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)

A model system was developed to allow investigation of the frequency at which clastogenic and/or mutagenic events occur in situ in a transplantable murine fibrosarcoma tumour (MC1A-C1) compared with in vitro culture. The marker selected for detecting these events was the X-linked hprt (hypoxanthine-guanine phosphoribosyltransferase) gene. We found that the hprt gene in MC1A-C1 was not suitable for this purpose, most likely because multiple active copies were present. To circumvent the problem, HPRT- [6-thioguanine (6-TG)-resistant] clones were isolated by inactivating all hprt genes with methylnitrosourea. Spontaneous revertants to hypoxanthine/aminopterin/thymidine resistance (HATR) were isolated and found to be approximately 1000 times more sensitive than the parental tumour to induction of 6-TGR mutants by cobalt-60 gamma-rays. This sensitivity is expected for a heterozygous marker, these revertants may therefore possess only one functional hprt locus but two or more active X chromosomes. A clone with a stable hprt gene was identified and a neo gene was introduced. The resulting cell line (MN-11) could be grown as a subcutaneous tumour in syngeneic C57BL/6 animals. The frequency of mutations arising in vivo in the marker hprt gene could be estimated by culturing explanted tumour cells in the presence of 6-TG, using G418 selection to distinguish tumour from host cells. The frequency of mutants in MN-11 cells grown as tumours was found to be 3.4-fold higher than in tissue culture for an equivalent period of time. These data provide the first direct evidence for the existence of mutagenic factors in a tumour environment that might contribute to tumour progression.
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PMID:Hprt mutants in a transplantable murine tumour arise more frequently in vivo than in vitro. 757 74

We describe a two-step strategy to alter any mouse locus repeatedly and efficiently by direct positive selection. Using conventional targeting for the first step, a functional neo gene and a nonfunctional HPRT minigene (the "socket") are introduced into the genome of HPRT- embryonic stem (ES) cells close to the chosen locus, in this case the beta-globin locus. For the second step, a targeting construct (the "plug") that recombines homologously with the integrated socket and supplies the remaining portion of the HPRT minigene is used; this homologous recombination generates a functional HPRT gene and makes the ES cells hypoxanthine-aminopterin-thymidine resistant. At the same time, the plug provides DNA sequences that recombine homologously with sequences in the target locus and modifies them in the desired manner; the plug is designed so that correctly targeted cells also lose the neo gene and become G418 sensitive. We have used two different plugs to make alterations in the mouse beta-globin locus starting with the same socket-containing ES cell line. One plug deleted 20 kb of DNA containing the two adult beta-globin genes. The other replaced the same region with the human beta-globin gene containing the mutation responsible for sickle cell anemia.
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PMID:Deletion and replacement of the mouse adult beta-globin genes by a "plug and socket" repeated targeting strategy. 793 10

Transfection of HPRT- L fibroblasts with a plasmid containing two linked selectable markers genes, gpt and neo, regulated by the same eukaryotic control elements, yielded a 6-fold higher transfection frequency on selection for neo than for gpt. Transfection of HPRT- embryonal stem (ES) cells with the same plasmid yielded high levels of transfectants when selected for neo expression with G418, but a level of transfection greater than two orders of magnitude lower was observed when HAT supplemented medium was used to select for gpt expression. Selection for gpt expression in ES cells with medium containing mycophenolic acid and xanthine gave slightly higher frequencies of transfection, but still considerably lower than that for neo selection. In addition, mycophenolic acid exhibited a general cytotoxicity to ES cells with the window between toxicity of this compound to gpt- ES cells and gpt+ ES cells being very narrow. Cells selected with mycophenolic acid and xanthine for expression of gpt remained sensitive to HAT selection. Expression of gpt in a representative ES cell line, selected on mycophenolic acid and xanthine, was verified by Northern analysis and sensitivity to 6-thioguanine. While the level of mRNA expression in this ES cell line was insufficient to support growth via purine salvage when exposed to HAT medium, identical levels of gpt expression in HPRT- L cells, as judged by Northern analysis, allowed for normal growth in HAT medium. This suggests that ES cells place a greater demand on purine nucleotide biosynthesis than L cells. These results are discussed in terms of the use of gpt as a positive and negative selectable marker for gene targeting via homologous recombination in ES cells.
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PMID:Escherichia coli gpt as a positive and negative selectable marker in embryonal stem cells. 801 15

We have used five isogenic human lymphoblastoid cell lines each containing a retroviral vector at a different position in the genome to assess the influence of these positions on spontaneous mutagenesis. The vector contains the hamster hprt cDNA and the neo gene, both genes are transcribed from the retroviral LTR promoter. The rates of mutation leading to a HPRT- phenotype during growth in non-selective medium differed up to 60-fold in the five retroviral integrates, ranging from 5.9 x 10(-6) to 3.5 x 10(-4) mutations per cell generation. From each of the cell lines approximately 20 independent mutants were analyzed by Southern blot analysis. In two cell lines all mutations were caused by inactivation of the LTR promoter (presumably by DNA methylation), whereas in another cell line the estimated rate of this mutation is 1000-fold lower. Another important class of mutation is homologous recombination between the LTRs. This accounts for at least half of the mutants in the other three cell lines. Mutants carrying deletions or point mutations form a minor fraction of the mutant distribution. Mutations confined to the hprt cDNA sequences only were studied by selecting HPRT- mutants in the presence of G418. Even for this subset of mutations the rates can vary at least 10-fold between the different genomic positions, ranging from 4.2 x 10(-7) to 5.1 x 10(-6). We conclude therefore that mutations leading to a HPRT- phenotype are quantitatively as well as qualitatively different in the studied cell lines. This suggests that spontaneous mutagenesis in a gene is dependent on its position in the genome.
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PMID:Genomic position influences spontaneous mutagenesis of an integrated retroviral vector containing the hprt cDNA as target for mutagenesis. 849 5

The Escherichia coli xanthine-guanine phosphoribosyltransferase gene (Ecogpt) rescues mammalian cells from inhibition of purine nucleotide biosynthesis by mycophenolic acid (MPA). We used Ecogpt and other selectable markers to obtain subclones of NIH 3T3 derivatives (EN/NIH) stably expressing transfected genes of interest. In their respective selective mediums, growth of MPA-resistant (MPA(R)) isolates was indistinguishable from that of aminoglycoside-resistant counterparts expressing selectable marker genes conferring resistance to protein synthesis inhibitors hygromycin B, puromycin, and G418. Growth of aminoglycoside-resistant isolates remained unaltered on passage to nonselective media. In contrast, MPA(R) cells transferred from MPA complete media to nonselective media displayed morphologic changes with static growth. These findings resolved completely by third passage in nonselective media and were independent of the gene of interest cis-linked to the selectable marker. Sequential selection strategies involving cell culture conditions resulting in these altered growth characteristics significantly impaired detection (by selection in G418) of genomic events associated with reactivation of enhancerless, transcriptionally silent neointegrants present in MPA(R) EN/NIH isolates. We explored the cause of these cell culture findings and defined transfection and sequential selection strategies for MPA(R) derivatives that successfully circumvented these effects.
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PMID:Passage to nonselective media transiently alters growth of mycophenolic acid-resistant mammalian cells expressing the escherichia coli xanthine-guanine phosphoribosyltransferase gene: implications for sequential selection strategies. 883 31

Interleukin-8 (IL-8) is a chemokine for neutrophils and an angiogenic factor. Human tumors that express IL-8 may exhibit intense neutrophil infiltration and increased vascularization. Mutatect cells are a murine fibrosarcoma that can be grown as subcutaneous tumors in syngeneic C57BL/6 mice. Since neutrophils are a source of cytotoxic and genotoxic species, we constructed Mutatect cell lines that constitutively express human IL-8 to explore the involvement of neutrophils in tumor biology and genetic instability. An IL-8/neo expression plasmid was stably transfected into Mutatect MC17-51 cells and clone MIL-4 was isolated. Tumors initiated with 5x10(5) MIL-4 cells grew very slowly compared with tumors from pure MC17-51 cells or from 0.5 to 4x10(5) MIL-4 cells mixed with 5x10(5) MC17-51 cells. Over 95% of cells recovered from slow-growing pure MIL-4 tumors lost the transgene as measured by loss of (i) resistance to G418, (ii) expression of IL-8 protein and (iii) IL-8-specific DNA sequences. When tumors from mixed cell types were examined, loss of the transgene did not occur; rather, IL-8 producing cells appeared to have some growth advantage. The neutrophil content of tumors (as measured by myeloperoxidase) was directly proportional to the level of IL-8 expressed at the time tumors were excised. As reported earlier, the frequency of mutations at the hypoxanthine phosphoribosyltransferase locus was also directly proportional to neutrophil content. To explain some of these biological findings, we postulate that early in development of pure MIL-4 tumors, genotoxic/cytotoxic neutrophils are attracted by IL-8, which in turn leads to loss of the transgene and to localized cytotoxicity of IL-8 producing cells. In mixed tumors, where the initial IL-8 concentration may be lower, tumors might become established more readily because fewer neutrophils may be attracted. This relatively simple experimental paradigm has revealed some of the complex biological changes that can occur as a result of IL-8 in tumors.
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PMID:Constitutive expression of interleukin-8 by Mutatect cells markedly affects their tumor biology. 1118 44

Mammalian cells repair DNA double-strand breaks by illegitimate end-joining or by homologous recombination. We investigated the effects of restriction enzymes on illegitimate and homologous DNA integration in mammalian cells. A plasmid containing the neo(R) expression cassette, which confers G418 resistance, was used to select for illegitimate integration events in CHO wild-type and xrcc5 mutant cells. Co-transfection with the restriction enzymes BamHI, BglII, EcoRI and KpnI increased the efficiency of linearized plasmid integration up to 5-fold in CHO cells. In contrast, the restriction enzymes did not increase the integration efficiency in xrcc5 mutant cells. Effects of restriction enzymes on illegitimate and homologous integration were also studied in mouse embryonic stem (ES) cells using a plasmid containing the neo(R) gene flanked by exon 3 of HPRT: The enzymes BamHI, BglII and EcoRI increased the illegitimate integration efficiency of transforming DNA several-fold, similar to the results for CHO cells. However, all three enzymes decreased the absolute frequency of homologous integration approximately 2-fold, and the percentage of homologous integration decreased >10-fold. This suggests that random DNA breaks attract illegitimate recombination (IR) events that compete with homology search.
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PMID:Restriction enzymes increase efficiencies of illegitimate DNA integration but decrease homologous integration in mammalian cells. 1172 92

Using the HPRT genomic DNA fragment and synthesized oligonucliotides, pSP-HPRT-F-Neo-F3 was designed and constructed as a replacement gene targeting vector by usual molecular cloning techniques. Structure of pSP-HPRT-F-Neo-F3 was identified by restrictive digestion analysis and partly sequencing. Then linearized pSP-HPRT-F-Neo-F3 DNA was electroporated into ES cells, and transfected cells were screened by being cultured in medium containing 200 micrograms/mL G418 and 2 micrograms/mL 6-GT. Twenty-four double drug resistant clones were picked up and analyzed, among them, two clones were proved to have taken place the required recombination by PCR and southern blotting analysis.
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PMID:[Construction of a Flp "exchange cassette" contained vector and gene targeting in mouse ES cell]. 1179 23

Exchange plasmid pF-HPRT-F3 and Flp expression plasmid pCMV-Flp were constructed and then introduced using electroporation system into F18 ES cell line, which have an exchange cassette F-Neo-F3 at HPRT locus. After HAT selection, HAT resistant clones were obtained. Then G418 sensitivity test and Southern blotting were carried out to screen RMCE recombinants. The results indicated that RMCE had taken place in three of 12 HAT resistant clones. The frequency is 25%. The result demonstrates that it is realizable to introduce transgene to HPRT locus by using Flp recombinase mediated cassette exchange reaction.
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PMID:[The study of a HPRT locus-specific transgenic method based on FLP recombinase mediated cassette exchange]. 1254 6

Mouse embryonic stem (ES) cells easily differentiate towards the cardiac lineage making them suitable as an in vitro model to study cardiogenesis and as a potential source of transplantable cells. In this study, we show by in situ hybridisation that about 30% of the volume of cultures of differentiating ES cells consists of cardiomyocytes. RT-PCR analyses showed that the transcription factors Nkx2.5, Gata4, Mef2c and Irx4 were expressed at levels in the same order of magnitude as the levels observed in embryonic, neonatal and adult hearts. Atrial natriuretic factor and Connexin 40, associated with chamber formation in vivo, are expressed at relatively low levels, similar to those observed at early heart development in vivo. To facilitate the isolation of ES cell-derived cardiomyocytes, a cell line was constructed by stable transfection of the aminoglycoside phosphotransferase cDNA driven by the cardiac-specific distant upstream part of the Na(+)/Ca(2+) exchanger promoter. To accomplish single-copy integration, the construct was inserted into the hypoxanthine phosphoribosyltransferase locus of HM1 ES cells by homologous recombination. Cardiac-specific resistance to G418-sulphate (neomycin) allowed isolation of a pure population of cardiomyocytes. Genetically selected and unselected cell populations were characterised electrophysiologically using patch clamp. To explore whether clusters of cells have a similar differentiation profile, action potentials (APs) were measured in aggregates of differentiating ES cells, using a new method based on the voltage-dependent fluorescent dye di-4-ANEPPS. Both whole-cell recordings using patch-clamp and optical measurements with di-4-ANEPPS of the AP showed that upstroke velocity increases and AP duration decreases with differentiation time, accompanied by a decrease in AP interval, suggesting the initiation of the developmental programme underlying the formation of chamber myocardium.
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PMID:Cardiomyocytes purified from differentiated embryonic stem cells exhibit characteristics of early chamber myocardium. 1465 72

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