EC:2.1.1.37 - FACTA Search

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

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

Our previous studies have indicated that O6-methyl-guanine-DNA methyltransferase (MGMT) is a key factor determining tumor cellular resistance to 1-(4-amino-2-methyl-5-pyrimidinyl) methyl-3-(2-chloroethyl)-3-nitrosourea (ACNU). This study describes the modulation of MGMT-mediated ACNU resistance by O6-benzylguanine pretreatment. The ACNU sensitivity of MGMT proficient human tumor HeLa S3, SMMC-7721, and Cc801 cells in tissue culture was markly enhanced by 10 mm O6-benzylguanine, and a correlation between the extent of enhancement and the level of MGMT activities was observed. A single i.p. injection of 100 mg/kg of O6-benzylguanine caused a complete inhibition of MGMT activities in HeLa S3 tumor xenografts and combination of O6-benzylguanine with ACNU (7.5 mg/kg) significantly inhibited HeLa S3 tumor growth. The results demonstrated that O6-benzylguanine could be used as a potential adjuvant in combination chemotherapy with ACNU to treat MGMT proficient tumors.
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PMID:Modulation of O6-methylguanine-DNA methyltransferase-mediated 1-(4-amino-2-methyl-5-pyrimidinyl) methyl-3-(2-chloroethyl)-3-nitrosourea resistance by O6-benzylguanine in vitro and in vivo. 831 15

O6-Methylguanine DNA methyltransferase (MGMT; EC 2.1.1.63) is an unusual DNA repair protein in that it directly and specifically repairs a premutagenic DNA lesion without involving other proteins. MGMT removes the alkyl group from O6-alkylguanine in DNA in a unique stoichiometric reaction by accepting the alkyl group on a cysteine residue. The intracellular level of MGMT varies among tissues and appears to be inversely correlated to tissue-specific tumorigenesis induced by monofunctional alkylating agents. Because MGMT acts in solo, genetic manipulation of its expression may provide valuable insight into its contribution to cellular resistance to alkylation toxicity and to tumor induction. The human MGMT full length cDNA has been fused with a portion of the human transferrin (TF) 5'-flanking region (TF/MGMT). Transgenic founder mice were produced carrying the TF/MGMT transgene and then bred to establish stable transgenic lines. Human MGMT transcripts were specifically expressed in abundance in transgenic brain and liver tissues. In vitro MGMT assays revealed approximately 150-fold and approximately 25-fold increases in MGMT activity in transgenic brain and liver extracts respectively. Western blot analysis confirmed that human MGMT protein is specifically synthesized in transgenic brain and liver tissues.
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PMID:Brain and liver targeted overexpression of O6-methylguanine DNA methyltransferase in transgenic mice. 835 38

O6-Methylguanine-DNA methyltransferase (MGMT) is strongly involved in drug resistance mechanism of tumor cells to chloroethylnitrosoureas (CENUs), because it removes and repairs CENU-induced O6-alkylguanine-DNA by accepting the alkyl group at a cysteine moiety. MGMT activity and MGMT mRNA expression are good indicators for detection of sensitive cells or resistant cells to CENUs. In the present study, we applied a non-radioactive reverse transcription-polymerase chain reaction (RT-PCR) method on quantitative measurement of MGMT mRNA expression. Estimated levels of MGMT mRNA expression determined by this RT-PCR method were consistent with the actual doses of MGMT mRNA. This relationship was noted at a wide range from 10 fg to 10 pg. The relative expression levels of MGMT mRNA estimated from kinetic analysis correlated well with MGMT activity determined using 3H-methyl-nitrosourea-treated DNA substrate in brain tumor cells (P<0.001 with a correlation coefficient of 0.997). The RT-PCR method facilitated quantitative measurements in even a small amount of biopsy specimens obtained by stereotactic brain surgery.
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PMID:Quantification of O6-methylguanine-DNA methyltransferase mRNA in human brain tumors. 860 18

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.
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PMID:Treatment of human brain tumor xenografts with O6-benzyl-2'-deoxyguanosine and BCNU. 861 53

Epigenetic alterations in the genome of tumor cells have attracted considerable attention since the discovery of widespread alterations in DNA methylation of colorectal cancers over 10 years ago. However, the mechanism of these changes has remained obscure. el-Deiry and coworkers [el-Deiry, W. S., Nelkin, B. D., Celano, P., Yen, R. C., Falco, J. P., Hamilton, S. R. & Baylin, S. B. (1991) Proc. Natl. Acad. Sci. USA 88, 3470-3474], using a quantitative reverse transcription-PCR assay, reported 15-fold increased expression of DNA methyltransferase (MTase) in colon cancer, compared with matched normal colon mucosa, and a 200-fold increase in MTase mRNA levels compared with mucosa of unaffected patients. These authors suggested that increases in MTase mRNA levels play a direct pathogenetic role in colon carcinogenesis. To test this hypothesis, we developed a sensitive quantitative RNase protection assay of MTase, linear over three orders of magnitude. Using this assay on 12 colorectal carcinomas and matched normal mucosal specimens, we observed a 1.8- to 2.5-fold increase in MTase mRNA levels in colon carcinoma compared with levels in normal mucosa from the same patients. There was no significant difference between the normal mucosa of affected and unaffected patients. Furthermore, when the assay was normalized to histone H4 expression, a measure of S-phase-specific expression, the moderate increase in tumor MTase mRNA levels was no longer observed. These data are in contrast to the previously reported results, and they indicate that changes in MTase mRNA levels in colon cancer are nonspecific and compatible with other markers of cell proliferation.
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PMID:Limited up-regulation of DNA methyltransferase in human colon cancer reflecting increased cell proliferation. 881 6

Alterations of DNA methylation were investigated in 6 urothelial carcinoma cell lines and 13 tumor tissues. The methylation of L1 LINE sequences was diminished in all cell lines (by 26 +/- 5%; range, 11-49%) and in most tumors (by 21 +/- 5%; range, 0-60%) compared to normal bladder mucosa. Hypermethylation of the calcitonin gene CpG island was restricted to cell lines and was not found in primary tumors, suggesting it had arisen during culture. In single-cell clones of a urothelial carcinoma cell line, both hypomethylation of L1 sequences and hypermethylation of the calcitonin gene persisted, indicating that they coexist within one cell. DNA methyltransferase expression did not correlate with the methylation status of the cell lines, but rather with histone H3 expression. Accordingly, it was down-regulated in quiescent cells. Aberrant expression of DNA methyltransferase is therefore not likely the cause for altered methylation patterns in urothelial carcinoma. L1 LINE hypomethylation seems to prevail in urothelial carcinoma and in this tumor might be useful for diagnostic or prognostic purposes.
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PMID:Hypomethylation of L1 LINE sequences prevailing in human urothelial carcinoma. 897 Nov 78

To determine whether loss of imprinting in cancer might be reversed by altering DNA methylation, we treated tumor cells with 5-aza-2'-deoxycytidine, a specific inhibitor of cytosine DNA methyltransferase. Treated cells showed several significant and reproducible changes. (a) Equal expression of maternal and paternal alleles of insulin-like growth factor 2 switched to predominant expression of a single parental allele. (b) H19 expression was reactivated. (c) Biallelic H19 expression switched to monoallelic expression. (d) Biallelic methylation of H19 switched to preferential allelic methylation. These results imply that abnormally imprinted cells are susceptible to epigenetic modification and that the effect of 5-aza-2'-deoxycytidine on tumor cells with loss of imprinting is not random but specific to one allele.
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PMID:Reversal of loss of imprinting in tumor cells by 5-aza-2'-deoxycytidine. 898 39

Cytosine methylation is an important mechanism of gene regulation in mammals. Mouse embryos with reduced DNA methylation due to targeted disruption of the DNA methyltransferase gene show deregulated expression of imprinted genes. Loss of imprinting associated with loss of allele-specific methylation is one example of an epigenetic alteration found in tumor cells. Changes in DNA methylation may also be associated with facilitating protooncogene expression and inactivating tumor suppressor genes. However, cytosine methylation has additional deleterious consequences for the genome as well. CpG dinucleotides, the target of DNA methylation, are five-fold underpresented in the genome due to the high mutability of methylated cytosine. C-T transition mutations resulting from deamination of 5-methylcytosine are involved in both genetic disease and cancer. Lastly, aberrant DNA methylation may promote the genetic instability of a chromosomal locus. We review the genetic and epigenetic roles for DNA methylation during tumorigenesis gleaned from altered methycytosine patterns in tumor cells, and from pharmacologic, dietary or genetic manipulation of DNA methylation levels.
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PMID:Experimental manipulation of genomic methylation. 911 Apr 3

O6-Methylguanine-DNA methyltransferase (MGMT), an enzyme that repairs adducts at O6 of guanine in DNA, is a major determinant of susceptibility to simple methylating carcinogens or of tumor response to anticancer chloroethylating drugs. To investigate the mechanisms underlying cellular expression of this DNA repair enzyme, we focused on the role of a 59-bp enhancer of the human MGMT gene in the regulation of its expression. By using chloramphenicol acetyltransferase reporter assays, we found that the enhancer activity, which was present in both MGMT-expressing (Mer+) and -deficient (Mer-) cells, correlated with the endogenous MGMT activity in Mer+ cell lines. Band-shift assays and deletion analysis of the 59-bp sequence defined a minimal 9-mer cis element (5'-CTGGGTCGC-3') for specific trans factor binding. The MGMT enhancer binding protein (MEBP), 45 kDa by Southwestern blot analysis, was present in the nuclei of all Mer+ cells tested but was apparently restricted to the cytoplasm of Mer- cells. We conclude that the MEBP-enhancer interaction plays an important role in regulating constitutive MGMT expression in Mer+ cells and that MEBP exclusion from the nucleus may account for the down-regulation of MGMT in Mer- cells.
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PMID:Cytoplasmic sequestration of an O6-methylguanine-DNA methyltransferase enhancer binding protein in DNA repair-deficient human cells. 911 92

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