands. In the duplex, these sites were at A(6), A(7), and G(8). Interestingly, the "hot spot" A(7)w as about 3 times more reactive with the BcPh DE than the "cold spot" A(6). Adduct formation from the single-stranded dodecamer was less selective, and resulted in more extensive alkylation of G residues.
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PMID:HPLC-MS/MS identification of positionally isomeric benzo[c]phenanthrene diol epoxide adducts in duplex DNA. 1112 77

Cancer risk assessment of polycyclic aromatic hydrocarbons (PAH) is complicated by several of these compounds exerting a promoter action leading to high tumour incidences at high doses. Cancer risks at low doses corresponding to the uptake from air and food in the general environment would best be estimated on the basis of measurement of in vivo target doses of genotoxic (mutagenic) intermediates and a determination of mutation frequency per unit of dose. In experiments ultimately aiming at a risk assessment of environmental PAH from in vivo doses benzo[a]pyrene (BaP) was chosen as a model. gamma-Radiation has earlier been used as a reference standard in cancer risk estimation of genotoxic chemicals where dose equivalents (rad-equivalents) have been shown to give reliable risk estimates for several alkylating agents. Variation in dose of BaP diolepoxide between organs was studied by measurement of deoxyguanosine-N(2) adducts in DNA after administration of BaP by gavage to mice of a strain with reduced DNA repair (Xpa(-/-)). The adduct levels in spleen, forestomach, stomach and small intestine were approximately the same; with the adduct level in spleen as reference it was twice as high in liver and lung and about half as high in colon tissue. A chemical or radiation dose is proportional to the cumulative frequency of putatively premutagenic changes (premutagenic hits) in DNA. The mutation frequency per premutagenic hit (genotoxic chemicals) and per unit of dose (gamma-radiation) were calculated from acutely exposed V79 cells in order to determine the mutagenic effectiveness of each agent. Based on the mutagenic effectiveness determined in this study 10(-4) Gy can be regarded equally effective in causing phenotypically expressed HPRT mutations as the dose of BaP which causes the formation of one deoxyguanosine-N(2) adduct per cell.
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PMID:Studies of dose distribution, premutagenic events and mutation frequencies for benzo[a]pyrene aiming at low dose cancer risk estimation. 1142 Apr 2

The detection of DNA adducts is an important component in assessing the mutagenic potential of exogenous and endogenous compounds. Here, we report an in vitro quantitative long PCR (XL-PCR) assay to measure DNA adducts in human genomic DNA based on their ability to block and inhibit PCR amplification. Human genomic DNA was exposed to test compounds and then a target sequence was amplified by XL-PCR. The amplified sequence was then quantified using fluorogenic 5' nuclease PCR (TaqMan) and normalized to a solvent-treated control. The extent of DNA adduction was determined based on the reduction in amplification of the target sequence in the treated sample. A 17.7kb beta-globin fragment was chosen as the target sequence for these studies, since preliminary experiments revealed a two-fold increased sensitivity of this target compared to a 10.4kb HPRT fragment for detecting hydrogen peroxide-induced DNA damage. Validation of the XL-PCR assay with various compounds demonstrated the versatility of the assay for detecting a wide range of adducts formed by direct acting or S9-activated mutagens. The same DNA samples were also analyzed using 32P-postlabeling techniques (thin-layer chromatography or high-performance liquid chromatography) to confirm the presence of DNA adducts and estimate their levels. Whereas 32P-postlabeling with nuclease P(1) enrichment was more sensitive for detecting bulky adducts induced by the compounds benzo[a]pyrene, dimethylbenzanthracene, 3-methylindole, indole 3-carbinol, or 2-acetylaminofluorene, the XL-PCR procedure was more sensitive for detecting smaller or labile DNA adducts formed by the compounds methyl methanesulfonate, diethyl nitrosamine, ethylnitrosourea, diepoxybutane, ICR-191, styrene oxide, or aflatoxin B(1). Compounds not expected to form adducts in DNA, such as clofibrate, phenobarbital, chloroform or acetone, did not produce a positive response in the XL-PCR assay. Thus, quantitative XL-PCR provides a rapid, high-throughput assay for detecting DNA damage that complements the existing 32P-postlabeling assay with nuclease P(1) enrichment.
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PMID:Detection of DNA adducts using a quantitative long PCR technique and the fluorogenic 5' nuclease assay (TaqMan). 1173 68

New biomaterial related reference materials with known genotoxic properties were produced in order to study the sample preparation and in vitro genotoxicity testing of biomaterials. We incorporated genotoxic substances like benzo[a]pyrene into the biomaterial Tecoflex, a polyurethane frequently used for catheters and other applications. We demonstrated that the model compound benzo[a]pyrene is sufficiently extracted by organic solvents, whereas cell culture medium only extracts very limited quantities. By changing the medium several times during extraction the extracted amount was augmented. Using higher amounts of organic solvent in relation to the reference material's surface led to a higher recovery of extracted benzo[a]pyrene. For the in vitro genotoxicity testing using the Mammalian Cell Gene Mutation Test (HPRT test), Mammalian Chromosome Aberration Test, and bacterial umu- and SOS-tests, concentration of extracts is a prerequisite because of the low sensitivity of the test systems. Often cytotoxicity interferes with the evaluation of genotoxic effects. We demonstrated that some recommendations of the ISO 10993-Part 3 and 12,(1),(2) dealing with the biological evaluation of medical devices, seem to be insufficient, and new rules for the in vitro genotoxicity testing of biomaterials have to be established.
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PMID:Improved sample preparation of biomaterials for in vitro genotoxicity testing using reference materials. 1200 Dec 50

Chinese hamster lung fibroblasts, genetically engineered for the expression of rat cytochrome P450 dependent monooxygenase 1A2 and rat sulfotransferase 1C1 (V79-rCYP1A2-rSULT1C1 cells), were utilized to check for possible protective effects of beverages of plant origin, fruits, vegetables, and spices against genotoxicity induced by 2-acetylaminofluorene (AAF) or 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP). Antigenotoxic activities of juices from spinach and red beets against AAF could be monitored with similar effectivity by the HPRT-mutagenicity test (IC(50)=0.64%; 2.57%) and alkaline single cell gel electrophoresis (comet assay; IC(50)=0.12%; 0.89%) which detects DNA strand breaks and abasic sites. Applying the comet assay, genotoxicity of PhIP could, however, be demonstrated only in the presence of hydroxyurea and 1-[beta-D-arabinofuranosyl]cytosine, known inhibitors of DNA repair synthesis. As expected, AAF and PhIP were unable to induce any genotoxic effects in the parent V79 cells. Genotoxic activity of PhIP was strongly reduced in a dose-related manner by green tea and red wine, by blueberries, blackberries, red grapes, kiwi, watermelon, parsley, and spinach, while two brands of beer, coffee, black tea, rooibos tea, morellos, black-currants, plums, red beets, broccoli (raw and cooked), and chives were somewhat less active. One brand of beer was only moderately active while white wine, bananas, white grapes, and strawberries were inactive. Similarly, genotoxicity of AAF was strongly reduced by green, black, and rooibos tea, red wine, morellos, black-currants, kiwi, watermelon, and spinach while plums, red beets, and broccoli (raw) were less potent. Broccoli cooked exerted only moderate and white wine weak antigenotoxic activity. With respect to the possible mechanism(s) of inhibition of genotoxicity, benzo[a]pyrene-7,8-dihydrodiol (BaP-7,8-OH) and N-OH-PhIP were applied as substrates for the CYP1A family and for rSULT 1C1, respectively. Morellos, black-currants, and black tea strongly reduced the genotoxicity of BaP-7,8-OH, onions, rooibos tea, and red wine were less potent while red beets and spinach were inactive. On the other hand, red beets and spinach strongly inhibited the genotoxicity of N-OH-PhIP, rooibos tea was weakly active while all other items were inactive. These results are suggestive for enzyme inhibition as mechanism of protection by complex mixtures of plant origin. Taken together, our results demonstrate that protection by beverages, fruits, and vegetables against genotoxicity of heterocyclic aromatic amines may take place within metabolically competent mammalian cells as well as under the conditions of the Salmonella/reversion assay.
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PMID:Protection by beverages, fruits, vegetables, herbs, and flavonoids against genotoxicity of 2-acetylaminofluorene and 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) in metabolically competent V79 cells. 1243 4


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