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)

Multiplex PCR amplification of hprt exons from 113 Chinese hamster ovary cell clones selected for resistance to 6-thioguanine was performed to investigate the molecular basis for the synergistic mutagenic effects of nutritional folic acid deficiency and alkylating agents. In cells treated with ethyl methanesulfonate, intragenic deletions were detected in 9 of 46 (19.6%) clones derived from folate-deficient cells, but in none of 16 mutants grown in folate-replete medium. The number of deletions found in mutants generated by N-nitroso-N-ethylurea was low in both folate-deficient (1 of 25; 4%) and folate-replete (1 of 26; 3.8%) cells. Correction of folate deficiency may decrease the frequency of intragenic deletions caused by some alkylating agents.
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PMID:Effect of folate deficiency on mutations at the hprt locus in Chinese hamster ovary cells exposed to monofunctional alkylating agents. 920 59

An ionizing radiation resistant derivative was obtained from the mouse P19H22 (aprt hemizygote) embryonal carcinoma cell line by repeated exposure to 137Cs gamma radiation. Ionizing radiation resistance in the 6Gy-R cell line was not correlated with a failure to undergo cell cycle arrest or a loss of the p53 response after exposure to 137Cs gamma radiation. Moreover, the cells did not display increased resistance to bleomycin, a double strand break inducing agent. However, the cells did display increased resistance to ultraviolet radiation, ethyl methanesulfonate, and 95% oxygen. A mutational analysis demonstrated a > 700 fold-fold increase in the frequency of aprt mutants for the 6Gy-R cells, but no change in the frequency of hprt or dhfr mutants. A molecular analysis suggested that the aprt mutations in the 6Gy-R cells arose by recombinational events. A possible association between radiation resistance, DNA repair, and a mutator phenotype for large-scale mutational events is discussed.
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PMID:A cell line selected for resistance to ionizing radiation exhibits cross resistance to other genotoxic agents and a mutator phenotype for loss of heterozygosity events. 933 Jun 39

The role of the nucleotide excision repair (NER) pathway in removal of DNA ethylation damage was investigated by means of hprt mutational spectra analysis in the NER-deficient Chinese hamster ovary cell line UV5, which lacks ERCC2/XPD, and in its parental cell line AA8. Both cell lines were exposed to ethyl methanesulfonate (EMS) or N-ethyl-N-nitrosourea (ENU). EMS gave a similar dose-dependent increase in hprt mutants in UV5 compared with AA8. In both cell lines EMS-induced mutations in the hprt coding region consisted almost exclusively of GC-->AT transitions, probably due to the direct miscoding lesion O6-ethylguanine. ENU, an agent that in addition to O6-ethylguanine also induces other O-alkylation products, was significantly more mutagenic in UV5 than in AA8. Mutational spectra analysis showed that the proportions of ENU-induced GC-->AT, AT-->TA and AT-->GC base pair changes were similar for both cell lines. ENU-induced DNA lesions that may be involved in GC-->AT transitions are O6-ethylguanine and O2-ethylcytosine, the latter being a chemically stable DNA lesion of which the miscoding properties and repair characteristics are largely unknown. ENU-induced AT-->TA transversions are probably caused by O2-ethylthymine, which mispairs with thymine. In AA8 thymines in ENU-induced AT-->TA transversions were exclusively located in the non-transcribed strand of the hprt gene, whereas in UV5 30% of these thymines were found in the transcribed strand. Together, these results indicate that O6-ethylguanine is a poor substrate for NER in rodent cells and that O2-ethylpyrimidines are preferentially removed from the transcribed strand of the hprt gene by NER.
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PMID:Effect of nucleotide excision repair on hprt gene mutations in rodent cells exposed to DNA ethylating agents. 941 94

We tested the ability of a series of known genotoxic agents to cause mutations at the hprt locus in peripheral blood T-lymphocytes of cynomolgus monkeys as measured by the ability to form clones in the presence of 6-thioguanine. Ethylmethane sulfonate (EMS, 300 mg/kg i.p.), chloroethylmethane sulfonate (CI-EMS, 35 or 50 mg/kg i.p.), and the Pharmacia & Upjohn antitumor agents adozelesin (1.6, 4, 6, or 8 microg/kg i.v.) and CC-1065 (6 microg/kg i.v.) were all negative in the hprt mutation test. Results with cyclophosphamide (CP, 75 mg/kg i.v.) were equivocal. Adozelesin, CC-1065, and CI-EMS treatments increased the percentage of T-lymphocytes with chromosome aberrations, as well as inducing types of aberrations not seen in control cells. EMS and CP were not tested for chromosome aberrations. We have previously shown that treatment of monkeys with 77 mg/kg ENU substantially increased the hprt mutant frequency, with a lag time of approximately 77 days between treatment and peak MF values. The results of the present study suggest a low sensitivity of the hprt mutation assay to certain classes of genotoxic agents in cynomolgus monkeys.
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PMID:Lack of response to multiple genotoxic agents at the hprt locus in peripheral blood T-lymphocytes of cynomolgus monkeys. 1021 66

Folic acid deficiency acts synergistically with alkylating agents to increase DNA strand breaks and mutant frequency at the hprt locus in Chinese hamster ovary (CHO) cells. To elucidate the mechanism of this synergy, molecular analyses of hprt mutants were performed. Recently, our laboratory showed that folate deficiency increased the percentage of clones with intragenic deletions after exposure to ethyl methanesulfonate (EMS) but not N-nitroso-N-ethylurea (ENU) compared to clones recovered from folate replete medium. This report describes molecular analyses of the 37 hprt mutant clones obtained that did not contain deletions. Folate deficient cells treated with EMS had a high frequency of G>A transitions at non-CpG sites on the non-transcribed strand, particularly when these bases were flanked on both sides by G:C base pairs. Thirty-three percent of these mutations were in the run of six G's in exon 3. EMS-treated folate replete cells had a slightly (but not significantly) lower percentage of G>A transitions, and the same sequence specificity. Treatment of folate deficient CHO cells with ENU resulted in predominantly T>A transversions and C>T transitions relative to the non-transcribed strand. These findings suggest a model to explain the synergy between folate deficiency and alkylating agents: (1) folate deficiency causes extensive uracil incorporation into DNA; (2) greatly increased utilization of base excision repair to remove uracil and to correct alkylator damage leads to error-prone DNA repair. In the case of EMS, this results in more intragenic deletions and G:C to A:T mutations due to impaired ligation of single-strand breaks generated during base excision repair and a decreased capacity to remove O6-ethylguanine. In the case of ENU additional T>A transversions and C>T transitions are seen, perhaps due to mis-pairing of O2-ethylpyrimidines. Correction of folate deficiency may reduce the frequency of these types of genetic damage during alkylator therapy.
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PMID:The effect of folate deficiency on the hprt mutational spectrum in Chinese hamster ovary cells treated with monofunctional alkylating agents. 1039 62

Two mammalian cell mutation assays, the HPRT/V79 assay and the TK/mouse lymphoma assay, were compared for their ability to respond to the genotoxic chemicals ethyl methanesulfonate (EMS) and mitomycin C (MMC). Whereas EMS induced a high mutant frequency at both loci, MMC produced few mutants at the hprt locus, but induced a large number of mutants at the tk locus. Southern blotting analysis showed that this difference was due to the type of genetic damage induced by the two chemicals. Intragenic changes ranging from point mutations to loss of the entire gene were recovered as viable mutants at both the hprt and tk loci. Thus, EMS which causes mainly intragenic mutations induced similar mutant frequencies at both loci. The large multilocus deletions induced by MMC, in which the damage was assumed in many cases to extend into a gene essential for growth since most TK mutants were slow-growing, could not be recovered at the hprt locus. Whereas both loci will detect intergenic mutations, mutants carrying large-scale damage are recoverable only at the heterozygous tk locus. At the hemizygous hprt locus no homologous chromosome exists to provide the function of essential genes if these are lost along with hprt in multilocus deletions. Most human cancers develop as a highly complex process involving both gene and multilocus mutations in oncogenes and tumour suppressor genes. Thus the TK/mouse lymphoma assay is a more appropriate in vitro test for the detection of chemicals capable of causing the types of DNA lesions important in human cancer.
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PMID:Molecular analysis of chemically-induced mutations in mammalian cell assays. 2065 Jan 22


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