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:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We reported recently that the silencing of RUNX3 is causally related to gastric cancer in humans. Here we report that in three of four cell lines derived from N-methyl-N-nitrosourea-induced mouse glandular stomach carcinomas, Runx3 is silenced due to hypermethylation of CpG islands in the promoter region, as we also observed for human gastric cancer cells. Although two of the sites we tested in the promoter of the fourth line were not methylated, in all four cases the silencing of Runx3 could be reversed by treatment of the cells with 5'-azacytidine and trichostatin A. Interestingly, the exogenous expression of RUNX3 in cell lines that do not express the endogenous gene caused an inhibition of growth in soft agar, suggesting that anchorage-independent growth could be used as an assay of RUNX3 activity in vitro. These observations suggest that the mouse system described here may be useful as a model for the study of human gastric carcinogenesis.
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PMID:Inhibition of growth of mouse gastric cancer cells by Runx3, a novel tumor suppressor. 1244 99

In recent years, the in vivo role of the three members of the RUNX family of transcription factors has in part been elucidated. While Runx1 is essential for mature haematopoiesis and Runx2 for osteochondrogenesis, Runx3 has a function in the nervous system. Translocations and mutations affecting the RUNX1 gene are clearly implicated in leukemogenesis whereas recent data suggest that changed expression levels of RUNX3 may be involved in gastric carcinogenesis. Germ line mutations in RUNX2 have been identified in patients with an autosomal dominant skeletal disorder, cleidocranial dysplasia. While a number of pathways have been delineated that regulate RUNX activity, transcription factors binding to RUNX promoters are only beginning to be identified. A growing number of genes have been characterised that are being regulated in their transcriptional activity by different RUNX proteins. Whether a particular RUNX protein specifically targets a defined subset of downstream genes or whether there is some redundancy as to which RUNX protein activates which target promoter remains to be elucidated.
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PMID:Upstream and downstream targets of RUNX proteins. 1268 4

Topics discussed here include PTEN mutations and colonic polyps; WNT signaling, APC, beta-catenin, and gastrointestinal neoplasms; mismatch-repair genes (MLH1, MSH2, PMS1, MSH6) and hereditary nonpolyposis colorectal cancer; MYH mutations and autosomal recessive colorectal tumors; STK11 mutations and Peutz-Jeghers syndrome; TGFbeta and gastrointestinal cancer; BMPR1A mutations and juvenile polyposis; FGF/FGFR alterations in gastrointestinal neoplasms; PTCH mutations and gastrointestinal neoplasms; RUNX3 expression and gastric cancer; role of mucins in gastric carcinogenesis; KIT, PDGFRalpha, and gastrointestinal stromal tumors; intestinal neurofibromatosis; and gastrointestinal tumors in other disorders.
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PMID:Molecular dimensions of gastrointestinal tumors: some thoughts for digestion. 1451 68

RUNX family transcription factors are integral components of TGF-beta signaling pathways and have been implicated in cell cycle regulation, differentiation, apoptosis, and malignant transformation. It was noted previously that allele loss and loss of expression of RUNX3 are causally involved in gastric carcinogenesis. Our results demonstrate that RUNX3 is inactivated by aberrant DNA methylation in approximately 19% of lung cancer cell lines and 24% of primary lung cancer specimens. RUNX3 methylation is tumor-specific, since it is not observed in surrounding normal lung tissues. Our results suggest that loss of RUNX3 expression by DNA hypermethylation is frequently associated with the evolution of lung cancer.
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PMID:Transcriptional silencing of the RUNX3 gene by CpG hypermethylation is associated with lung cancer. 1471 69

RUNX3, a Runt domain transcription factor involved in TGF-beta signaling, is a candidate tumor-suppressor gene localized in 1p36, a region commonly deleted in a wide variety of human tumors, including those of the stomach, bile duct, and pancreas. Recently, frequent inactivation of RUNX3 has been demonstrated in human gastric carcinomas. In this study, to examine the involvement of RUNX3 abnormalities in tumorigenesis of bile duct as well as pancreatic cancers, we investigated not only the expression but also methylation status of RUNX3 in 10 human bile duct and 12 pancreatic cancer cell lines. Seven (70%) of the bile duct and nine (75%) of the pancreatic cancer cell lines exhibited no expression of RUNX3 by both Northern blot analysis and the reverse transcriptase polymerase chain reaction. All of the 16 cell lines that did not express RUNX3 also showed methylation of the promoter CpG island of the gene, whereas the six cell lines that showed RUNX3 expression were not methylated or only partially methylated in the RUNX3 promoter region. Moreover, treatment with the methylation inhibitor 5'-aza-2'-deoxycitidine activated RUNX3 mRNA expression in all of 16 cancer cell lines that originally lacked RUNX3 expression. Finally, hemizygous deletion of RUNX3, as detected by fluorescence in situ hybridization, was found in 15 of the 16 cancer cell lines that lacked RUNX3 expression. These data suggest that the inactivation of RUNX3 plays an important role in bile duct and pancreatic carcinogenesis, and that methylation is a common mechanism by which the gene is inactivated.
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PMID:Frequent loss of RUNX3 gene expression in human bile duct and pancreatic cancer cell lines. 1474 5

To date, several reports have been published about CpG island methylation of various genes in prostate cancer. However, most of these studies have focused on cancer tissue only or a single gene and data about concurrent methylation of multiple genes in prostate cancer or prostatic intraepithelial neoplasia (PIN) are limited. The aim of the present study was to determine the methylation profile of 11 tumour-related genes in prostate cancer and PIN. Seventy-one samples, including 37 prostate cancers, 14 PINs, and 20 normal prostates, were examined for the methylation status of 11 tumour-related genes using methylation-specific PCR. The mean number of genes methylated was significantly higher in prostate cancer and PIN than in non-neoplastic prostate (4.4, 3, and 0.2, respectively; p < 0.001). In prostate cancer, APC, GSTP1, MGMT, and RASSF1A were frequently methylated at a frequency of 56.8%, 86.5%, 75.7%, and 83.8%, respectively. These genes were methylated in more than 30% of PINs. Prostate cancers with high serum prostate-specific antigen (PSA) (more than 8 ng/ml) or a high Gleason score (GS) (3 + 4 or more) showed higher numbers of methylated genes than those with low serum PSA (8 or less) or low GS (3 + 3 or less) (5.4 versus 2.5 and 5.4 versus 3.1, respectively; p < 0.05). The methylation frequency of APC, RASSF1A, and RUNX3 was higher in prostate cancers with high serum PSA or with high GS than in those with low PSA or with low GS, respectively, the differences reaching statistical significance (p < 0.05). A strong association between MGMT methylation and loss of MGMT expression was demonstrated by immunohistochemistry. CpG island methylation is a frequent event, occurs early, and accumulates during multi-step prostatic carcinogenesis. High levels of CpG island hypermethylation might serve as a potential biological marker for aggressive prostate cancer.
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PMID:Aberrant CpG island hypermethylation of multiple genes in prostate cancer and prostatic intraepithelial neoplasia. 1474 6

Accumulating evidence has identified a mechanism potentially responsible for the inactivation of tumor suppressor genes, namely transcriptional silencing by aberrant methylation of CpG islands. A previous study has shown the loss of RUNX3 expression, due to aberrant methylation of its CpG island, in gastric cancer cell lines, suggesting that RUNX3 is a target for epigenetic gene silencing in gastric carcinogenesis. However, there are limited data on the methylation status of RUNX3 in the neoplastic and non-neoplastic tissues in various types of human cancers, including gastric cancer. Here, we report that 60% of gastric cancer cell lines and 64% of primary gastric carcinomas (n=75) were methylated at the RUNX3 CpG island. RUNX3 methylation was also detected in hepatocellular carcinomas (73%, n=48), larynx cancers (62%, n=37), lung cancers (46%, n=24), breast cancers (25%, n=25), prostate cancers (23%, n=44), endometrial cancers (12.5%, n=24), colon cancers (4.9%, n=61) and uterine cervical cancers (2.5%, n=40), showing that RUNX3 methylation is not restricted to gastric cancer. Interestingly, the RUNX3 methylation was especially frequent in tumors from tissues of a foregut derivative, that is, the stomach, liver, larynx and lung. Next, the methylation status of RUNX3 in various non-neoplastic tissues was examined, including the premalignant lesions of gastric carcinomas. The RUNX3 methylation was found in 8.1% of chronic gastritis (n=99), 28.1% of intestinal metaplasia (n=32), 27.3% of gastric adenomas (n=77) and 64% of gastric carcinomas (n=75), but not in chronic hepatitis B, normal prostate and colon mucosa, even though in cases of chronic hepatitis, the methylation frequency of its neoplastic tissues was very high. In conclusion, RUNX3 methylation is frequently found in human cancers, including gastric cancer, and is mostly cancer specific, with the exception of the stomach, and thus, might be useful as a potential diagnostic biomarker of cancer.
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PMID:Methylation of RUNX3 in various types of human cancers and premalignant stages of gastric carcinoma. 1496 23

The RUNX3 gene is a member of the Runt domain family of transcription factors that are master regulators of gene expression in major developmental pathways. Recently, lack of RUNX3 function was found to be associated with genesis and progression of gastric carcinoma. We studied methylation of CpG islands in the RUNX3 gene by methylation-specific PCR in 80 gastric carcinoma specimens, 45 corresponding non-neoplastic mucosae, and 7 gastric carcinoma cell lines. We also measured levels of RUNX3 mRNA in 50 of the gastric carcinoma cases by quantitative RT-PCR and in the gastric carcinoma cell lines by RT-PCR. Hypermethylation of the RUNX3 promoter was found in 57 (71%) of 80 gastric carcinomas, and promoter hypermethylation of RUNX3 occurred more frequently in intestinal and diffuse-adherent type tumors than in diffuse-scattered type tumors (p = 0.046). Reduced RUNX3 expression was associated with promoter hypermethylation (p = 0. 036), however, there was no correlation between RUNX3 mRNA expression levels and T grade, N grade, tumor stage, or histological type. In corresponding non-neoplastic mucosae, hypermethylation of the RUNX3 promoter was found in 38 (84%) of 45 specimens. Among seven gastric carcinoma cell lines, three cell lines (MKN-28, MKN-74, TMK-1) with diminished expression of RUNX3 had promoter methylation and three cell lines (MKN-1, MKN-7, MKN-45) with RUNX3 expression showed no promoter methylation. Our results overall suggest that transcriptional inactivation of RUNX3 by promoter hypermethylation may participate in the stomach carcinogenesis.
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PMID:Frequent loss of RUNX3 expression by promoter hypermethylation in gastric carcinoma. 1505 26

Recent analyses have revealed that RUNX family members play important roles in both normal developmental processes and carcinogenesis. Of the three known RUNX family members, RUNX3 has been shown to be involved in neurogenesis of the dorsal root ganglia, T-cell differentiation and tumorigenesis of gastric epithelium. Deletion of the Runx3 locus in mice resulted in hyperplasia of the gastric epithelium due to the stimulation of proliferation and suppression of apoptosis that was accompanied by a reduced sensitivity to TGF-beta1. In primary human gastric cancer specimens, RUNX3 is frequently inactivated by allele loss or gene silencing due to promoter hypermethylation. The tumorigenicity of human gastric cancer cell lines in nude mice decreased as the level of RUNX3 expression increased, which indicates that RUNX3 is a bona fide tumor suppressor of gastric cancers.
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PMID:Tumor suppressor activity of RUNX3. 1515 90

It was recently reported that RUNX3 gene expression is significantly downregulated in human gastric cancer cells due to hypermethylation of its promoter region or hemizygous deletion (Cell, 109, 2002). To verify the genetic alterations and methylation status of the RUNX3 gene in colorectal carcinogenesis, we analysed for mutations, loss of heterozygosity (LOH), and RUNX3 gene promoter hypermethylation, in 32 colorectal cancer cell lines. RT-PCR analysis showed undetectable or low RUNX3 expression in 16 cell lines, and no mutations were found in the RUNX3 gene by PCR-SSCP analysis. Of these 16 cell lines, hypermethylation of the RUNX3 promoter was confirmed in 12. The following observations were made: (i) RUNX3 was re-expressed after 5-aza-2'-deoxycytidine treatment, (ii) the RUNX3 promoter was found to be methylated by MS-PCR, and (iii) hypermethylation of the RUNX3 promoter was confirmed by direct sequencing analysis after sodium bisulfite modification in the above 12 cell lines. RUNX3 was neither methylated nor expressed in four cell lines. Of these four, microsatellite instability (MSI) at the RUNX3 locus was found in three, SNU-61 (D1S246), SNU-769A, and SNU-769B (D1S199). This study suggests that transcriptional repression of RUNX3 is caused by promoter hypermethylation of the RUNX3 CpG island in colorectal cancer cell lines, and the results of these experiments may contribute to an understanding of the role of RUNX3 inactivation in the pathogenesis of colorectal cancers.
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PMID:Promoter hypermethylation downregulates RUNX3 gene expression in colorectal cancer cell lines. 1527 36


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