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)

Epigenetic alterations of DNA methylation play an important role in the regulation of gene expression associated with chemosensitivity of gastric carcinomas. With the aim of improving the chemotherapeutic efficacy of gastric carcinoma, the effect of DNA methyltransferase inhibitor, 5-aza-CdR, on the chemosensitivity of five anticancer drugs was investigated. Human gastric cancer cell lines, OCUM-2M and MKN-74, and five anticancer drugs, 5-FU, PTX, OXA, SN38, and GEM, were used. In both gastric cancer cell lines, a synergistic antiproliferative effect by a combination of 5-aza-CdR at 5 microM was found in SN38 and GEM. 5-Aza-CdR at 5 microM increased apoptosis induced by SN38 and GEM in both cell lines. 5-Aza-CdR increases the expression of DAPK-2 and DAPK-3, RASSF1, and THBS1 genes in both OCUM-2M and MKN-74 cells, but not that of hMLH1, p16, MGMT, E-cadherin, and p53 genes. These findings suggest that 5-aza-CdR is a promising chemotherapeutical agent for gastric carcinomas, in combination with the anticancer drugs SN38 and GEM, in apoptosis signaling. The upregulation of DAPK-2 and DAPK-3, RASSF1, and THBS1 genes by 5-aza-CdR might be associated with the synergistic effect.
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PMID:Synergic antiproliferative effect of DNA methyltransferase inhibitor in combination with anticancer drugs in gastric carcinoma. 1680 21

O6-methylguanine DNA methyltransferase/O6-alkylguanine DNA alkyltransferase (MGMT/AGT) removes alkyl adducts from the O6-position of guanine in DNA. Expression of MGMT in human cancers has been associated with resistance to therapies using alkylating agents. MGMT promoter methylation regulates its expression and response to alkylating agents. A combination of O6-benzylguanine-based inhibitors of MGMT with alkylating agents improved the efficacy. However, this is associated with enhanced cytotoxicity and the induction of GC to AT transition mutations presumably also in progenitor/stem cells. A few recent studies have described analogs of O6-benzylguanine targeting defined pathways of cancer cells that can be used to improve the selectivity of O6-benzylguanine-based inhibitors for cancer cells. Therefore, MGMT inhibitor targeting represents a reliable strategy for improving cancer therapy with alkylating agents.
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PMID:S-alkylthiolation of O6-methylguanine-DNA-methyltransferase (MGMT) to sensitize cancer cells to anticancer therapy. 1729 93

The cellular response to methylation DNA damage was compared in multipotent CD34(+) hematopoietic stem cells and mature CD34(-) cells isolated from cord blood of the same donor. Cytofluorimetric analysis of freshly isolated cord blood cells indicated that both cell types were in the G0/G1 phase of the cell cycle. Quantitative RT-PCR identified a general trend towards high expression of several DNA repair genes in CD34(+) cells compared to their terminally differentiated CD34(-) counterparts. The overexpressed genes included members of the mismatch repair (MMR) (MSH2, MSH6, MLH1, PMS2), base excision repair (AAG, APEX), DNA damage reversal (O(6)-methylguanine DNA methyltransferase) (MGMT), and DNA double strand breaks repair pathways. These differences in gene expression were not apparent in CD34(+) and CD34(-) cells obtained following expansion of CD34(+) cells in a medium containing early acting cytokines. Early progenitor CD34(+) and early precursor CD34(-) cells form the two populations isolated under these experimental conditions, and both contain a significant proportion of cycling cells. The methylating agent N-methyl-N-nitrosourea (MNU) induced similar levels of apoptosis in these cycling CD34(+) and CD34(-) cells. Cytotoxicity required the presence of the MGMT inhibitor O(6)-benzylguanine and the timing of MNU cell death (48 and 72h) was similar in CD34(+) and CD34(-) cells. These data indicate that cycling CD34(+) and CD34(-) cells are equally sensitive to methylation damage. MGMT provides significant protection against MNU toxicity and MGMT and MMR play the expected roles in the MNU sensitivity of these cells.
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PMID:Methylation damage response in hematopoietic progenitor cells. 1750 95

Tamoxifen, a synthetic triphenyl-ethylene compound, is a member of a class of anticancer drugs known as selective estrogen receptor modulators. It may block tumor growth by mimicking estrogen and binding to the estrogen receptors, preventing cancerous growth. Clinical studies have demonstrated that a combination chemo/hormonal therapy regimen with tamoxifen and O(6)-alkylating drugs increased the tumor response rate in cancer patients. The mechanism of action of this combined regimen remains undefined. In this study, we demonstrated that treatment of human colorectal HT-29 carcinoma cells with tamoxifen decreased the repair activity and expression level of O(6)-methylguanine DNA methyltransferase (MGMT) protein in a concentration- and time-dependent manner. This inhibition was also shown in other malignant human cells, regardless of their estrogen receptor status. Furthermore, MGMT inactivation by tamoxifen was associated with a significantly increased susceptibility of cells to 1,3-bis(2-chloroethyl)-1-nitrosourea (BCNU). No alteration in MGMT mRNA levels was observed in tamoxifen-treated cells. The half-life of MGMT protein was markedly decreased in the presence of tamoxifen. Tamoxifen-induced MGMT degradation could be blocked by MG-132, a proteasome inhibitor. An increased level of ubiquitinated MGMT protein was found after tamoxifen treatment. We conclude that tamoxifen decreased the MGMT protein level by accelerating protein degradation through the ubiquitin-dependent proteasomal pathway. These findings provide a strong rationale for combined chemo/hormonal therapy with tamoxifen and BCNU in the treatment of human cancers.
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PMID:Tamoxifen accelerates proteasomal degradation of O6-methylguanine DNA methyltransferase in human cancer cells. 1759 6

Hypermethylation of the DNA repair gene O(6)-methyl-guanine DNA methyltransferase (MGMT) has been linked to prolonged survival in glioblastoma patients treated with alkylating agents. It was aimed to analyze prospectively whether the MGMT status of malignant gliomas could be determined from small-sized stereotactic biopsies (maximum volume: 1 mm(3)). Special attention was directed towards the intratumoral distribution of the MGMT promoter methylation, the MGMT protein expression and potential correlations between both. Twenty-five adult patients were included (20 patients with primary World Health Organisation (WHO) Grade III or IV malignant gliomas, 5 patients with secondary malignant gliomas). About 2-4 biopsy specimens per tumor were collected from different sites within the tumor. Promoter methylation of the MGMT gene was assessed by methylation-specific PCR (MSP) and sodium bisulfite sequencing in each of the collected specimens (overall number of specimens: 69). Both methods were validated for application in small-sized tissue samples (1 mm(3)). The MGMT protein expression was analyzed by immunohistochemistry. The overall MGMT promoter methylation rate was 30% in the de novo group and 80% in the tumor progression group. The success rates of MSP and sequencing were 100% and 80%, respectively. Sequence analysis and MSP exhibited 100% concordant findings. No differences in MGMT promoter methylation were detected between the different samples of each individual tumor in 24 of 25 patients. One false negative result was obtained due to the contamination of the biopsy specimen by necrotic tissue. Tissue samples taken from different sites of each individual tumor (13 tumors investigated) exhibited equal or highly similar MGMT protein expression. No correlation between MGMT protein expression and MGMT promoter methylation was observed. The MGMT promoter methylation status of malignant gliomas can be reliably determined from small-sized stereotactic biopsies. The methylation profile, as defined by MSP and sodium bisulfite sequencing, constitutes a homogeneous marker throughout malignant gliomas. The lack of correlation between MGMT status and MGMT protein expression needs further evaluation.
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PMID:Intratumoral homogeneity of MGMT promoter hypermethylation as demonstrated in serial stereotactic specimens from anaplastic astrocytomas and glioblastomas. 1769 Nov 13

5-Aza-2'-deoxycytidine (5azadC) inhibits DNA methyltransferase and subsequently induces the expression of genes silenced by methylation. While treatment with 5azadC downregulated hTERT and upregulated MGMT expression in two glioma cell lines, there was no change in the expression of these two genes in the normal cell line. However, cell viability was reduced as a result of 5azadC treatment in all three cell lines. 5azadC treatment reduced telomerase expression and activity and subsequently enhanced chemosensitivity towards cisplatin, taxol and tamoxifen but not with the alkylating agents temozolomide (TMZ), carmustine and chlorambucil. To further evaluate the effect of these findings, the level of hTERT and MGMT expression was measured in a recurrent anaplastic ependymoma, seven glioblastoma and two normal brain tissues. While four of eight gliomas and one of the normal tissues expressed MGMT, hTERT was expressed in all gliomas but not in the normal brain tissue. Results of this study suggest that taxol together with 5azadC may be a good therapeutic combination for glioma. In addition, the work on cell lines can be repeated on tissues utilizing hTERT as the therapeutic target for demethylation using 5azadC in glioma.
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PMID:Epigenetic silencing of telomerase and a non-alkylating agent as a novel therapeutic approach for glioma. 1802 53

One barrier to successful treatment of malignant glioma is resistance to alkylating agents such as temozolomide. The cytotoxic activity of temozolomide and other alkylating agents is believed to manifest largely by the formation of O(6)-methylguanine DNA adducts. Consequently, the primary mechanism of resistance to temozolomide is a function of the activity of the DNA repair enzyme O(6)-methylguanine DNA methyltransferase (MGMT). Fortuitously, MGMT is inactivated after each reaction (i.e., suicide enzyme). Therefore, if the rate of DNA alkylation were to outpace the rate of MGMT protein synthesis, the enzyme could, in theory, be depleted. Several studies have shown that prolonged exposure to temozolomide can deplete MGMT activity in blood cells, a process that could potentially increase the antitumor activity of the drug. To date, however, there are limited data demonstrating the depletion of MGMT activity in tumor tissue exposed to temozolomide. A variety of dosing schedules that increase the duration of exposure and the cumulative dose of temozolomide are currently being investigated for the treatment of glioma, with the goal of improving antitumor activity and overcoming resistance. These alternative dosing regimens have been shown to deplete MGMT activity in peripheral blood mononuclear cells, but the regimen that provides the best balance between enhanced antitumor activity and acceptable hematologic toxicity has yet to be determined.
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PMID:New (alternative) temozolomide regimens for the treatment of glioma. 1877 54

Previously, we demonstrated that demethylation with 5-Aza-2'-deoxycytidine (5azadC) resulted in reduced levels of telomerase that led to telomere shortening, enhanced MGMT expression and enhanced chemosensitivity. Although the results were encouraging, the fact that 5azadC is highly toxic and nonspecific, thus is not favored as a therapeutic molecule. The aim of this research is to downregulate the DNA methyltransferase (DNMT1) gene using three sets of double-stranded RNA oligos designed to align different regions of DNMT1 sequence. Results showed the small-interfering RNA (siRNA) 1 and 3 demonstrated significant levels of silencing DNMT1 and hTERT transcription after 24-hour treatment (p = 0.01) and approximately 90% and 70% transcriptional downregulation of DNMT1 and hTERT, respectively after 48 hours. However, siRNA 2 downregulated DNMT1, hTERT, and MGMT in GOS-3 and U87-MG cells that was attributed to sequence homology between oligo 2 and MGMT complementary DNA. The siRNA-treated glioma cell lines GOS-3 and U87-MG were subjected to two chemotherapeutic agents; taxol and Temozolomide (TMZ). Results suggest that either a combination of siRNA 1 or 3 followed by taxol (2-6 muM) after 48 hours or a combination of siRNA 1 or 3 followed by TMZ (600-1000 microM) after 24 hours would be novel and effective glioma therapies.
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PMID:Silencing DNA methyltransferase (DNMT) enhances glioma chemosensitivity. 1892 31

The authors review the current literature on the major biological advances in the molecular testing of brain tumors. The incorporation of several new aspects required for proper disease management into traditional pathology service is the focus of this review. One of the important achievements of the last years in neuro-oncology is the observation that the promoter methylation status of the MGMT (O6-methylguanine DNA methyltransferase) gene determines the treatment efficacy of temozolomide (Temodal) in glioblastomas. This can best be evaluated by methylation-specific PCR (MSP) using tumor tissue obtained for histological evaluation. Furthermore, up-regulation of EGFR signaling through gene amplification has been recognized and targeted by anti-EGFR approaches in high-grade gliomas. The EGFRvIII mutant receptor is practically unique to glioma cells hence analysis of EGFR seems to be justifiably demanded either by oncologists or patients. Immunohistochemistry (IHC) can easily be included in routine laboratory workflow. In addition to this FISH analysis can be performed for the assessment of EGFR gene copy numbers at cellular level. Studying the EGFR status at a genetic and simultaneously at the protein expression level seems to be a valid approach for making treatment decision. Similarly complex and even less clear biological background characterizes the behavior of tumors with oligodendroglial differentiation. The deletion of the chromosomal regions 1p and 19q was found to be associated with favorable outcome and good response to the PCV treatment protocol. Therapeutic decisions are therefore also enabled on the basis of the 1p/19q status. Concurrent temozolomide/radiation therapy is often indicated on the basis of 1p/19q testing. The 1p/19q status can be assessed by FISH or, less frequently, by aCGH or LOH assay. Based on the in-depth overview of the literature the authors highly recommend the adaptation of molecular glioma testing that most efficiently could be done in centralized neuropathology laboratories. This approach would comply with the increasing need for personalized ("tailored") therapy while best satisfying cost/benefit issues.
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PMID:[Predictive molecular pathological testing in the diagnosis of high-grade tumors of glial origin]. 1931 24

Testicular germ cell tumors (TGCT) are the most common solid tumors of 15- to 35-year-old men. TGCT patients are frequently cured with cytotoxic cisplatin-based therapy. However, TGCT patients refractory to cisplatin-based chemotherapy have a poor prognosis, as do those having a late relapse. Pluripotent embryonal carcinomas (EC) are the malignant counterparts to embryonic stem cells and are considered the stem cells of TGCTs. Here, we show that human EC cells are highly sensitive to 5-aza-deoxycytidine (5-aza-CdR) compared with somatic solid tumor cells. Decreased proliferation and survival with low nanomolar concentrations of 5-aza-CdR is associated with ATM activation, H2AX phosphorylation, increased expression of p21, and the induction of genes known to be methylated in TGCTs (MGMT, RASSF1A, and HOXA9). Notably, 5-aza-CdR hypersensitivity is associated with markedly abundant expression of the pluripotency-associated DNA methyltransferase 3B (DNMT3B) compared with somatic tumor cells. Knockdown of DNMT3B in EC cells results in substantial resistance to 5-aza-CdR, strongly indicating that 5-aza-CdR sensitivity is mechanistically linked to high levels of DNMT3B. Intriguingly, cisplatin-resistant EC cells retain an exquisite sensitivity to low-dose 5-aza-CdR treatment, and pretreatment of 5-aza-CdR resensitizes these cells to cisplatin-mediated toxicity. This resensitization is also partially dependent on high DNMT3B levels. These novel findings indicate that high expression of DNMT3B, a likely byproduct of their pluripotency and germ cell origin, sensitizes TGCT-derived EC cells to low-dose 5-aza-CdR treatment.
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PMID:High DNA methyltransferase 3B expression mediates 5-aza-deoxycytidine hypersensitivity in testicular germ cell tumors. 1995 90

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