UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of dietary selenium deficiency and excess on N-nitrosomethylbenzylamine-(NMBA) induced esophageal neoplasia in rats and forestomach tumors in mice and the effects of dietary selenium on DNA adduct formation and on the activities of DNA adduct-repairing enzyme and oncogene expression in rat esophagus were investigated. The esophageal and forestomach tumors were induced by administration of NMBA by gavage with a total dose of 39 mg/kg body wt in rats and 12 mg/kg body wt in mice. Neither selenium dietary deficiency (Se < 0.02 ppm) nor selenium excess (2.0 ppm) showed any significant effect on the incidence of tumors or number of tumors per tumor-bearing animal. For the DNA adduct formation studies, rats were given a dose of NMBA intraperitoneally after six weeks on the different selenium-containing diets. No significant difference in the amount of the DNA adduct O6-methyldeoxyguanosine was found among the different selenium-treated groups. In a parallel group of rats that did not receive NMBA, the levels of esophageal O6-methyldeoxyguanosine DNA methyltransferase were not significantly altered by dietary selenium levels. The c-myc oncogene expression in rat esophagus was induced by the administration of NMBA (3 mg/kg body wt) by gavage once a week for eight weeks. Dietary selenium did not show any effects on its expression. On the basis of the results of these studies, dietary selenium has no effects in the NMBA-induced tumor model.
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PMID:Lack of effects of selenium on N-nitrosomethylbenzylamine-induced tumorigenesis, DNA methylation, and oncogene expression in rats and mice. 129 2

O6-Methylguanine-DNA methyltransferase plays an important role in preventing tumor induction. To elucidate the significance of a highly conserved amino acid sequence of methyltransferase protein, amino acid substitutions were introduced by site-directed mutagenesis of cloned cDNA for human methyltransferase and the activity and stability of mutant forms of enzyme were examined. When cysteine-145, to which the methyl transfer occurs, was replaced by other amino acids, all of the mutants isolated showed the methyltransferase-negative phenotype. From one of the negative mutants, methyltransferase-positive revertants were isolated, all of which carried codons for cysteine. Thus the cysteine residue is essential for acceptance of the methyl group and cannot be replaced by other amino acids. Using this negative and positive selection procedure, analyses were extended to other residues near the acceptor site. At the histidine-146 site, four substitutions (phenylalanine, methionine, asparagine and glutamine) exhibited the positive phenotype but the levels of methyltransferase activity in these mutants were low. With valine-148 substitutions there were six types of positive revertants, among which mutants carrying isoleucine, cysteine and alanine showed significantly high levels of methyltransferase activity. Some mutant forms of cDNA were expressed in methyltransferase-deficient human cells, and the results obtained with Escherichia coli cells were confirmed.
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PMID:Specific amino acid sequences required for O6-methylguanine-DNA methyltransferase activity: analyses of three residues at or near the methyl acceptor site. 158 96

To assess the role of DNA cytosine methylation in the expression of the O-6-methylguanine DNA methyltransferase (MGMT) gene, the methylation status of selected CpG-containing dinucleotides in and surrounding the coding regions of the gene were examined and correlated with steady state expression of MGMT mRNA in 13 human cell lines. Additionally, tumor cells which exhibited very high levels of MGMT expression were chronically exposed to 5-azacytidine to assess the effects of changes in gene methylation on MGMT expression. Results of these studies demonstrate that the degree of methylation of multiple MGMT gene regions correlates with gene expression, but in a direct rather than an inverse fashion, and that 5-azacytidine-induced demethylation of the MGMT gene correlates with a significant reduction, rather than induction, of MGMT steady-state mRNA expression. These results suggest a unique, potentially alterable methylation-related regulatory mechanism for the MGMT gene.
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PMID:Direct correlation between methylation status and expression of the human O-6-methylguanine DNA methyltransferase gene. 171 39

We initiated this study to determine whether three structurally related bifunctional alkylating agents could induce the expression of a presumptive human DNA repair gene. The gene chosen for this study is known to encode the ribosomal phosphoprotein PO, but ironically may also share functions related to DNA repair. We now show by Northern analysis that PO is induced by L-phenylalanine mustard, 4-hydroperoxycyclophosphamide and mechlorethamine, which are DNA-damaging agents commonly used as chemotherapeutic antitumor agents. In further support of its involvement in DNA repair is the finding of a 30- to 50-fold constitutive overexpression of the PO gene in human tumor cell lines that are Mer-, cells which lack O6-methylguanine methyltransferase activity, when compared to Mer+ cell lines. This constitutively elevated level of PO in Mer- cell lines, which are thus DNA repair defective for O6-alkyguanine lesions, was not observed for other genes tested, including the human ribosomal gene S17 whose mRNA steady-state levels were uniformly the same in both Mer- and Mer+ cells. Taking these data together, it appears that increased levels of PO are somehow linked to DNA repair, and increased expression of PO may compensate for the decreased O6-methylguanine DNA methyltransferase activity in Mer- cells. Furthermore, the PO gene has also been shown to be overexpressed in colorectal tumors and polyps and the sera of some systemic lupus erythematosus patients contain antibodies against PO. The titer of the anti-PO antibodies rises significantly during lupus psychosis.
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PMID:Expression of ribosomal phosphoprotein PO is induced by antitumor agents and increased in Mer- human tumor cell lines. 174 17

The marginal level of clinical responses to the Chloroethylnitrosoureas (CENU, i.e. BCNU, CCNU, MeCCNU) suggests that there may exist an innate mechanism of resistance in tumors to these chemotherapeutic agents. A decade of research from many laboratories around the world has led to the identification of the mechanisms for tumor cell resistance to the CENU. The ability to prevent the formation of DNA interstrand crosslinks, thought to be the critical lethal lesion induced by these agents, is accomplished in a majority of human tumors by the unique DNA repair protein O-6 methylguanine DNA methyltransferase (MGMT). This review addresses the identification of this mechanism of resistance to therapy, and chemotherapeutic strategies to inhibit this DNA repair system, in an attempt to sensitize resistant tumors to the CENU.
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PMID:The role of O-6 methylguanine DNA methyltransferase (MGMT) in drug resistance and strategies for its inhibition. 183 90

DNA methylation abnormalities occur consistently in human neoplasia including widespread hypomethylation and more recently recognized local increases in DNA methylation that hold potential for gene inactivation events. To study this imbalance further, we have cloned and localized to chromosome 19 a portion of the human DNA methyltransferase gene that codes for the enzyme catalyzing DNA methylation. Expression of this gene is low in normal human cells, significantly increased (30- to 50-fold by PCR analysis) in virally transformed cells, and strikingly elevated in human cancer cells (several hundredfold). In comparison to colon mucosa from patients without neoplasia, median levels of DNA methyltransferase transcripts are 15-fold increased in histologically normal mucosa from patients with cancers or the benign polyps that can precede cancers, 60-fold increased in the premalignant polyps, and greater than 200-fold increased in the cancers. Thus, increases in DNA methyltransferase gene expression precede development of colonic neoplasia and continue during progression of colonic neoplasms. These increases may play a role in the genetic instability of cancer and mark early events in cell transformation.
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PMID:High expression of the DNA methyltransferase gene characterizes human neoplastic cells and progression stages of colon cancer. 201 66

O-6-Alkylguanine is a mutagenic and carcinogenic DNA lesion induced by a variety of alkylating agents, including the chloroethylnitrosoureas. The lesion is repaired by the alkyl-accepting suicide enzyme O-6-methylguanine DNA methyltransferase (MGMT). Approximately 25% of cell lines derived from human tumors are phenotypically deficient in this enzyme and are described as Mer-. Recent cloning of the human MGMT cDNA (Tano, K.; Shiota, S.; Collier, J.; Foote, R.S.; Mitra, S. Proc. Natl. Acad. Sci. USA 87:686-690; 1990) has allowed for a more detailed analysis of the basis of the Mer- phenotype in human Mer- tumor cell lines. Using the polymerase chain reaction (PCR) technique, an MGMT cDNA probe based on the published sequence was generated. The probe and the PCR technique were then used to analyze the presence and expression of the MGMT gene in two Mer+ and four Mer- lines, including one SV40-transformed Mer- line and three Mer- human tumor cell lines. The data demonstrate that while all six cell lines contained a relatively nonamplified, nonrearranged MGMT gene, Mer- lines contained levels of MGMT mRNA detectable only by PCR analysis. Of the three Mer- tumor cell lines examined, two (COLO 320 HSR, A1235) contained MGMT mRNA levels that were four to five orders of magnitude lower than that of the prototype Mer+ tumor line (HT-29), while one (BE) contained no consistently detectable MGMT mRNA. These results suggest that in the human Mer- tumor lines tested, the Mer- phenotype was mediated by a severe reduction in MGMT mRNA levels, despite the presence of the MGMT gene.
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PMID:Comparison of O-6-methylguanine DNA methyltransferase (MGMT) mRNA levels in Mer+ and Mer- human tumor cell lines containing the MGMT gene by the polymerase chain reaction technique. 236 49

O6-Methylguanine-DNA methyltransferase (MGMT; DNA-O6-methylguanine:protein-L-cysteine S-methyltransferase, EC 2.1.1.63), a unique DNA repair protein present in most organisms, removes the carcinogenic and mutagenic adduct O6-alkylguanine from DNA by stoichiometrically accepting the alkyl group on a cysteine residue in a suicide reaction. The mammalian protein is highly regulated in both somatic and germ-line cells. In addition, the toxicity of certain alkylating drugs in tumor and normal cells is inversely related to the levels of this protein. The cDNA of the human gene, henceforth named MGMT, has been cloned in an expression vector on the basis of its rescue of a methyltransferase-deficient (ada-) Escherichia coli host. A 22-kDa active methyltransferase encoded entirely by the cDNA contains an amino acid sequence of 61 residues that bears 60-65% similarity with segments of E. coli methyltransferase (products of the ada and ogt genes), which encompass the alkyl-acceptor residues. The human cDNA has no sequence similarity with the ada and ogt genes, due in part to differences in codon usage, and shows no detectable homology with E. coli genomic DNA. However, it hybridizes with distinct restriction fragments of human, mouse, and rat DNAs. The lack of methyltransferase observed in many human cell lines is due to the absence of the MGMT gene or to lack of synthesis and/or stability of its 0.95-kilobase poly(A)+ RNA transcript.
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PMID:Isolation and structural characterization of a cDNA clone encoding the human DNA repair protein for O6-alkylguanine. 240 87

Azacitidine is a pyrimidine ring analog of cytidine that is incorporated into RNA causing alteration in RNA synthesis and processing and resulting in inhibition of protein synthesis. Azacitidine as the deoxynucleotide is also incorporated into DNA inhibiting its synthesis and blocking cytosine methylation by noncompetitive inhibition of DNA methyltransferase. The resulting hypomethylation of DNA is thought to induce gene activation and expression and cell differentiation. This may be an underlying factor in azacitidine's antileukemic activity and also contributes to its carcinogenic and tumor-promoting properties in experimental models.
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PMID:Biochemistry of azacitidine: a review. 244 43

Activity of DNA methylase and DNA methylation level were measured from normal mouse liver, mouse liver charged with H22a ascitic hepatoma and H22a ascitic hepatoma cell by measuring incorporation of H3-methyl. S-Adenosyl-3H-methyl-methionine (3H-SAM) was used as methyl donor. DNA methylation level of different cells were measured by HP-LC. DNA methylase activity and DNA methylation level of H22a ascitic hepatoma, mouse liver charged with H22a ascitic hepatoma are lower than normal mouse liver. Treatments of antitumor drugs lead to a rising of DNA methylase activity of tumor cell, however, the DNA methylation level of tumor cell has not rised after such treatments.
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PMID:[Studies on DNA methylation in transformed mouse liver cells]. 262 95

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