Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1140680 (ovarian cancer)
 28,141 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have shown that the Dnmt3b gene encodes multiple variants via alternative splicing. However, only one form of Dnmt3a has been identified to date. We report here the discovery of a small form of Dnmt3a, denoted Dnmt3a2, from both human and mouse. The transcript encoding Dnmt3a2 is initiated from a downstream intronic promoter. As a result, the Dnmt3a2 protein lacks the N-terminal 223 (human) or 219 (mouse) amino acid residues of the full-length Dnmt3a. Recombinant Dnmt3a2 protein displayed similar cytosine methyltransferase activity as Dnmt3a in vitro. However, Dnmt3a and Dnmt3a2 exhibited strikingly different subcellular localization patterns. Unlike Dnmt3a, which was concentrated on heterochromatin, Dnmt3a2 displayed a localization pattern suggestive of euchromatin association. Dnmt3a2 is the predominant form in embryonic stem cells and embryonal carcinoma cells and can also be detected from testis, ovary, thymus, and spleen, whereas Dnmt3a is expressed at low levels ubiquitously. Comparison of human embryonal carcinoma cell lines with breast/ovarian cancer cell lines indicates that DNMT3A2 expression correlates with high de novo methylation activity. These findings suggest that Dnmt3a and Dnmt3a2 may have distinct DNA targets and different functions in development.
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PMID:A novel Dnmt3a isoform produced from an alternative promoter localizes to euchromatin and its expression correlates with active de novo methylation. 1213 11

Ovarian cancer is the most lethal of all gynecologic neoplasms. Early-stage malignancy is frequently asymptomatic and difficult to detect and thus, by the time of diagnosis, most women have advanced disease. Most of these patients, although initially responsive, eventually develop and succumb to drug-resistant metastases. The success of typical postsurgical regimens, usually a platinum/taxane combination, is limited by primary tumors being intrinsically refractory to treatment and initially responsive tumors becoming refractory to treatment, due to the emergence of drug-resistant tumor cells. This review highlights a prominent role for epigenetics, particularly aberrant DNA methylation and histone acetylation, in both intrinsic and acquired drug-resistance genetic pathways in ovarian cancer. Administration of therapies that reverse epigenetic "silencing" of tumor suppressors and other genes involved in drug response cascades could prove useful in the management of drug-resistant ovarian cancer patients. In this review, we summarize recent advances in the use of methyltransferase and histone deacetylase inhibitors and possible synergistic combinations of these to achieve maximal tumor suppressor gene re-expression. Moreover, when used in combination with conventional chemotherapeutic agents, epigenetic-based therapies may provide a means to resensitize ovarian tumors to the proven cytotoxic activities of conventional chemotherapeutics.
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PMID:The epigenetics of ovarian cancer drug resistance and resensitization. 1554 25

Transcription factor 2 gene (TCF2) encodes hepatocyte nuclear factor 1beta (HNF1beta), a transcription factor associated with development and metabolism. Mutation of TCF2 has been observed in renal cell cancer, and by screening aberrantly methylated genes, we have now identified TCF2 as a target for epigenetic inactivation in ovarian cancer. TCF2 was methylated in 53% of ovarian cancer cell lines and 26% of primary ovarian cancers, resulting in loss of the gene's expression. TCF2 expression was restored by treating cells with a methyltransferase inhibitor, 5-aza-2'deoxycitidine (5-aza-dC). In addition, chromatin immunoprecipitation showed deacetylation of histone H3 in methylated cells and, when combined with 5-aza-dC, the histone deacetylase inhibitor trichostatin A synergistically induced TCF2 expression. Epigenetic inactivation of TCF2 was also seen in colorectal, gastric and pancreatic cell lines, suggesting general involvement of epigenetic inactivation of TCF2 in tumorigenesis. Restoration of TCF2 expression induced expression of HNF4alpha, a transcriptional target of HNF1beta, indicating that epigenetic silencing of TCF2 leads to alteration of the hepatocyte nuclear factor network in tumours. These results suggest that TCF2 is involved in the development of ovarian cancers and may represent a useful target for their detection and treatment.
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PMID:Epigenetic inactivation of TCF2 in ovarian cancer and various cancer cell lines. 1647 57

The transforming growth factor-beta (TGF-beta) superfamily members, TGF-beta, activin, and inhibin, all have prominent roles in regulating normal ovarian function. Betaglycan, or the type III TGF-beta receptor, is a coreceptor that regulates TGF-beta, activin, and inhibin signaling. Here, we show that betaglycan expression is frequently decreased or lost in epithelial derived ovarian cancer at both the mRNA and protein level, with the degree of loss correlating with tumor grade. Treatment of ovarian cancer cell lines with the methyltransferase inhibitor 5-aza-2-deoxycytidine and the histone deacetylase inhibitor trichostatin A resulted in significant synergistic induction of betaglycan message levels and increased betaglycan protein expression, indicating that epigenetic silencing may play a role in the loss of betaglycan expression observed in ovarian cancer. Although restoring betaglycan expression in Ovca429 ovarian cancer cells is not sufficient to restore TGF-beta-mediated inhibition of proliferation, betaglycan significantly inhibits ovarian cancer cell motility and invasiveness. Furthermore, betaglycan specifically enhances the antimigratory effects of inhibin and the ability of inhibin to repress matrix metalloproteinase levels in these cells. These results show, for the first time, epigenetic regulation of betaglycan expression in ovarian cancer, and a novel role for betaglycan in regulating ovarian cancer motility and invasiveness.
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PMID:Loss of betaglycan expression in ovarian cancer: role in motility and invasion. 1752 89

Enhancer of Zeste Homologue 2 (EZH2), a specific histone 3 lysine 27 (H3K27) methyltransferase, plays a critical role in tumorigenesis and cancer progression through epigenetic gene silencing and chromatin remodeling. However, the role of EZH2 in chemotherapy resistance is unknown. In this study, we found that EZH2 was overexpressed in cisplatin-resistant ovarian cancer cells compared with cisplatin-sensitive cells. Knockdown of EZH2 by RNA interference (RNAi) resensitized drug-resistant ovarian cancer A2780/DDP cells to cisplatin and decreased the level of H3K27 trimethylation (H3K27me3). Moreover, EZH2 downregulation suppressed cell proliferation and caused G2/M cell cycle arrest in A2780/DDP cells. Loss of EZH2 also enhanced sensibility of tumor xenografts to cisplatin and inhibited tumor growth in vivo. Our results indicate that EZH2 is essential for chemotherapy resistance in cisplatin-resistant cancer cells in vitro and in vivo, which is probably through H3K27 methylation as well as regulation of cell proliferation. EZH2 could be a potential novel epigenetic target to overcome drug resistance.
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PMID:Overexpression of EZH2 contributes to acquired cisplatin resistance in ovarian cancer cells in vitro and in vivo. 2068 62

RhoB, a member of small GTPases belonging to the Ras protein superfamily, might have a suppressive activity in cancer progression. Here, expression of RhoB gene was evaluated in human benign, borderline and malignant ovary tumors by immunostaining, with normal ovary tissue as control. Malignant tumors were assessed according to Federation Internationale de Gynecologie Obstetrique (FIGO) guidelines and classified in stage I-IV. Revivification of RhoB gene was investigated by analyzing the effect of histone deacetylase (HDAC) inhibitor trichostatin (TSA) and methyltransferase inhibitor 5-azacytidine (5-Aza) on ovarian cancer cells via RT-PCR and western blot. Apoptosis of ovary cancer cells was detected using flowcytometry and fluorescence microscopy. Subsequently, RhoB expression is detected in normal ovary epithelium, borderline tumors, and decreases significantly or lost in the majority of ovarian cancer specimen (P<0.05). RhoB expression decreases significantly from stage II (71.4%) to stage III (43.5%) to stage IV (18.2%, P<0.05). TSA can both significantly revive the RhoB gene and mediate apoptosis of ovarian cancer cells, but 5-Aza couldn't. Interference into Revivification of RhoB gene results in reduction of ovary carcinoma cell apoptosis. It is proposed that loss of RhoB expression occurs frequently in ovary carcinogenesis and progression and its expression could be regulated by histone deacetylation but not by promoter hypermethylation, which may serve as a prospective gene treatment target for the patients with ovarian malignancy not responding to standard therapies.
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PMID:Expression loss and revivification of RhoB gene in ovary carcinoma carcinogenesis and development. 2422 1

The Epithelial Cell Adhesion Molecule (EpCAM) is overexpressed in many cancers including ovarian cancer and EpCAM overexpression correlates with decreased survival of patients. It was the aim of this study to achieve a targeted methylation of the EpCAM promoter and silence EpCAM gene expression using an engineered zinc finger protein that specifically binds the EpCAM promoter fused to the catalytic domain of the Dnmt3a DNA methyltransferase. We show that transient transfection of this construct increased the methylation of the EpCAM promoter in SKOV3 cells from 4-8% in untreated cells to 30%. Up to 48% methylation was observed in stable cell lines which express the chimeric methyltransferase. Control experiments confirmed that the methylation was dependent on the fusion of the Zinc finger and the methyltransferase domains and specific for the target region. The stable cell lines with methylated EpCAM promoter showed a 60-80% reduction of EpCAM expression as determined at mRNA and protein level and exhibited a significantly reduced cell proliferation. Our data indicate that targeted methylation of the EpCAM promoter could be an approach in the therapy of EpCAM overexpressing cancers.
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PMID:Targeted methylation of the epithelial cell adhesion molecule (EpCAM) promoter to silence its expression in ovarian cancer cells. 2448 52

The gene encoding ARID1A, a chromatin remodeler, shows one of the highest mutation rates across many cancer types. Notably, ARID1A is mutated in over 50% of ovarian clear cell carcinomas, which currently have no effective therapy. To date, clinically applicable targeted cancer therapy based on ARID1A mutational status has not been described. Here we show that inhibition of the EZH2 methyltransferase acts in a synthetic lethal manner in ARID1A-mutated ovarian cancer cells and that ARID1A mutational status correlated with response to the EZH2 inhibitor. We identified PIK3IP1 as a direct target of ARID1A and EZH2 that is upregulated by EZH2 inhibition and contributed to the observed synthetic lethality by inhibiting PI3K-AKT signaling. Importantly, EZH2 inhibition caused regression of ARID1A-mutated ovarian tumors in vivo. To our knowledge, this is the first data set to demonstrate a synthetic lethality between ARID1A mutation and EZH2 inhibition. Our data indicate that pharmacological inhibition of EZH2 represents a novel treatment strategy for cancers involving ARID1A mutations.
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PMID:Synthetic lethality by targeting EZH2 methyltransferase activity in ARID1A-mutated cancers. 2582 76

Methylation of mammalian genomic DNA is catalyzed by DNA methyltransferases (DNMTs). Aberrant expression and activity of these enzymes has been reported to play an important role in the initiation and progression of tumors and its response to chemotherapy. Therefore, there is a great interest in developing strategies to detect human DNMTs activity. We propose a simple, antibody-free, label-free and non-radioactive analytical strategy in which methyltransferase activity is measured trough the determination of the 5-methylcytosine (5mC) content in DNA by a chromatographic method (HPLC-UV) previously developed. For this aim, a correlation between the enzyme activity and the concentration of 5mC obtained by HPLC-UV is previously obtained under optimized conditions using both, un-methylated and hemi-methylated DNA substrates and the prokaryotic methyltransferase M.SssI as model enzyme. The evaluation of the methylation yield in un-methylated known sequences (a 623bp PCR-amplicon) turned to be quantitative (110%) in experiments conducted in-vitro. Methylation of hemi-methylated and low-methylated sequences could be also detected with the proposed approach. The application of the methodology to the determination of the DNMTs activity in nuclear extracts from human ovarian cancer cells has revealed the presence of matrix effects (also confirmed by standard additions) that hampered quantitative enzyme recovery. The obtained results showed the high importance of adequate sample clean-up steps.
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PMID:New strategy to address DNA-methyl transferase activity in ovarian cancer cell cultures by monitoring the formation of 5-methylcytosine using HPLC-UV. 2731 40

Epithelial-mesenchymal transition (EMT) is one of the key mechanisms mediating cancer progression. MicroRNAs (miRs) are essential regulators of gene expression by suppressing translation or causing degradation of target mRNA. Growing evidence illustrates the crucial roles of miRs dysregulation in cancer development and progression. Here, we have found for the first time that the ginsenoside 20(S)-Rg3, a pharmacologically active component of Panax ginseng, potently increases miR-145 expression by downregulating methyltransferase DNMT3A to attenuate the hypermethylation of the promoter region in the miR-145 precursor gene. Restoration of DNMT3A reverses the inhibitory effect of 20(S)-Rg3 on EMT. FSCN1 is verified as the target of miR-145 to suppress EMT in human ovarian cancer cells. The results from nude mouse xenograft models further demonstrate the suppressive effect of miR-145 on malignant progression of ovarian cancer. Taken together, our results show that 20(S)-Rg3 blocks EMT by targeting DNMT3A/miR-145/FSCN1 pathway in ovarian cancer cells, highlighting the potentiality of 20(S)-Rg3 to be used as a therapeutic agent for ovarian cancer.
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PMID:20(S)-Rg3 blocked epithelial-mesenchymal transition through DNMT3A/miR-145/FSCN1 in ovarian cancer. 2888 18


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