Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0476089 (endometrial cancer)
11,379 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies showed that progesterone receptor (PR), one of the hormone receptor superfamily, was only connected with the sex-correlated cancers such as breast cancer, endometrial cancer, prostate cancer, etc. This article deals with the PR gene in leukemia. We investigated the methylation status and the expression of the two different PR isoforms, PRA and PRB, in three leukemia cancer cell lines using methylation-specific polymerase chain reaction (MSP-PCR) and reverse transcription-PCR. The correlation of PR methylation and expression together with DNA methyltransferase (DNMT1) was further studied. We found that DNMT1 is required to maintain CpG methylation and aberrant gene silencing of PR gene in human leukemia cancer cells. The activity of 5-aza-2'-deoxycytidine in demethylation and gene reactivation may be through depleting cellular DNMT1 levels. In addition, extensive methylation of PRA and PRB was also observed in leukemia samples. Our results suggest that PR CpG island aberrant hypermethylation could be one molecular and genetic alteration in leukemia.
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PMID:Progesterone receptor gene inactivation and CpG island hypermethylation in human leukemia cancer cells. 1517 46

It is well known that the histone deacetylase (HDAC) inhibitor trichostatin A (TSA) acts synergistically with the DNA methyltransferase (DNMT) inhibitor 5-aza-2'-deoxycytidine (ADC) to reactivate DNA methylation-silenced genes. Moreover, in several studies, TSA was capable of inducing DNA demethylation even in the absence of ADC. Here we describe a mechanism by which HDAC inhibitors affect DNA methylation through their regulation on DNMT3B, a methyltransferase responsible for de novo DNA methylation. Using quantitative real-time PCR and Western blot analysis, we show that TSA down-regulates DNMT3B mRNA and protein expression in human endometrial cancer cells. This decrease in DNMT3B mRNA results in a significant reduction in de novo methylation activities. Further experiments indicated that TSA decreases DNMT3B mRNA stability and reduces its half-life from approximately 4 to 2.5 hours. We established that protein synthesis is required for posttranscriptional regulation, suggesting the involvement of an RNase and/or key mRNA stabilization factor(s) controlling the DNMT3B mRNA stability. Therefore, TSA may not only modify histone acetylation, but also potentially alter DNA methylation. Since the HDAC inhibitors are frequently used in epigenetic studies and are considered to be promising anticancer drugs, these new findings will have implications in both laboratory and clinical settings.
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PMID:Histone deacetylase inhibitors decrease DNA methyltransferase-3B messenger RNA stability and down-regulate de novo DNA methyltransferase activity in human endometrial cells. 1580 66

Cigarette smoking is inversely associated with endometrial cancer risk. Smoking is proposed to decrease risk, in large part, through its anti-estrogenic effects in the uterus. In addition, cigarette smoke is a major source of alkylation damage. The O6-methylguanine DNA methyltransferase (MGMT) gene is responsible for repairing alkylation DNA damage and also has a role in inhibiting estrogen receptor-mediated cell proliferation. Because of MGMT's dual functions, it is a strong candidate gene for endometrial cancer. We assessed the two functional polymorphisms, the Leu84Phe and Ile143Val, in relation to endometrial cancer risk in a nested case-control study within the Nurses' Health Study (cases = 456, controls = 1134). Compared with the 84Leu/Leu genotype, the Phe carriers had a significantly decreased risk of endometrial cancer [odds ratio (OR), 0.72; 95% confidence interval (CI), 0.53-0.96]. We did not observe an association between the Ile143Val polymorphism and endometrial cancer risk overall. We observed a significant multiplicative interaction between the Ile143Val polymorphism and pack-years of smoking on endometrial cancer risk (P, interaction, 0.04); the inverse association of pack-years with endometrial cancer risk was limited to the 143Val carriers (P, trend, 0.01). Compared with women who had the Ile/Ile genotype and never smoked, the 143Val carriers who had >30 pack-years of smoking had a significantly decreased risk of endometrial cancer (OR, 0.41; 95%CI, 0.19-0.86). These data suggest that these two polymorphisms may influence endometrial cancer risk.
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PMID:Polymorphisms in O6-methylguanine DNA methyltransferase and endometrial cancer risk. 1677 93

Increased risk for the development of endometrial cancer has been associated with unopposed oestrogen exposure, hyperoestrogenic factors, and a history of breast cancer treated long-term with tamoxifen (Tam). Stromal cell-derived factor-1, currently named as CXCL12, is a chemokine that, via binding to CXCR4 receptor, activates several downstream effectors and signalling pathways responsible for proliferation, survival, and migration of cancer cells. We observed that 17beta-estradiol (E2) and tamoxifen (Tam) increase the expression of CXCR4 and CXCL12 transcripts and proteins in oestrogen receptor positive (ER(+)) but not in negative (ER(-)02) Ishikawa endometrial adenocarcinoma (ISH) cell lines. However, the demethylating agent 5-Aza-2'-deoxycytidine profoundly elevated CXCR4 and CXCL12 expression in both ER(+) and ER(-)02 ISH cells. Bisulfite sequencing revealed that E2 and Tam up-regulate expression via demethylation of cytosine in the cytosine-guanosine dinucleotide island of CXCR4 and CXCL12 promoters. We also found that E2 and Tam significantly increased, for several hours, the expression of DNA methyltransferase 3B4 enzymatically inactive splice variant in ER(+) but not in ER(-)02 ISH cells. Our results suggest that E2 and Tam, through their ability for gene-transcription regulation, change the cellular milieu that maintains the hypermethylated stage of CpG islands of CXCR4 and CXCL12 promoters.
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PMID:Epigenetic up-regulation of CXCR4 and CXCL12 expression by 17 beta-estradiol and tamoxifen is associated with formation of DNA methyltransferase 3B4 splice variant in Ishikawa endometrial adenocarcinoma cells. 1736 37

Progesterone plays an important role in the regulation of normal endometrium function by binding to progesterone receptor (PR). In endometrial cancer, however, PR is always down-regulated. Previous reports showed that methylation in the promoter region of the PR gene may be responsible for PRB isoform repression. However, the CpG islands in the exon region of the PR gene are much richer and longer than in the promoter region. We hypothesize that methylation in the exon region may also take part in the down-regulation of the PR gene. The methylation status of the first exon of the PR gene in endometrial cell cultures was investigated. Aberrant methylation patterns were observed in the first exon of PR gene, and the methylation density is correlated with the differentiation of different types of endometrial cancer cells. DNA methyltransferase (DNMT) and histone deacetylase inhibitor 5-aza-2'-deoxycytidine (ADC), as well as trichostatin A (TSA), which reverses PR gene expression, were also studied. A combination of ADC and TSA resulted in synergistic effects in inducing PR expression, down-regulation of DNMT1 and DNMT3A, and could also have antigrowth effect on endometrial cancer cells by inducing apoptosis.
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PMID:Down-regulation of the progesterone receptor by the methylation of progesterone receptor gene in endometrial cancer cells. 1755 66

Aberrant DNA methylation is an important molecular alteration commonly detected in various malignancies. Hypermethylation and expression silencing have been frequently found in multiple genes including those for steroid receptors, tumor suppressors, and DNA repair factors. Differential DNA methylation patterns are detected in type I and type II endometrial cancers, suggesting divergent epigenetic backgrounds and unique tumorigenic pathways. In this review, the implications of new findings in the field of epigenetics are discussed for endometrial cancer prevention, diagnosis, and treatment. DNA methylation-based assays may be explored as a useful adjunct diagnostic tool. Epigenetic modification reagents, including DNA methyltransferase and histone deacetylase inhibitors, when used alone or in combination with conventional chemotherapy, may be beneficial for endometrial cancer patients. Recent studies on epigenetic reactivation of the progesterone receptor provide a novel approach for re-sensitization of advanced, PR-negative endometrial cancers to progestational therapy.
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PMID:Epigenetic considerations for endometrial cancer prevention, diagnosis and treatment. 1769 7

The aim of our study was to evaluate the effects of 5-aza-2'-deoxycytidine (5-azadC) on cell growth inhibition, cell cycle arrest, apoptosis as well as the expression levels of hMLH1 and DNMT3B in human endometrial cancer cell lines. Ishikawa, HHUA, and KLE cell lines were used. After treatment with 5-azadC, cells were measured by MTT to detect the growth inhibition. Flow cytometry analysis was used to evaluate the cell cycle distribution and apoptosis effect. The expression of hMLH1 and DNMT3B was performed by real-time PCR and Western blotting analysis. The methylation status of the hMLH1 gene was monitored by methylation-specific PCR. We confirmed that 5-azadC treatment resulted in growth inhibition, G(2) arrest, and cell apoptosis in human endometrial cancer cell lines. Furthermore, the data obtained by real-time PCR and Western blotting analysis demonstrated that the expression of hMLH1 was up-regulated by 5-azadC treatment in Ishikawa cells, accompanied by down-regulation of DNMT3B expression, when 5-azadC led to cell inhibition, G(2)/M arrest, and apoptosis. Our results suggested that 5-azadC is a potent inhibitor of DNA methyltransferase 3B and induces apoptosis in Ishikawa cells with the up-regulation of hMLH1.
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PMID:5-Aza-2'-deoxycytidine is a potent inhibitor of DNA methyltransferase 3B and induces apoptosis in human endometrial cancer cell lines with the up-regulation of hMLH1. 1930 77

The etiology and development of human cancers that remain little understood might be enlightened by defining tumor suppressor microRNAs (TS-miRNA). In this study, we identified TS-miRNAs silenced by aberrant DNA hypermethylation in endometrial cancer. Functional screening of 327 synthetic miRNAs in an endometrial cancer cell proliferation assay identified 103 miRNAs that inhibited cell growth. We then determined the sequence, DNA methylation status, and expression levels of these miRNAs in endometrial cancer cell lines and primary tumors. These determinations led to the identification of miR-152 as a candidate TS-miRNA gene in endometrial cancer. Epigenetic silencing documented in miR-152 was consistent with its location at 17q21.32 in intron 1 of the COPZ2 gene, which is also silenced often in endometrial cancer by DNA hypermethylation, and also with evidence that miR-152 targets the DNA methyltransferase DNMT1. Notably, restoration of miR-152 expression in endometrial cancer cell lines was sufficient to inhibit tumor cell growth in vitro and in vivo. We identified E2F3, MET, and Rictor as novel candidate targets of miR-152, suggesting how its epigenetic silencing can drive endometrial carcinogenesis. Our findings define a central role for miR-152 in endometrial cancer, and they also suggest its use in new therapeutic strategies to treat this cancer.
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PMID:miR-152 is a tumor suppressor microRNA that is silenced by DNA hypermethylation in endometrial cancer. 2186 54

DNA methyltransferase (DNMT) and histone deacetylase are key enzymes mediating the epigenetic regulation of gene expression. DNA hypermethylation and/or histone deacetylation in promoter regions is often associated with downregulation or silencing of transcription. Epigenetic silencing of tumor suppressor genes plays an important role in malignant transformation. DNMT and HDAC inhibitors induce DNA demethylation and histone acetylation, respectively, leading to reactivation of silenced genes, and dramatic morphological and functional changes in cancer cells. In this study, we have conducted a series of experiments to characterize the effects of epigenetic inhibitors in endometrial cancer cells. Using cell lines representing different stages of endometrioid cancers, we examined the impact of DNMT inhibitor, ADC, and HDAC inhibitor, TSA, on cell cycle and apoptosis. We found that while both reagents were capable of inhibiting cell proliferation and inducing cell apoptosis, TSA appeared to be a more potent apoptosis inducer, but with a smaller effect on cell cycle. On the other hand, ADC exhibited strong effects on cell cycle regulation, but had smaller impact on cell apoptosis. We subsequently confirmed the presence of a strong synergism between DNMT and HDAC inhibitors. Thus, ADC and TSA exhibited strong cytostatic and apoptotic effects in endometrial cancer cell lines and the combined application may deliver the highest response in the clinical setting.
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PMID:Cytostatic and apoptotic effects of DNMT and HDAC inhibitors in endometrial cancer cells. 2388 60

The molecular mechanisms underlying the antineoplastic properties of metformin, a first-line drug for type 2 diabetes, remain elusive. Here we report that metformin induces genome-wide alterations in DNA methylation by modulating the activity of S-adenosylhomocysteine hydrolase (SAHH). Exposing cancer cells to metformin leads to hypermethylation of tumor-promoting pathway genes and concomitant inhibition of cell proliferation. Metformin acts by upregulating microRNA let-7 through AMPK activation, leading to degradation of H19 long noncoding RNA, which normally binds to and inactivates SAHH. H19 knockdown activates SAHH, enabling DNA methyltransferase 3B to methylate a subset of genes. This metformin-induced H19 repression and alteration of gene methylation are recapitulated in endometrial cancer tissue samples obtained from patients treated with antidiabetic doses of metformin. Our findings unveil a novel mechanism of action for the drug metformin with implications for the molecular basis of epigenetic dysregulation in cancer. This novel mechanism of action also may be occurring in normal cells.
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PMID:Metformin alters DNA methylation genome-wide via the H19/SAHH axis. 2777 72


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