Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.1.1.37 (DNA methyltransferase)
 4,983 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Changes in the pattern of DNA methylation have been a consistent finding in cancer cells. The mostly descriptive nature of these studies and the fact that both hypo- and hypermethylation have been observed at various loci have made it difficult to assess whether these changes are causally involved in the transformation process or whether they reflect the altered physiology of rapidly dividing cancer cells. It is clear, however, that DNA methylation plays an important role in the generation of mutations in human tumors. The high incidence of C-to-T transitions found in the p53 tumor-suppressor gene is attributed to the spontaneous deamination of 5-methylcytosine residues. The multiple observations linking DNA methylation to cancer can be resolved in a model proposing that the high rate of mutation at CpG dinucleotides is due in part to methyltransferase-facilitated deamination. Support for a role of DNA methyltransferase as a mutator enzyme is provided by work with a prokaryotic DNA methyltransferase under S-adenosyl-methionine methyl-donor limiting conditions. Methyl-donor limiting conditions might arise in early stages of tumor development, leading to high rates of methyltransferase-mediated CpG mutagenesis, as seen in human tumors. Such a mechanism is consistent with the frequently reported methionine auxotrophy of cancer cells and with the tumorigenic effects of methyl-deficient diets. Methyl deficiency in tumor cells is also consistent with the commonly observed global hypomethylation of tumor cell DNA, despite normal or even high levels of DNA methyltransferase expression.
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PMID:DNA methylation and cancer. 784 43

Several studies have suggested that DNA hypomethylation is an early step in colorectal carcinogenesis. However, it is not clear at which stage in carcinogenesis this hypomethylation occurs, what promotes it, the extent to which it can be reversed and the consequences of such reversal in affecting tumour development. In an attempt to address some of these questions, we studied three groups of subjects with similar age and gender distributions: a group of 12 patients with colorectal carcinomas; a group of 12 patients with colorectal adenomas; and a group of eight healthy control subjects. Two experimental protocols were employed. In the first protocol, intrinsic DNA methylation was evaluated in neoplastic and in normal-appearing rectal mucosa of patients with colonic carcinomas or adenomas, compared with a group of healthy controls. In the second protocol, we examined, in a prospective and controlled fashion, the effect of folic acid supplementation (10 mg/day) on the degree of DNA methylation of rectal mucosa from those same patients after removal of the neoplasms. The degree of intrinsic DNA methylation was assessed on the basis of the capacity of the DNA isolates to serve as methyl acceptors in in vitro incubations that contained DNA methylase and [3H-methyl] S-adenosylmethionine. Intrinsic DNA methylation was significantly lower in carcinomas than in adenomas (P < 0.005). In addition, normal-appearing rectal mucosa from patients with carcinomas was significantly less methylated than in healthy controls (P < 0.005); the mean value found in the latter was also greater than the value observed in patients with adenomas, but not significantly so (P > 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
Eur J Cancer Prev 1994 Nov
PMID:DNA methylation as an intermediate biomarker in colorectal cancer: modulation by folic acid supplementation. 785 79

Cytosine methylation within DNA has been implicated in genetic imprinting, X-chromosome inactivation, regulation of tissue-specific gene expression, aging, and cancer. Unfortunately, DNA (cytosine-5)-methyltransferases (EC 2.1.1.37) from various mammalian sources have been difficult to isolate and stabilize, precluding investigations of these critical enzymes. We describe a novel FPLC purification of the 190,000 Mr DNA methyltransferase from mouse Friend erythroleukemia cells. The homogeneous 190 kD Mr form of the enzyme is the only polypeptide detected at various stages of cell growth and has not undergone detectable N-terminal proteolysis.
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PMID:Purification and stabilization of mouse DNA methyltransferase. 786 41

DNA methylation plays an important role in controlling the profile of gene expression of mammalian cells. The hypothesis presented in this article by Moshe Szyf is that DNA methylation patterns are determined by an interplay between the level of DNA methyltransferase and demethylase activities and site-specific signals. The expression of the DNA methyltransferase gene is regulated with the proliferative state of the cell and it is upregulated by cellular oncogenic pathways, resulting in hypermethylation and repression of tumour-suppressing loci. DNA methyltransferase inhibitors would inhibit the excessive activity of DNA methyltransferase in cancer cells and induce the original cellular programme of tumour suppression. They can also be used to turn on alternative programmes of gene expression. Specific DNA methyltransferase antagonists might provide us with therapeutic agents directed at a nodal point of regulation of genetic information.
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PMID:DNA methylation properties: consequences for pharmacology. 794 Sep 85

O6-Methylguanine-DNA methyltransferase (MGMT) in human neoplastic tissues has been associated with tumor resistance to alkylating agents. The purposes of this study are to assay MGMT activity in ovarian cancers and to correlate MGMT titers with chemotherapy response to cisplatin and cyclophosphamide in patients with ovarian cancer. MGMT levels were determined by a biochemical assay of tumor tissues from 20 patients with ovarian malignancy. The clinical stages of the patients studied were 4 in Stage I, 2 in Stage II, 12 in Stage III, and 2 in Stage IV. The mean MGMT activity was 34 +/- 9 fmole methyls transferred/mg protein. Among 13 patients with tumor MGMT levels more than 10 fmole/mg protein, 10 (77%) of them were resistant to postoperative combination chemotherapy. In the remaining 7 patients with low MGMT titer of less than 10 fmole/mg protein, a majority (71%) had a complete response (P < 0.10). These preliminary results indicate that ovarian cancer has detectable MGMT activity, and this activity is possibly correlated with treatment failure to a postoperative cisplatin regimen.
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PMID:O6-methylguanine-DNA methyltransferase in ovarian malignancy and its correlation with postoperative response to chemotherapy. 831 34

This study was undertaken to ascertain the importance of prolonged depletion of O6-methylguanine DNA methyltransferase (MGMT) activity, following O6-benzylguanine (BG) and streptozotocin (STZ) exposure, in reversing 1,3 bis(2-chloroethyl)-1-nitrosourea (BCNU) resistance in vitro. We evaluated BCNU-induced cytotoxicity and measured the temporal recovery of MGMT activity in human colon carcinoma HT-29 cells following treatment with BG, STZ, or the combination of BG and STZ. The pretreatment regimens which provided the greatest potentiation of BCNU cytotoxicity were those exhibiting the greatest temporal inhibition of MGMT activity. The combination of BG (10 microM) and STZ (1.0 mM) produced sustained inhibition of MGMT activity through 24 h and potentiated BCNU cytotoxicity by at least one log greater than either agent alone. Similarly, BG (10-100 microM) produced marked reductions in MGMT activity and increased BCNU cytotoxicity in a dose-dependent fashion. A 100-microM dose of BG inhibited MGMT activity for 48 h and potentiated BCNU induced cell kill by 3 logs greater than BCNU alone. In addition, we observed that during the period of sustained inhibition of MGMT activity, no changes in the steady-state MGMT mRNA levels occurred. We conclude that prolonged inhibition of MGMT activity is an important determinant in reversing BCNU resistance and that chemotherapeutic regimens targeting the inactivation of MGMT activity should be optimized such that MGMT activity is depleted for at least 24 h following BCNU administration.
Cancer Res 1993 Sep 15
PMID:Prolonged depletion of O6-methylguanine DNA methyltransferase activity following exposure to O6-benzylguanine with or without streptozotocin enhances 1,3-bis(2-chloroethyl)-1-nitrosourea sensitivity in vitro. 836 24

The Long-Evans with a cinnamon-like color (LEC) rat is a mutant of the Long-Evans strain that develops hereditary hepatitis and hepatoma with ageing. Age-related changes in the mRNA expression of DNA methyltransferase (DNA MTase) were examined in livers of LEC rats using Long Evans with an agouti color (LEA) rats as controls. A dramatic increase in the expression of this mRNA was observed in LEC rats at 20 weeks when acute hepatitis appeared. Their high mRNA levels were maintained until 52 weeks of age. The mRNA expression as well as DNA MTase activities were found to be higher in cancer lesions than in adjacent normal tissue. These increases may be related to liver regeneration and to early events in cellular transformation of LEC rats.
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PMID:Expression of DNA methyltransferase in LEC rats during hepatocarcinogenesis. 847 22

The chloroethylnitrosourea (CNU) alkylating agents are commonly used for cancer chemotherapy, but their usefulness is limited by severe bone marrow toxicity that causes the cumulative depletion of all hematopoietic lineages (pancytopenia). Bone marrow CNU sensitivity is probably due to the inefficient repair of CNU-induced DNA damage; relative to other tissues, bone marrow cells express extremely low levels of the O6-methylguanine DNA methyltransferase (MGMT) protein that repairs cytotoxic O6-chloroethylguanine DNA lesions. Using a simplified recombinant retroviral vector expressing the human MGMT gene under control of the phosphoglycerate kinase promoter (PGK-MGMT) we increased the capacity of murine bone marrow-derived cells to repair CNU-induced DNA damage. Stable reconstitution of mouse bone marrow with genetically modified, MGMT-expressing hematopoietic stem cells conferred considerable resistance to the cytotoxic effects of 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU), a CNU commonly used for chemotherapy. Bone marrow harvested from mice transplanted with PGK-MGMT-transduced cells showed extensive in vitro BCNU resistance. Moreover, MGMT expression in mouse bone marrow conferred in vivo resistance to BCNU-induced pancytopenia and significantly reduced BCNU-induced mortality due to bone marrow hypoplasia. These data demonstrate that increased DNA alkylation repair in primitive hematopoietic stem cells confers multilineage protection from the myelosuppressive effects of BCNU and suggest a possible approach to protecting cancer patients from CNU chemotherapy-related toxicity.
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PMID:Increasing DNA repair methyltransferase levels via bone marrow stem cell transduction rescues mice from the toxic effects of 1,3-bis(2-chloroethyl)-1-nitrosourea, a chemotherapeutic alkylating agent. 855 5

In neoplastic cells, levels of DNA methyltransferase activity are often increased, and evidence is accruing to suggest an important role for this event in tumorigenesis. To evaluate this possibility further, and to investigate the contribution of increasing de novo, as opposed to maintenance, DNA methylation in mammalian cells, we expressed the bacterial HhaI methyltransferase in cultured murine fibroblasts. This enzyme is a pure de novo DNA methyltransferase that methylates the internal C in the sequence GCGC. We find that both constitutive and induced expression of the wild-type HhaI results, primarily, in lethality to the cells. However, surviving cell clones that express low levels of M. HhaI demonstrate increased tumorigenicity as assessed by soft agar cloning efficiency (8.6% for sense HhaI-transduced PA 317 cells versus 0.4% for antisense controls; 1.7% for sense HhaI-transfected NIH 3T3 cells versus 0% for a mutant HhaI control) and tumorigenicity in nude mouse heterotransplants (75% for sense HhaI-transduced PA 317 cells versus 18.5% for antisense controls). DNA isolated from the clonogenic sense HhaI clones, versus clones expressing the mutant HhaI gene, has no increase in overall CpG methylation but an average of 27% (range, 16.7-38.9) increase in methylcytosine content at GCGC sites. These findings suggest that eukaryotic cells tolerate a narrow window of increase de novo DNA methylating capacity, above which cell death occurs and within cell transformation results. Our results further emphasize the potential role of increased DNA methyltransferase activity in the evolution of cancer.
Cancer Res 1996 Feb 01
PMID:Expression of prokaryotic HhaI DNA methyltransferase is transforming and lethal to NIH 3T3 cells. 856 81

O6-Methylguanine-DNA methyltransferase (MGMT), a constitutively expressed DNA repair protein, removes alkyl groups from the O6-position of guanine in DNA. Tumor cells with high MGMT activity are resistant to nitrosoureas and other agents that form toxic O6-alkyl adducts. O6-Benzylguanine (BG) inactivates the MGMT protein and thereby enhances the sensitivity of tumor cells to alkylating drugs. However, the therapeutic potential of BG is limited by its poor solubility and its nonspecific inactivation of MGMT in normal tissues as well as in tumor tissues. Consequently, BG analogues are being developed to identify agents that have more favorable pharmacological characteristics. We evaluated O6-benzyl-2'-deoxyguanosine (dBG), the 2'-deoxyribonucleoside analogue of BG, for its ability to inhibit MGMT and to potentiate 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU) in a MGMT-positive human brain tumor xenograft, Daoy. When given i.p. 1 h before BCNU (25 mg/m2) to animals bearing s.c. tumors, dBG (134 mg/m2) produced a growth delay of 24.7 days, compared to 21.6 days after treatment with an equimolar dose of BG (90 mg/m2) plus BCNU and -0.6 days after treatment with BCNU alone. The combination of dBG + BCNU also increased the survival of animals bearing intracranial tumors by 65%. By increasing the dose of dBG to 300 mg/m2 (the maximum dose that could be delivered i.p. in a standard treatment volume), the growth delay of s.c. tumors increased from -0.1 days with BCNU alone to 39.3 days. dBG suppressed both tumor and liver MGMT activity to less than 1.5% of baseline, and dBG + BCNU induced extensive perivascular apoptosis. Because dBG is a 10-fold less potent MGMT inhibitor than BG in HT-29 cell extracts, these results illustrate the capacity of BG analogues to potentiate BCNU toxicity, despite less in vitro activity than the parent compound, and emphasize the importance of in vivo evaluation of BG analogues.
Cancer Res 1996 May 01
PMID:Treatment of human brain tumor xenografts with O6-benzyl-2'-deoxyguanosine and BCNU. 861 53


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