UMLS:C0009402 - FACTA Search

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

In the third millennium preventive medicine is becoming a corner stone in our concept of health. Colorectal cancer (CRC) prevention, in particular, has become an important goal for health providers, physicians and the general public. CRC fits the criteria of a disease suitable for chemopreventive interventions. It is a prevalent disease that is associated with considerable mortality and morbidity rates, with more than 1,000,000 new cases and 500,000 deaths expected, worldwide, in 2004. CRC has a natural history of transition from precursor to malignant lesion that spans, on average, 15-20 years, providing a window of opportunity for effective interventions and prevention. A pre-malignant precursor lesion (i.e., adenoma) usually precedes cancer, and helps to identify a subset of the population that is at increased risk of harbouring and developing cancer. Science and technology have evolved to a point where we are able to use our knowledge of cancer biology to identify individuals at risk and interrupt the process of malignant transformation at the level of the pre-cancerous lesion. Recent progress in molecular biology and pharmacology enhances the likelihood that cancer prevention will increasingly rely on chemoprevention. Chemoprevention, a new emerging science, means the use of agents to inhibit, delay or reverse carcinogenesis. Recent observations suggest a number of potential targets for chemoprevention. Many agents have potential benefit, but only modest chemopreventive efficacy in clinical trials. There is much evidence suggesting an inverse relationship between aspirin or NSAIDs consumption and CRC incidence and mortality. However, NSAID consumption is not problem-free, as 1997 data showed 107,000 hospitalisations and 16,500 deaths due to NSAIDs consumption in the US alone. Therefore, although chemoprevention of CRC is already possible, drugs that have more acceptable side-effect profiles than the currently available NSAIDs are required. COX-2-specific inhibitors, which have an improved safety profile, as compared to traditional NSAIDs that inhibit both the COX-1 and COX-2 enzymes, seem to be well suited drug candidates for CRC prevention. The inhibition of the growth of pre-cancerous and cancerous cells without affecting normal cells is the ultimate aim of cancer treatment and is of particular importance in chemoprevention studies, which may be long term in nature, involve healthy subjects and minimal toxicity. Cancer prevention is certain to be a significant focus of research and intervention in the coming years, propelled by the realization that we will be able to identify both individuals susceptible to specific cancers as well as the molecular targets that can alter or stop the carcinogenesis process. Pharmacology and genetics are collaborating to develop new chemoprevention agents designed to affect molecular targets linked to specific pre-malignant or predisposing conditions.
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PMID:Chemoprevention of colorectal cancer: ready for routine use? 1597 46

Cyclooxygenase (COX), the key regulatory enzyme for prostaglandin synthesis, is transcribed from two distinct genes. COX-1 is expressed constitutively in most tissues whereas COX-2 is induced by a wide variety of stimuli and was initially identified as an immediate-early growth response gene. In addition, COX-2 expression is markedly increased in 85-90% of human colorectal adenocarcinomas while COX-1 levels remain unchanged. Several epidemiological studies have reported a 40-50% reduction in the risk of developing colorectal cancer in persons who chronically take non-steroidal anti-inflammatory drugs (NSAIDs) such as aspirin, which are classic inhibitors of COX. Genetic evidence also supports a role for COX-2, since mice null for COX-2 have an 86% reduction in tumour multiplicity in a background containing a mutated APC allele. These results strongly suggest that COX-2 contributes to the development of intestinal tumours and that inhibition of COX is chemopreventative. It is hoped that the chemopreventative effects of NSAIDs will be enhanced by the recent development of COX-2-specific inhibitors.
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PMID:The role of COX-2 in intestinal cancer. 1599 53

There is strong evidence for an important role for increased COX (cyclo-oxygenase)-2 expression and PG (prostaglandin) E2 production in colorectal tumorigenesis. PGE(2) acts through four E-prostanoid receptors (EP1-4). COX-2 has therefore become a target for the potential chemoprevention and therapy of colorectal cancer. However, any therapeutic/preventive strategy has the potential to have an impact on physiological processes and hence result in side effects. General COX (COX-1 and -2) inhibition by traditional NSAIDs (non-steroidal anti-inflammatory drugs), such as aspirin, although chemopreventive, has some side effects, as do some conventional COX-2-selective NSAIDs. As PGE2 is thought to be the major PG species responsible for promoting colorectal tumorigenesis, research is being directed to a number of protein targets downstream of COX-2 that might allow the selective inhibition of the tumour-promoting activities of PGE2, while minimizing the associated adverse events. The PGE synthases and E-prostanoid receptors (EP1-4) have therefore recently attracted considerable interest as potential novel targets for the prevention/therapy of colorectal cancer. Selective (and possibly combinatorial) inhibition of the synthesis and signalling of those PGs most highly associated with colorectal tumorigenesis may have some advantages over COX-2-selective inhibitors.
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PMID:Prospects in NSAID-derived chemoprevention of colorectal cancer. 1604 70

Cyclooxygenases catalyze the initial, rate-limiting steps of prostaglandin synthesis from arachidonic acid. Two isoforms of this enzyme exist in mammalian and avian species: COX-1 and COX-2. COX-1 is constitutively expressed and is the major isoform of gastrointestinal tissue. COX-2 is induced in response to inflammatory stimuli. COX-2 has been implicated in carcinogenesis of several neoplasms. Furthermore, COX-2 over-expression has been noted in many solid tumours and has been correlated with a worse prognosis in colorectal cancer, non-small-cell lung cancer, mesothelioma and gastric cancer. In this review, the most recent findings on the mechanisms by which COX-2 promote tumorigenesis are discussed, with particular emphasis on the studies involving spontaneous canine neoplasms.
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PMID:COX-2 overexpression in canine tumors: potential therapeutic targets in oncology. 1613 11

While brown rice is a staple dietary constituent in Asia, rice consumed in the Western world is generally white, obtained from brown rice by removal of the bran. Rice bran contains the flavone tricin, which has been shown to inhibit colon cancer cell growth. We tested the hypothesis that tricin interferes with adenoma formation in the Apc(Min) mouse. Mice received tricin (0.2%) in their American Institute of Nutrition 93G diet throughout their postweaning life span (4-18 weeks). Consumption of tricin reduced numbers of intestinal adenomas by 33% (P < 0.05) compared with mice on control diet. We explored whether tricin may exert its effect via inhibition of cyclooxygenase (COX) enzymes. Its effect on COX activity was assessed in purified enzyme preparations in vitro and its ability to reduce prostaglandin E(2) (PGE(2)) levels in human colon-derived human colon epithelial cell (HCEC) and HCA-7 cells in vitro and in Apc(Min) mice in vivo. Tricin inhibited activity of purified COX-1 and COX-2 enzyme preparations with IC(50) values of approximately 1 micromol/L. At 5 micromol/L, it reduced PGE(2) production in HCEC or HCA-7 cells by 36% (P < 0.01) and 35% (P < 0.05), respectively. COX-2 expression was reduced by tricin weakly in HCEC and unaffected in HCA-7 cells. PGE(2) levels in the small intestinal mucosa and blood of Apc(Min) mice that had received tricin were reduced by 34% (P < 0.01) and 40% (P < 0.05), respectively, compared with control mice. The results suggest that tricin should be further evaluated as a putative colorectal cancer chemopreventive agent.
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PMID:The rice bran constituent tricin potently inhibits cyclooxygenase enzymes and interferes with intestinal carcinogenesis in ApcMin mice. 1617 19

Carcinoma of the colon or rectum represents one of the most common malignancies worldwide with a higher prevalence in industrialized regions. Epidemiologic studies of individuals taking non-steroidal anti-inflammatory drugs (NSAIDs) have shown a significant reduction in colorectal cancer (CRC) mortality compared to those individuals not receiving these agents. NSAIDs inhibit the enzymatic activity of both isoforms of cyclooxygenase (COX-1 and COX-2), while COX-2-selective inhibitors have shown some efficacy in reducing polyp formation. COX-2-derived bioactive lipids, including the primary prostaglandin (PG) generated in colorectal tumors, PGE(2), are known to stimulate cell migration, proliferation and tumor-associated neovascularization while inhibiting cell death. Here we briefly review the role of NSAIDs in preventing CRC, as well as the proposed mechanism by which a COX-2-derived PG, PGE(2), promotes colon cancer.
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PMID:Mechanisms for the prevention of gastrointestinal cancer: the role of prostaglandin E2. 1621 Aug 74

This review was designed to show the role of expression of cyclooxygenase (COX)-1 and COX-2 in the cancerogenesis of esophagus, stomach and colon. Unlike COX-1, which is expressed in the normal esophago-gastro-colonic mucosa, COX-2 was found to be expressed mainly in the pre-cancer changes in the mucosa including Barrett's esophagus, Helicobacter pylori (H. pylori)-induced gastritis and inflammatory changes in colonic mucosa. In Barrett's esophagus, prostaglandins (PGs) derived from upregulated COX-2 contribute to the progression of low-grade to high-grade dysplasia and finally to cancer. In chronic gastritis induced by chronic H. pylori infection, overexpression of COX-2 is probably induced by inflammatory cytokines, growth factors, especially gastrin and reactive oxygen species leading to mutagenesis and subsequent metaplasia, dysplasia and cancer formation. The imbalance between cell proliferation and apoptosis caused mainly by products of COX-2 leads to cancerogenesis. Similarly, in colorectal cancer the overexpression of COX-2, possibly induced by the action of growth promoting factors including progastrin and gastrin and overexpression of survivin contribute to the colorectal cancerogenesis that could be, at least in part, amended by the treatment with specific COX-2 inhibitors. We conclude that: 1) COX-2-derived PGs play a key role in the tumorigenesis in the gastrointestinal tract; 2) The tumor-promoting effect of PGs may be attributed to their ability to stimulate cell proliferation and migration, to inhibit the apoptosis and to increase angiogenesis and invasiveness; 3) In accordance to the proposed major role of COX-2 in cancerogenesis, selective COX-2 inhibitors have been shown in numerous studies to exhibit strong chemopreventive effect on the development of gastrointestinal cancers.
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PMID:Prostaglandins as mediators of COX-2 derived carcinogenesis in gastrointestinal tract. 1624 89

Several in vitro and in vivo studies have demonstrated an association between curcumin, a diferuloylmethane derived from the plant Curcuma longa, and colorectal cancer (CRC) prevention. Nevertheless, the molecular mechanism responsible for the chemopreventive effect of curcumin is not well understood and most probably involves several pathways. Several studies indicate that curcumin may exert its effect by specifically inhibiting the cyclooxygenase-2 (COX-2) isoenzyme, which is up-regulated in 40 to 50% of colorectal polyps and in up to 85% of CRCs. However, other studies have suggested that curcumin may also inhibit polyps formation by COX-2 independent mechanisms (eg, inhibition of ErbB-1, AkT). The aim of this study was to evaluate whether curcumin's effect on the inhibition of cell growth and induction of apoptosis in human colon carcinoma cell lines is correlated with inhibition of PGE2 synthesis and down-regulation of COX-2. HT29 cells (expressing COX-2) and SW480 (deficient of COX-2) were exposed to different concentrations (0-50 microM) of curcumin for 72 hours. Growth inhibition was assessed by Coulter counter. Cell viability was assessed by the ability of metabolically active cells to reduce tetrazolium salt to colored formazan compounds (tetrazolium salt assay). Apoptosis was measured by two independent methods: flow cyto-metric analysis and 4'-6-Diamidino-2-phenylindole (DAPI) staining. Activity of COX-2 was evaluated by measuring prostaglandin E2 (PGE2) concentration using a specific enzyme-linked immunoassay. COX-1 and COX-2 expressions were measured by Western blot analysis. There was a significant difference between curcumin effect on COX-2-expressing (HT29: inhibitory concentration 50% [IC50] = 15 microM) and COX-2-deficient (SW480: IC50 = 40 microM) cells. Similarly, induction of apoptosis was higher in cells expressing COX-2. Western blot analysis and PGE2 immunoassay showed that curcumin inhibited COX-2 protein activity and expression in a dose-dependent manner. In conclusion, inhibition of cell survival and induction of apoptosis by curcumin in colorectal adenocarcinoma cell lines is associated with the inhibition of PGE2 synthesis and down-regulation of COX-2.
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PMID:Down-regulation of prostaglandin E2 by curcumin is correlated with inhibition of cell growth and induction of apoptosis in human colon carcinoma cell lines. 1673 69

Colorectal cancer is a major cause of mortality and whilst up to 80% of sporadic colorectal tumours are considered preventable, trends toward increasing obesity suggest the potential for a further increase in its worldwide incidence. Novel methods of colorectal cancer prevention and therapy are therefore of considerable importance. Non-steroidal anti-inflammatory drugs (NSAIDs) are chemopreventive against colorectal cancer, mainly through their inhibitory effects on the cyclooxygenase isoform COX-2. COX enzymes represent the committed step in prostaglandin biosynthesis and it is predominantly increased COX-2-mediated prostaglandin-E2 (PGE2) production that has a strong association with colorectal neoplasia, by promoting cell survival, cell growth, migration, invasion and angiogenesis. COX-1 and COX-2 inhibition by traditional NSAIDs (for example, aspirin) although chemopreventive have some side effects due to the role of COX-1 in maintaining the integrity of the gastric mucosa. Interestingly, the use of COX-2 selective NSAIDs has also shown promise in the prevention/treatment of colorectal cancer while having a reduced impact on the gastric mucosa. However, the prolonged use of high dose COX-2 selective inhibitors is associated with a risk of cardiovascular side effects. Whilst COX-2 inhibitors may still represent viable adjuvants to current colorectal cancer therapy, there is an urgent need to further our understanding of the downstream mechanisms by which PGE2 promotes tumorigenesis and hence identify safer, more effective strategies for the prevention of colorectal cancer. In particular, PGE2 synthases and E-prostanoid receptors (EP1-4) have recently attracted considerable interest in this area. It is hoped that at the appropriate stage, selective (and possibly combinatorial) inhibition of the synthesis and signalling of those prostaglandins most highly associated with colorectal tumorigenesis, such as PGE2, may have advantages over COX-2 selective inhibition and therefore represent more suitable targets for long-term chemoprevention. Furthermore, as COX-2 is found to be overexpressed in cancers such as breast, gastric, lung and pancreatic, these investigations may also have broad implications for the prevention/treatment of a number of other malignancies.
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PMID:Mediators of PGE2 synthesis and signalling downstream of COX-2 represent potential targets for the prevention/treatment of colorectal cancer. 1685 32

The importance of prostaglandins in tumor growth and progression is well recognized, including antineoplastic activities by cyclooxygenase (COX) inhibitors. Variation in treatment response to COX inhibition has questioned differences in expression of cell surface and nuclear membrane receptors among tumors with different disease progression. The purpose of this study was to evaluate whether EP(1-4) subtype, PPAR gamma receptor and COX-1/COX-2 expression in colorectal cancer are related to tumor-specific mortality. Reverse transcription-polymerase chain reaction and immunohistochemistry were used to demonstrate expression and protein appearance in tumor tissue compared with normal colon tissue. EP(1) and EP(2) subtype receptor protein was highly present in tumor cells, EP(3) occurred occasionally and EP(4) was not visible. PPAR gamma, EP(2) and EP(4) mRNA were significantly higher in normal colon tissue compared with tumor tissue, without any distinct relationship to Dukes A-D tumor stage. Multivariate analyses indicated that increased tumor tissue EP(2) and COX-2 expression predicted poor survival (p<0.001). COX-1 expression was significantly higher than COX-2 expression in normal colon tissue. Average COX-2 mRNA was not increased in tumor tissue compared with normal colon. However, most tumor cells stained positive for COX-2 protein, which was low or undetectable in normal mucosa cells. COX-1 protein was preferentially visible in stroma. EP(1-4) subtype receptor mRNAs were generally positively correlated to both COX-1 and COX-2 in tumor tissue, but not in normal colon. Our results imply that both prostaglandin production (COX-2) and signaling via EP(1-4) subtype receptors, particularly EP(2), predict disease-specific mortality in colorectal cancer.
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PMID:EP1-4 subtype, COX and PPAR gamma receptor expression in colorectal cancer in prediction of disease-specific mortality. 1729 Mar 97

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