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:C0009402 (colorectal cancer)
53,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

beta-Catenin plays a dual role in the cell: one in linking the cytoplasmic side of cadherin-mediated cell-cell contacts to the actin cytoskeleton and an additional role in signaling that involves transactivation in complex with transcription factors of the lymphoid enhancing factor (LEF-1) family. Elevated beta-catenin levels in colorectal cancer caused by mutations in beta-catenin or by the adenomatous polyposis coli molecule, which regulates beta-catenin degradation, result in the binding of beta-catenin to LEF-1 and increased transcriptional activation of mostly unknown target genes. Here, we show that the cyclin D1 gene is a direct target for transactivation by the beta-catenin/LEF-1 pathway through a LEF-1 binding site in the cyclin D1 promoter. Inhibitors of beta-catenin activation, wild-type adenomatous polyposis coli, axin, and the cytoplasmic tail of cadherin suppressed cyclin D1 promoter activity in colon cancer cells. Cyclin D1 protein levels were induced by beta-catenin overexpression and reduced in cells overexpressing the cadherin cytoplasmic domain. Increased beta-catenin levels may thus promote neoplastic conversion by triggering cyclin D1 gene expression and, consequently, uncontrolled progression into the cell cycle.
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PMID:The cyclin D1 gene is a target of the beta-catenin/LEF-1 pathway. 1031 16

The mutations most common in pancreatic cancer decrease the ability to control G1 to S cell cycle progression and cellular proliferation. In colorectal cancer cells, nonsteroidal anti-inflammatory drugs inhibit proliferation and induce cell cycle arrest. We examined whether sodium salicylate, an aspirin metabolite, could inhibit proliferation in human pancreatic cancer cell lines (BxPC3 and Panc-1). Quiescent cells were treated with medium containing 10% fetal calf serum, with or without salicylate. Cellular proliferation was measured by MTT assay and bromodeoxyuridine incorporation. The fractions of cells in G0/G1, S, and G2/M phases of the cell cycle were quantitated by fluorescence-activated cell sorting. Results were compared between groups by two-tailed t test. Cyclin D1 expression was determined by Western blot analysis and prostaglandin E2 expression by enzyme-linked immunosorbent assay. Serum-starved cells failed to proliferate, with most arrested in the G1 phase. Salicylate significantly inhibited serum-induced progression from G1 to S phase, cellular proliferation, and the expression of cyclin D1. The concentrations at which 50% of serum-induced proliferation was inhibited were 1.2 mmol/L (Panc-1) and 1.7 mmol/L (BxPC3). The antiproliferative effect of sodium salicylate was not explained by inhibition of prostaglandin E2 production. This study provides further evidence in a noncolorectal cancer model for the antineoplastic effects of nonsteroidal anti-inflammatory drugs.
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PMID:Sodium salicylate inhibits proliferation and induces G1 cell cycle arrest in human pancreatic cancer cell lines. 1063 59

Cyclin D1 is a G1 cyclin that controls the transition of the cell cycle from G1 phase to S phase, and its gene is located on chromosome 11q13. We evaluated the expression of cyclin D1 mRNA in surgically resected specimens of gastric and colorectal cancers using quantitative RT-PCR. In this method, cDNA derived from cyclin D1 mRNA was amplified in a tube together with an internal control. The expression of cyclin D1 mRNA was high in 8 of 36 gastric cancer tissues (22%) and 9 of 27 (33%) colorectal cancer tissues, compared to normal mucosal tissues. In gastric cancers, the rate of cyclin D1 mRNA expression (an index of the density of DNA bands) was significantly higher in patients with tumors invading beyond the submucosal layer, regional lymph nodes and lymphatic vessels (i.e., patients with stage III or IV). In colorectal cancers, the rate of cyclin D1 mRNA expression was significantly higher in patients with venous invasion. Moreover, in patients with colorectal cancer, the survival rate of high-expression group was significantly lower than in low-expression group. Our results suggested that overexpression of cyclin D1 mRNA reflected the severity of gastric cancer and poor prognosis of colorectal cancer.
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PMID:Evaluation of cyclin D1 mRNA expression in gastric and colorectal cancers. 1095 28

Cyclin D1 is a key cell cycle regulatory protein, the expression and subcellular localization of which is often altered in human tumor cells. A common A/G single nucleotide polymorphism (A870G) in exon 4 of the cyclin D1 gene, CCND1, is associated with the presence of 2 distinct mRNA transcripts for this G1/S regulatory protein, and CCND1 genotype has been related to prognosis in lung cancer and head and neck carcinoma. We have investigated both the expression of cyclin D1 protein and the CCND1 A870G polymorphism in 100 colorectal cancer patients. Immunohistochemistry demonstrated cyclin D1 protein expression in 55% of tumors, and while the absence of cyclin D1 protein was not associated with outcome (p=0.81), high levels of protein expression (>50% of tumor cells expressing cyclin D1) correlated with significantly shortened overall survival (p=0.01). Using polymerase chain reaction restriction fragment length polymorphism analysis, we determined the frequency of each genotype and found that CCND1 genotype was not related to overall survival (p>0.05). In addition, genotype was unrelated to the level of expression and localization of cyclin D1 protein, as well as other key G1/S checkpoint proteins (p21, p27, p53, retinoblastoma) and tumor proliferation markers (proliferating cell nuclear antigen). However, higher levels of p27, and to a lesser extent p21, were associated with reduced cytoplasmic cyclin D1 protein (p=0.029 and p=0.054, respectively). In conclusion, we have demonstrated that high levels of cyclin D1 protein expression are related to outcome in colorectal cancer; however, the CCND1 A870G polymorphism is unrelated to either cyclin D1 protein expression or patient survival.
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PMID:Cyclin D1 protein expression and gene polymorphism in colorectal cancer. Aberdeen Colorectal Initiative. 1096 85

Cyclin D1, P53 and P21 (WAF1) are cell cycle regulating proteins, playing a crucial role in oncogenesis of a large number of human malignancies, and loss of activity of P53 and P21 (WAF1) proteins seems to be one of the most important regulatory mechanisms of carcinogenesis in colorectal cancer. To find out their mutual relations we investigated the expression of cyclin D1, P53 and P21 (WAF1) in 122 colorectal cancers by immunohistochemistry. Positivity for cyclin D1 was found in all the cases (100%), positivity for P53 in 96 cases (70%) and positivity for P21 in 48 cases (39%). Statistical analysis revealed a statistically significant inverse correlation between P53 and P21 (WAF1)-immunopositivity and also between P21 (WAF1)-immunopositivity and the degree of cyclin D1-immunopositivity. These data suggest that in colorectal cancer induction of P21 (WAF1) may occur mostly in a P53-dependent pathway. Wild-type P53, which is undetectable by immunohistochemistry, induces transcriptionally P21 (WAF1) and in tumours it may cause its accumulation, while mutations of the P53 may result in a sufficient increase of intracellular protein having no ability to transactivate P21 (WAF1). Moreover P21 (WAF1) as the main cyclin-dependent kinases (CDKs) inhibitor may also inhibit the activity of the cyclins, thus overexpression of P21 (WAF1) may result in reduced level of cyclin D1.
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PMID:Comparative evaluation of the expression of cell cycle regulating proteins: cyclin D1, P53 and P21 (WAF1) in colorectal cancer. 1097 28

We investigated the expression of the cell cycle regulatory proteins cyclin D1 and p21(WAF1/CIP1) (p21) in human colorectal carcinomas using immunohistochemistry. Cyclin D1 was not detected in normal colonic epithelium; however, expression was observed in 74/126 (58.7%) of the tumour samples studied. Protein was detected in the nucleus in 22/126 (17.4%) and exclusively in the cytoplasm in 52/126 (41.3%) tumours. Nuclear expression of cyclin D1 was associated with poorly differentiated tumours (p = 0.035) and was more common in right- than in left-sided tumours (p = 0.005). Tumours displaying either, expression of cytoplasmic, (p = 0.05, HR 0.56, 95% CI 0.31-1.0) or nuclear (p = 0.021, HR 0.24, 95% CI 0.07-0.81) cyclin D1 were associated with improved patient survival compared with tumours negative for cyclin D1. p21 protein was strongly expressed mainly in the upper crypts of normal colonic epithelial cells, but in 63/126 (50%) of the tumour samples studied p21 expression was absent. Patients with tumours in which >50% of cells expressed p21 had improved survival compared to patients whose tumours were negative or had < or =50% of cells expressing p21 (p = 0.06, HR 0.33, 95% CI 0.1-1.0). We also observed a significant association between cyclin D1 subcellular localisation and p21 expression: 21/22 (95.5%) tumours expressing cyclin D1 in the nucleus also expressed p21, whereas only 17/52 (32.7%) of the tumours displaying exclusive cytoplasmic cyclin D1 staining were positive for p21 (p < 0.001). These data highlight the significance of exclusive cytoplasmic expression of cyclin D1 in colorectal cancer and lend support to recent in vitro studies suggesting that p21 protein may modulate the subcellular localisation of the cyclin D1 protein. Thus, deregulated expression of the cyclin D1 and p21 proteins are important in colorectal tumourigenesis and have implications for patient prognosis.
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PMID:Subcellular localisation of cyclin D1 protein in colorectal tumours is associated with p21(WAF1/CIP1) expression and correlates with patient survival. 1149 29

Indomethacin-induced G(1) arrest and apoptosis of human colorectal cancer (CRC) cells is associated with a dose-dependent decrease in beta-catenin protein levels. Beta-catenin plays a pivotal role in the WNT signalling pathway and its expression is frequently dysregulated at early stages of colorectal carcinogenesis. The objective of this study was to investigate the effect of indomethacin on catenin expression and downstream WNT signalling events in human CRC cells. Beta-catenin, gamma-catenin and T-cell factor (TCF) target gene (cyclin D1, c-MYC and PPARdelta) expression was studied following indomethacin treatment of SW480 and HCT116 cells. Cyclin D1 was used as a model TCF target gene for analysis of beta-catenin-TCF-4 DNA binding and trans-activation. Indomethacin treatment was associated with a specific decrease in beta-catenin (but not gamma-catenin) expression. Resulting TCF target gene expression was gene specific (cyclin D1, decreased; c-MYC, increased; PPARdelta, no significant change). Cyclin D1 promoter analysis revealed that indomethacin disrupted formation of a beta-catenin-TCF-4-DNA complex. Indomethacin-induced G(1) arrest and apoptosis is associated with specific beta-catenin down-regulation in human CRC cells in vitro. Differential expression of TCF target genes following indomethacin treatment implies complex effects on multiple genes which play an important role in colorectal carcinogenesis.
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PMID:Indomethacin induces differential expression of beta-catenin, gamma-catenin and T-cell factor target genes in human colorectal cancer cells. 1175 31

The tumor suppressor p53 gene product is an essential component of the cytotoxic pathway triggered by DNA-damaging stimuli such as chemotherapeutic agents and ionizing radiation. We previously demonstrated that adenovirus-mediated wild-type p53 gene transfer could enhance the cytotoxic actions of chemotherapeutic drugs both in vitro and in vivo; however, the molecular mechanism of this chemosensitization is still unclear. Cyclin D1 is a major regulator of the progression of cells into the proliferative stage of the cell cycle. Here we show that infection with an adenovirus vector expressing the wild-type p53 gene (Ad-p53) caused an increase in cyclin D1 protein levels in human colorectal cancer cell lines DLD-1 and SW620; treatment with the anti-cancer drug adriamycin, however, down-regulated their cyclin D1 protein expression in a dose-dependent manner. The suppression of cyclin D1 expression following adriamycin treatment could be blocked by simultaneous Ad-p53 infection. Furthermore, DLD-1 and SW620 cells transfected with the cyclin D1 expression construct displayed increased sensitivity to adriamycin compared to that of the vector-transfected control. Our results suggest that ectopic wild-type p53 gene transfer results in increased cyclin D1 expression and, consequently, sensitizes human colorectal cancer cells to chemotherapeutic agents.
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PMID:p53 inhibits adriamycin-induced down-regulation of cyclin D1 expression in human cancer cells. 1179 89

The current chemotherapeutic modalities for advanced colorectal cancer are limited. DNA-platinating drugs such as cisplatin have poor efficacy against this malignancy. The aim of this study was to identify genes that render survival advantage after cisplatin treatment in metastatic colon cancer. Cell lines SW480 (primary colon cancer) and SW620 (metastatic lesion from the same patient) were obtained from ATCC. Apoptosis was measured by FACS analysis of cisplatin-treated (0.01-10 micro g/ml) and untreated cells. Simultaneous analysis of approximately 1200 cDNAs was performed by microarray technique on untreated and treated cells from lines. Microarray results were confirmed by RT-PCR. The SW620 cell line was more resistant to apoptosis induced by cisplatin. Western blot analysis revealed equal expression of pro-caspases 3, 8, and 9 in both cell lines. Microarray analysis identified 15 genes and 9 expressed sequence tags (ESTs) significantly altered both by cell type (metastatic vs. non-metastatic) and treatment vs. non-treatment. Several of these transcripts are well-characterized genes including MCT, GAD67, P19, GSTM3, Cyclin D1, ATM, and CO-029 that have been implicated in various malignancies. In the present study, we have identified a set of genes responsible for apoptosis resistance following treatment with cisplatin in the late stages of carcinogenesis. Targeting these genes may increase chemotherapy effectiveness in advanced colon cancer and reduce toxicity in normal tissue.
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PMID:Gene expression profile of metastatic colon cancer cells resistant to cisplatin-induced apoptosis. 1257 22

The purpose of this study was to evaluate the overexpression of cyclin G in colorectal neoplasia, which may be a more frequent event than cyclin D1 during the cell cycle and thus may have a more enhanced therapeutic potential in treating colorectal cancer. Ninety formalin-fixed, paraffin-embedded human colon and rectal specimens were obtained from the Pathology Department of Norris Cancer Center/University of Southern California. The tissues had been obtained after surgical resection between 1995 and 2001, and had been processed by routine clinical histopathologic methods. Ninety-one percent of colorectal tumors had cyclin G overexpression. These cyclin-positive patients were evenly distributed between men and women, and between tumor locations, that is, 36% rectal tumors and 34% right-sided tumors. Thirty-two percent were well differentiated, and 66% were moderately differentiated. Thirty patients (38%) had stage I disease, 16 (20%) had stage II disease, 25 (32%) had stage III, and seven (9%) had stage IV disease. Eight patients (10%) in this group had recurrent disease during follow-up. There was no correlation between cyclin G overexpression and clinical and pathologic characteristics. Cyclin D1 overexpression was found to be present in only 42% of colorectal adenocarcinomas. There was no correlation between cyclin D1 overexpression and clinical and pathologic characteristics. The present study demonstrates that cyclin G overexpression is a frequent event in colorectal cancer. This frequent event in colorectal carcinogenesis may facilitate new therapeutic approaches acting as a target for gene therapy, possibly directed at downregulating cyclin G in colorectal cancer.
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PMID:A better cell cycle target for gene therapy of colorectal cancer: cyclin G. 1459 62


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