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)

Hypersensitivity to serotonin (5-HT) develops in rabbit collared carotid arteries. Previous data demonstrated the involvement of 5-HT(1)-like receptors which are not active in normal carotid arteries. This study investigated the interaction in the rabbit carotid artery between 5-HT and a moderate tone as this can uncover functional 5-HT(1)-like receptors. Furthermore, the expression of messenger RNA (mRNA) and protein of 5-HT(1B), 5-HT(1D) and 5-HT(2A) receptors was addressed. Silicone collars were placed around the carotid arteries of male New Zealand White rabbits for 1 week. Rings from inside (=collar) and outside (=sham) the collar were either mounted in isolated organ baths for isometric force measurements or frozen in liquid nitrogen to isolate total RNA or proteins which were subsequently analysed by respectively reverse transcriptase-polymerase chain reaction and Western blot analysis. In sham and collared rings concentration-response curves (CRC's) to 5-HT were monophasic. Only in collared segments the presence of a 5-HT(2A) antagonist (spiperone or ketanserin, 0.1 microM) revealed a biphasic CRC which was even more pronounced when a moderate tone was induced by KCl pointing to functional 5-HT(1)-like receptors. The rabbit carotid artery constitutively expressed 5-HT(1B) and 5-HT(2A) mRNA, not 5-HT(1D) mRNA. Manipulation of the carotid artery increased the 5-HT(1B) mRNA level. Collar placement raised it even further. The 5-HT(2A) mRNA level remained unchanged. All the anti-5-HT receptor antibodies tested resulted in variable, non specific patterns with multiple bands. In conclusion, collar placement elevates mRNA expression and activity of the 5-HT(1B) receptor in the rabbit carotid artery.
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PMID:Collar-induced elevation of mRNA and functional activity of 5-HT(1B) receptor in the rabbit carotid artery. 1113 52

Low-digestible carbohydrates represent a class of enzyme-resistant saccharides that have specific effects on the human gastrointestinal tract. in the small bowel, they affect nutrient digestion and absorption, glucose and lipid metabolism and protect against known risk factors of cardiovascular disease. In the colon they are mainly degraded by anaerobic bacteria in a process called fermentation. As a consequence, faecal nitrogen excretion is enhanced, which is used clinically to prevent or treat hepatic encephalopathy. Low-digestible carbohydrates are trophic to the epithelia of the ileum and colon, which helps to avoid bacterial translocation. Short-chain fatty acids are important fermentation products and are evaluated as new therapeutics in acute colitis. They are considered in the primary prevention of colorectal cancer. The bifidogenic effect of fructo-oligosaccharides merits further attention, Unfermented carbohydrates increase faecal bulk and play a role in the treatment of chronic functional constipation, symptomatic diverticulosis and, possibly, the irritable bowel syndrome. In conclusion, low-digestible carbohydrates may play a role in the maintenance of human digestive health. However, the strength of evidence differs between disease entities.
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PMID:Beneficial health effects of low-digestible carbohydrate consumption. 1132 Oct 25

Until recently, the treatment of non-small cell lung cancer (NSCLC) was limited to the cisplatin combinations, including a small number of cytotoxic drugs. More recently, combinations with taxanes and gemcitabine have slightly improved outcome. However, when the literature is revisited, it can be realized that older drugs such as nitrogen mustard have some degree of activity in NSCLC, traditionally considered a chemoresistant tumor. However, drugs that are mostly ineffective when used as single agents, such as 5-fluorouracil (5-FU), have significant activity when combined with cisplatin in the treatment of patients with NSCLC. 5-FU constitutes the backbone of chemotherapy for colorectal cancer patients. 5-FU is equally interesting because it permits investigation of thymidylate synthase (TS) levels as a genetic target for predicting response and survival. The assessment of TS levels and ERCC1 as a marker of cisplatin resistance is leading to customized chemotherapy. The possibility of discriminating cisplatin resistance is particularly attractive in choosing between cisplatin and non-cisplatin combinations in the treatment of NSCLC. We have reviewed phase I and II studies of pemetrexed in NSCLC. The response rate is approximately 20% with single-agent pemetrexed and approximately 40% in combination with cisplatin. This combination has mild to moderate toxicity. Other synergistic combinations that should be explored include pemetrexed with gemcitabine, CPT-11, docetaxel, carboplatin, or oxaliplatin. In the future, pharmacogenomically oriented chemotherapy trials should be undertaken based on the accumulated evidence that several genetic markers, such as ERCC1, beta-tubulin mutations, and loss of heterozygosity in the region of the enzyme ribonucleotide reductase, can predict resistance to cisplatin, taxanes, or gemcitabine, respectively. Mechanisms of resistance to pemetrexed need to be investigated, including the potential role of TS messenger RNA. In summary, pemetrexed has emerged as a promising new cytotoxic drug in the arsenal of chemotherapy treatments for NSCLC.
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PMID:Pemetrexed combination therapy in the treatment of non-small cell lung cancer. 1202 89

p53 suppressor gene mutations are a well known step which occurs in the late stages of the complex tumourigenesis of colorectal cancer. A deregulation of p53 protein function may be associated with increased neovascularization and aggressive tumour growth. In vitro studies have shown that these genetic alterations cause a loss of wild-type p53-induced anti-angiogenetic control and could possibly induce expression of the neoangiogenic vascular endothelial growth factor (VEGF). Therefore, this in vivo study was performed to assess p53 mutations, i.e. hot spots in exons 4-9, in primary colorectal cancers and in corresponding liver metastases in order to test whether there is an association between p53 mutated tumours with increased microvessel density (MVD) and VEGF overexpression. Twenty-two tissue samples taken from primary colorectal cancers and the corresponding liver metastases were immediately snap-frozen in liquid nitrogen and fixed in formaldehyde. After DNA extraction exons 4-9 were amplified and directly sequenced. Cryostat sections were stained immunohistochemically using antibodies against VEGF, CD34, and p53 protein. A modified semiquantitative Weidner score and interactive computerized image analysis was used to assess MVD. Overexpression of immunohistochemically detected p53 protein was found in 7 of the 11 primary tumours and liver metastases (64%). Sequencing showed 3 out of 11 primary tumours (27%) and 5 out of 11 liver metastases (46%) to have p53 point or frameshift mutations; these samples tested immunohistochemically positive for p53 protein. Two p53 mutations in samples of liver metastases were not detectable in the corresponding primaries. We detected one frameshift mutation in exon 4 that has not yet been described in the literature. Tumour samples with p53 mutations and increased VEGF immunoreactivity were associated with higher MVD (p<0.01 and p<0.05, respectively). However, there was no association detected immunohistochemically between p53 and MVD as well as p53 mutations and VEGF overexpression. Our data demonstrate specific genetic alterations in the coding regions of p53 suppressor gene in both primary colorectal cancers and corresponding liver metastases, these alterations are associated with an increase in MVD, but not in VEGF overexpression. In addition, a novel frameshift mutation in both colorectal cancer and metastasis is described.
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PMID:Association of p53 mutations, microvessel density and neoangiogenesis in pairs of colorectal cancers and corresponding liver metastases. 1211 17

Molecular pathways to colorectal cancer involve multiple genetic changes, whereby extensive oxyradical damage causes mutations in cancer-related genes and leads to a cycle of cell death and regeneration. Besides direct oxidative DNA-damage, reactive oxygen and nitrogen species can induce etheno (epsilon)-DNA adducts mainly via trans-4-hydroxy-2-nonenal, generated as the major aldehyde by lipid peroxidation (LPO) of omega-6 PUFAs. Patients with familial adenomatous polyposis (FAP) develop multiple colorectal adenomas. In affected tissues increased LPO could be triggered due to increased arachidonic acid metabolism as a result of elevated cyclooxygenases. Our studies demonstrated an increased epsilon-DNA adduct level in affected colon epithelia of FAP patients. Epsilon-DNA adducts are promutagenic and can cause genomic instability that drives colorectal adenoma to malignancy. We have further investigated the potential chemopreventive properties of olive oil and its polyphenolic components. 'Mediterranean diet', of which olive oil is a major fatty acid source, has protective effects against human breast and colorectal cancers. Olive oil extracts and the newly identified lignan fractions showed high antioxidant capacity in vitro. As epsilon-DNA adducts are biomarkers for oxidative stress and LPO induced DNA damage, they can verify the efficacy of newly identified antioxidants, e.g. from olive oil, as chemopreventive agents against colon carcinogenesis.
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PMID:Exocyclic DNA adducts as oxidative stress markers in colon carcinogenesis: potential role of lipid peroxidation, dietary fat and antioxidants. 1222 81

Red meat increases colonic N-nitrosation, and this may explain the positive epidemiological relationship between red meat intake and colorectal cancer risk. Vegetables, tea, and soy have been shown to block N-nitroso compound (NOC) formation and are associated with protection against colorectal cancer. To determine whether these supplements affect fecal NOC excretion during consumption of a high red meat (420 g/day) diet, 11 male volunteers were studied over a randomized series of 15-day dietary periods. Seven of these subjects completed a further dietary period to test the effects of soy (100 g/day). Soy significantly suppressed fecal apparent total NOC (ATNC) concentration (P = 0.02), but supplements of vegetables (400 g/day as 134 g broccoli, 134 g brussels sprouts, and 134 g petits pois) and tea extract (3 g/day) did not affect mean levels of fecal ATNC, nitrogen and ammonia excretion, and fecal water genotoxicity. However, fecal weight was increased (P < 0.001) and associated with reduced transit time (r = 0.594, P < 0.0001), so that contact between ATNC, nitrite, and ammonia and the large bowel mucosa would have been reduced. Longer transit times were associated with elevated fecal ATNC concentrations (r = 0.42, P = 0.002). Fecal nitrite was significantly suppressed during the tea supplement compared with the meat-only (P = 0.0028) and meat + vegetables diets (P = 0.005 for microgram NO2/g).
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PMID:Effect of vegetables, tea, and soy on endogenous N-nitrosation, fecal ammonia, and fecal water genotoxicity during a high red meat diet in humans. 1223 53

Molecular pathways to colorectal cancer involve multiple genetic changes that may be caused by overproduction of reactive oxygen species in cancer-related genes. Our aim was to investigate, whether besides direct oxidative DNA damage, reactive oxygen and nitrogen species induce lipid peroxidation (LPO) that could yield etheno-DNA adducts via trans-4-hydroxy-2-nonenal, a major aldehyde generated by LPO, in colon tissue. We analyzed the etheno-DNA adducts by a highly specific, ultrasensitive method involving immunoaffinity chromatography coupled with 32P-postlabelling [Carcinogenesis 16 (1995) 613] in affected colon epithelium from ulcerative colitis, Crohn's disease and familial adenomatous polyposis (FAP) and compared them with asymptomatic colon tissue. In all these cancer prone colon tissues, the formation of markedly enhanced etheno adduct levels was demonstrated for the first time. Etheno-DNA adducts are promutagenic and cause genomic instability that could drive the inflamed colonic epithelia to malignancy. Etheno-DNA adducts appear promising biomarkers for (i) quantifying increased DNA damage in early stages of colon carcinogenesis and for (ii) verifying the efficacy of new antioxidants (e.g. [Lancet Oncol. 1 (2000) 107]) and chemopreventive agents in lowering oxidative stress and related cancer risk.
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PMID:Potential role of lipid peroxidation derived DNA damage in human colon carcinogenesis: studies on exocyclic base adducts as stable oxidative stress markers. 1243 Jun 35

Patients with ulcerative colitis and Crohn's disease are at increased risk for developing colorectal cancer. To date, no known genetic basis has been identified to explain colorectal cancer predisposition in these inflammatory bowel diseases. Instead, it is assumed that chronic inflammation is what causes cancer. This is supported by the fact that colon cancer risk increases with longer duration of colitis, greater anatomic extent of colitis, the concomitant presence of other inflammatory manifestations such as primary sclerosing cholangitis, and the fact that certain drugs used to treat inflammation, such as 5-aminosalicylates and steroids, may prevent the development of colorectal cancer. The major carcinogenic pathways that lead to sporadic colorectal cancer, namely chromosomal instability, microsatellite instability, and hypermethylation, also occur in colitis-associated colorectal cancers. Unlike normal colonic mucosa, however, inflamed colonic mucosa demonstrates abnormalities in these molecular pathways even before any histological evidence of dysplasia or cancer. Whereas the reasons for this are unknown, oxidative stress likely plays a role. Reactive oxygen and nitrogen species produced by inflammatory cells can interact with key genes involved in carcinogenic pathways such as p53, DNA mismatch repair genes, and even DNA base excision-repair genes. Other factors such as NF-kappaB and cyclooxygenases may also contribute. Administering agents that cause colitis in healthy rodents or genetically engineered cancer-prone mice accelerates the development of colorectal cancer. Mice genetically prone to inflammatory bowel disease also develop colorectal cancer especially in the presence of bacterial colonization. These observations offer compelling support for the role of inflammation in colon carcinogenesis.
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PMID:Inflammation and cancer IV. Colorectal cancer in inflammatory bowel disease: the role of inflammation. 1519 58

Animal studies have shown conclusively that feeding of resistant starch (RS) increases production of large bowel total short-chain fatty acids (SCFAs). However, fermentation products of RS may be affected considerably by other dietary ingredients. In rats fed a 20% high-amylose cornstarch (HAS) with casein as the sole protein source, greater cecal SCFAs production was observed compared with that in rats fed a regular cornstarch diet. However, with this diet, the cecal succinate production was also very high. In contrast, when rice or potato protein with lower digestibility was used in place of casein, cecal succinate production decreased with a concomitant increase in butyrate. These observations suggest that nondigested protein, namely resistant protein, might play a role in correcting an imbalance in the ratio of carbohydrate and nitrogen as fermentative substrates for cecal bacteria and in promoting butyrate production. Epidemiological and biochemical data indicate a possible linkage between the fermentation products of starch (butyrate in particular) and the prevention of colorectal cancer as well as ulcerative colits. Accordingly, a fermentation strategy of RS favoring SCFA production should be established to elucidate the potentially beneficial effects of SCFAs on large bowel physiology.
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PMID:Physiological functions of resistant proteins: proteins and peptides regulating large bowel fermentation of indigestible polysaccharide. 1528 81

Chronic inflammation has long been recognized as a risk factor for human cancer at various sites. Examples include Helicobacter pylori-induced gastritis for gastric cancer, inflammatory bowel disease (ulcerative colitis and Crohn's disease) for colorectal cancer and chronic viral hepatitis for liver cancer. Here we review the role in carcinogenesis of nitrative damage to nucleic acids, DNA and RNA, which occurs during inflammation through the generation of reactive nitrogen species, such as peroxynitrite, nitroxyl, and nitrogen dioxide. Enhanced formation of 8-nitroguanine, representative of nitrative damage to nucleobases, has been detected in various inflammatory conditions. The biochemical nature of DNA damage mediated by reactive nitrogen species is discussed in relation to its possible involvement in mutations, genetic instability, and cell death. Better understanding of the mechanisms and role of such nitrative damage in chronic inflammation-associated human cancer is a necessary basis to develop new strategies for cancer prevention by modulating the process of inflammation.
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PMID:Nitrative DNA damage in inflammation and its possible role in carcinogenesis. 1609 98

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