EC:2.4.2.8 - FACTA Search

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Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stable, oxygen-resistant cell lines (O2R) were isolated from P19 and P19H22 (APRT hemizygote) mouse embryonic carcinoma cells by serial exposures of increasing durations to 95% O2. Neurally differentiated progeny were also oxygen-resistant. P19O2R exhibited reduced oxygen-mediated micronucleation and a 10- to 20-fold reduction of the forward mutation rate at the HPRT locus in 20% O2. P19H22O2R cells showed reduced frequencies of colonies resistant to 2,6-diaminopurine. The modal karyotype of P19O2R was identical to that of a nonmodal karyotype present in the parental line [39,X,-Y, add(14)]. There was no evidence of enhanced resistance to ionizing radiation. We conclude that this general approach, when applied to pluripotent embryonic stem cells, has the potential to lead to the synthesis of antimutator strains of mice.
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PMID:Oxygen-resistant multipotent embryonic carcinoma cell lines exhibit antimutator phenotypes. 782 58

Pluripotent undifferentiated embryonic carcinoma cells of line P19 and their differentiated progeny, epithelioid ectoderm-like EPI-7 cells, showed different responses to mitomycin C (MMC) with respect to induction of micronuclei, mutations at the HPRT-locus and cell cycle control. Cytotoxic effects of MMC after a 5-h treatment were lower in undifferentiated P19 cells than in differentiated EPI-7 cells with IC50 values of 1.3 and 0.25 microM for P19 and EPI-7 cells, respectively. MMC did not induce 6-thioguanine-resistant mutants in P19 cells but significantly increased the mutation frequency in EPI-7 cells with concentrations of 0.25, 0.5 and 1.0 microM MMC. Micronuclei determined by flow-cytometry were induced by MMC in both cell lines at equitoxic concentrations of 4.5 (P19) and 0.75 (EPI-7) microM, reducing the viability in both cell lines to 10%. Whereas the induction of micronuclei in P19 cells was maximal 28 h after treatment and declined thereafter, micronucleus induction peaked 48 h post treatment in EPI-7 cells and remained significantly increased even 67 h after the treatment. Flow-cytometric determination of the distribution of MMC-treated P19 and EPI-7 within the cell cycle revealed a distinct G2/M-block in P19 cells, whereas EPI-7 cells showed normal progression through S-phase and a negligible G2/M-block. Therefore, we conclude that the lower effectivity of MMC to induce gene mutations and micronuclei in P19 cells seemed to be correlated with a more efficient cell cycle control in undifferentiated compared to differentiated EPI-7 cells.
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PMID:Low mutagenic effects of mitomycin C in undifferentiated embryonic P19 cells are correlated with efficient cell cycle control. 869 96

Dibenzo[a,l]pyrene (DB[a,l]P) represents the most potent carcinogenic polycyclic aromatic hydrocarbon (PAH) yet discovered. Like other PAHs, DB[a,l]P requires metabolic activation to exert its mutagenic and/or carcinogenic activity. In the human mammary carcinoma cell line MCF-7, DB[a,l]P is stereoselectively metabolized to the (-)-anti- and (+)-syn-DB[a,l]P-11,12-diol 13,14-epoxides (DB[a,l]PDE) which both bind extensively to deoxyadenosine residues in DNA. To further characterize the underlying mechanism of its strong carcinogenicity, the relationship between DNA binding and mutagenicity of DB[a,l]P was determined. Racemic DB[a,l]P-11,12-dihydrodiol and the two individual (+)- and (-)-enantiomers, the metabolic precursors of the stereoisomeric fjord region dihydrodiol epoxides, were also investigated. Induction of mutations at the HPRT locus was measured in a MCF-7 cell-mediated Chinese hamster V79 cell mutation assay. The parent hydrocarbon, (+/-)-DB[a,l]P-11,12-dihydrodiol, and (-)-DB[a,l]P-11,12-dihydrodiol were highly mutagenic under the assay conditions. In contrast, (+)-DB[a,l]P-(11S,12S)-dihydrodiol was not mutagenic using MCF-7 cells as the metabolic activating system. Analysis of DNA adducts in the same experiments revealed that MCF-7 cells treated with (-)-DB[a,l]P-11,12-dihydrodiol formed exclusively (-)-anti-DB[a,l]-PDE adducts whereas cells treated with (+)-DB[a,l]P-11,12-dihydrodiol did not contain detectable levels of DNA adducts. These results suggest that specific cytochrome P450 enzymes may have high stereoselectivity for activation of the two DB[a,l]P-11,12-dihydrodiol enantiomers, and this may play an important role in the metabolic activation of the strong carcinogen DB[a,l]P in human cells.
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PMID:Stereoselective activation of dibenzo[a,l]pyrene and its trans-11,12-dihydrodiol to fjord region 11,12-diol 13,14-epoxides in a human mammary carcinoma MCF-7 cell-mediated V79 cell mutation assay. 920 76

Fifteen variants with >/=30-fold resistance to N-methyl-N-nitrosourea were isolated from the Burkitt's lymphoma Raji cell line. Eight had received a single treatment with a highly cytotoxic dose. The remainder, including the previously described RajiF12 cell line, arose following multiple exposures to initially moderate but escalating doses. Surprisingly, methylation resistance arose in three clones by reactivation of a previously silent O6-methylguanine-DNA methyltransferase gene. Five clones, including RajiF12, displayed the microsatellite instability and increased spontaneous mutation rates at the hypoxanthine-guanine phosphoribosyltransferase locus, consistent with deficiencies in mismatch repair. Defects in either the hMutSalpha or hMutLalpha mismatch repair complexes were identified in extracts of these resistant clones by in vitro complementation using extracts from colorectal carcinoma cell lines. Defects in hMutLalpha were confirmed by Western blot analysis. Remarkably, five methylation-resistant clones in which mismatch repair defects were demonstrated by biochemical assays did not exhibit significant microsatellite instability.
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PMID:Mismatch repair defects and O6-methylguanine-DNA methyltransferase expression in acquired resistance to methylating agents in human cells. 935 25

The purpose of this paper was to clarify critical aspects of the behavior of signal transduction activity in normal and cancer cells. 1. Signal transduction activity in the conversion of phosphatidylinositol through PI and PIP kinases and PLC to IP3 is regulated at multiple sites. In liver, hepatomas and human carcinomas PIP kinase is the rate limiting enzyme and PLC activity is present in great excess. 2. The steady-state signal transduction activity as measured by the three enzyme activities and IP3 concentration was markedly up-regulated in rat hepatomas of different growth rates. The steady-state specific activities of the three signal transduction enzymes were elevated in ovarian carcinomas as compared to normal ovary. Increased enzyme activities were also observed in human breast carcinoma cells as compared to normal human breast parenchymal cells. In breast, ovarian and rat hepatoma cells as they go through lag, log and plateau phases, IP3 concentration in the early lag phase increased 4.5- to 20-fold and PI and PIP kinase activities peaked in mid-log phase. These events returned to baseline levels in the plateau phase. PLC activity did not change. 3. The bone marrow PI and PIP kinase activities in 3-day starvation were decreased to 13% and IP3 concentration was reduced to 24%; at 1-day refeeding they returned to normal. PLC activity changed little. These alterations are in line with the rapid t1/2 degradation rates (12 min) of PI and PIP kinases observed in studies with cycloheximide. By contrast, PLC has a long half-life. 4. The molecular action of tiazofurin entails inhibition of IMP DH activity, decrease in GTP and IP3 concentrations, reduction of ras and myc oncogene expression, and signal transduction enzyme activities. These events are followed by induced differentiation and apoptosis. There are also decreases in enzyme activities which have rapid turnover, including TdR kinase, dTMP synthase, and GPRT. In vitro studies indicated that these events are abrogated by addition of guanine which restores GTP concentrations. Therefore, most or all these events were brought about by the reduced GTP concentration in the tiazofurin target cells. 5. Quercetin and genistein are able to inhibit PI and PIP kinase activities and reduce IP3 concentration in vivo and in tissue culture systems. These flavonoids are also inhibitors of cell proliferation and clonogenic ability in rat hepatoma 3924A and in human OVCAR-5 and MDA-MB-435 cells. Quercetin down-regulated the expression of c-myc and Ki-ras oncogenes and led to induced differentiation and apoptosis in K562 cells. Genistein reduced IP3 concentration in vivo and in the tissue culture system. Genistein is antiproliferative and has cytototoxicity in human carcinoma cells. All three drugs, tiazofurin, quercetin and genistein, act, in part at least, through depression of cellular IP3 concentration although the mechanisms may not be identical. 6. Quercetin and genistein, which attack different targets and different phases of the cell cycle, proved to be synergistic in OVCAR-5 cells. The impact of tiazofurin, genistein and quercetin is of interest because the drugs crucially inhibit the display of the neoplastic program of cells and lead to induced differentiation and apoptosis.
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PMID:Regulation of the signal transduction program by drugs. 938 80

In an attempt to elucidate mechanisms underlying the variation in radiosensitivity during the cell cycle, mutations in the HPRT gene were selected with 6-thioguanine, quantified and characterized in synchronous human bladder carcinoma cells (EJ30-15) that were irradiated in G1 or S phase with 3 or 6 Gy. Synchronous cells were obtained by mitotic selection, with approximately 98% of the cells in G1 phase when they were irradiated after 3 h of incubation, and 75% in S phase when they were irradiated after 14 h of incubation. The mutant frequencies were approximately 4-fold higher (P < 0.01) when cells were irradiated in G1 phase compared with S phase, and the lowest frequency (1.5 x 10(-5) for 3 Gy during S phase) was approximately 10-fold higher than the spontaneous frequency. Exon analysis by multiplex polymerase chain reaction was performed on DNA isolated from each independent mutant. The different types of mutants were categorized as class 1, which consisted of base-pair changes or small deletions less than 20 bp; class 2, which consisted of deletions greater than 20 bp but with one or more HPRT exons present; and class 3, which consisted of deletions encompassing the entire HPRT gene and usually genomic markers located 350-750 kbp from the 5' end of the gene and/or 300-1400 kbp from the 3' end. A "hotspot" for class 2 deletions was observed between exons 6 and 9 (P < 0.01). For cells irradiated during G1 phase, the percentages for the different classes (total of 78 mutants) were similar for 3 and 6 Gy, with a selective induction of class 3 mutants (34-38%) compared with spontaneous mutants (3%, total 20). When S-phase cells were irradiated with 3 Gy, there were fewer class 1 mutants (21%, total 37) than when cells were irradiated in G1 phase with 3 Gy (45%, total 42) (P < 0.01). The greatest change was observed when the dose was increased in S phase from 3 Gy to 6 Gy (total of 43 mutants), with the frequency of class 2 mutants decreasing dramatically from 30% to 1% (P < 0.005). A similar decrease in class 2 mutants with an increase in dose has been observed by others in asynchronous cultures of normal human fibroblasts. We hypothesize that these differences occur because: (a) there is more error-free repair of double-strand breaks (DSBs) during S than G1 phase; (b) a single DSB within the HPRT gene causes a class 2 mutation or a certain percentage of class 1 mutations, while two DSBs, with one in each approximately 1-Mbp region 5' and 3' of the gene, cause a class 3 mutation; and (c) a repair process that is induced when the dose during S phase is increased from 3 to 6 Gy results in a preferential decrease in class 2 mutations.
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PMID:Comparisons of the frequencies and molecular spectra of HPRT mutants when human cancer cells were X-irradiated during G1 or S phase. 939

We have studied whether spontaneous intrachromosomal recombination is altered in methylation tolerant human cells with a defect in mismatch repair. Somatic recombination was analysed in HeLaMR cells containing the vector pTPSN, which carries two copies of the gene for hygromycin resistance. The hygromycin genes are both inactivated by an inserted HindIII linker but hygromycin-resistant clones can arise by recombination. The spontaneous rate of recombination in a clone of HeLaMR cells containing a single integrated copy of pTPSN (HeLaG1) was 3.1x10(-6)/cell per generation. Two methylation tolerant variants from HeLaG1 cells (clone 12 and clone 15) were isolated by exposure to MNNG. Clone 12 cells exhibited a 16-fold increase in spontaneous mutation rate at the HPRT gene and extensive microsatellite instability at both mono- and dinucleotide repeats. Microsatellite instability limited to mononucleotide repeats was found in clone 15, whereas the mutation rate at HPRT was not significantly affected. A mismatch binding defect in extracts of clone 15 could be complemented by exogenous GTBP but not by purified hMSH2 protein. These data suggest that clone 15 is defective in GTBP. Extracts of clone 12 were unable to correct a single C:T mispair and complementation by extracts of human colorectal carcinoma cells with known deficiencies in mismatch repair indicated a defect in hMutLalpha. Western blotting with antibodies against different human mismatch repair proteins showed that clone 12 cells did not express hPMS2 protein, but expression of hMLH1, hMSH2 and GTBP appeared normal. The spontaneous recombination rate of clone 12 was 19-fold higher than the parental HeLaG1 cells, whereas no increase was observed in clone 15. Analysis of individual recombinants showed that hygromycin resistance arose exclusively by gene conversion. Our data indicate that mismatch correction regulates somatic recombination in human cells.
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PMID:Increased somatic recombination in methylation tolerant human cells with defective DNA mismatch repair. 950 Sep 19

In an attempt to investigate the X chromosome harboring putative tumor suppressor genes (TSGs) in sporadic breast carcinoma, we performed loss of heterozygosity (LOH) studies on 23 breast carcinomas using 15 polymorphic markers covering the whole X chromosomes. Matched DNA extracted from tumor samples and corresponding normal tissues were analyzed by polymerase chain reactions (PCR) using microsatellite markers. In 10 cases (43.5%), LOH was detected for at least 1 of the 15 polymorphic markers of the X chromosome tested. Four cases carried a LOH at Xp, and three cases LOH on Xp and Xq. Three cases carried a LOH Xq. Percentage of LOH was relatively high in DXS987 (26.7%), DXS999(30.0%), HPRT(21.4%), DXS1062(23.1%) loci. Common regions of deletions were found on Xp22.2-p22.13 (30% of LOH) measuring about 4.5Mb and Xq26.1-q27.1 (23.1% of LOH) measuring 10 Mb. The deleted allele was an active copy of the X chromosome. The results indicate the TSGs on the X chromosome are involved in breast cancer.
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PMID:Loss of heterozygosity on chromosome XP22.2-p22.13 and Xq26.1-q27.1 in human breast carcinomas. 968 12

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

Radiation-induced HPRT mutants are generally assumed to arise directly from DNA damage that is misrepaired within a few hours after X-irradiation. However, there is the possibility that mutations result indirectly from radiation-induced genomic instability that may occur several days after the initial radiation exposure. The protocols that commonly employ a 5-7 day expression period to allow for expression of the mutant phenotype prior to replating for selection of mutants would not be able to discriminate between mutants that occurred initially and those that arose during or after the expression period. To address this question, we performed a fluctuation analysis in which synchronous or asynchronous populations of human bladder carcinoma cells were treated with single doses of X-irradiation. For comparison, radiation was delivered during the expression period, either from an initial dose of 1.0 Gy followed by two 1.0 Gy doses separated by 24 h or from disintegrations resulting from I125dU incorporated into DNA. The mutation frequency observed at the time of replating was used to calculate the average number of mutants in the initial irradiated culture by assuming that the mutants were induced directly at the time of irradiation. Then, this average number was used to calculate the fraction of the irradiated cultures that would be predicted by a Poisson distribution to have zero mutants. There was reasonably good agreement between the predicted poisson distribution and the observed distribution for the cultures that received single doses. Moreover, as expected, when cultures were irradiated during the expression period, the fraction of the cultures having zero mutants was significantly less than that predicted by a Poisson distribution. These results indicate that most radiation-induced HPRT mutations are induced directly by the initial DNA damage, and are not the result of radiation-induced instability during the 5-7 day expression period.
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PMID:Evidence that most radiation-induced HPRT mutants are generated directly by the initial radiation exposure. 1032 Jul 47

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