Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interleukin-10-deficient mice develop colitis and colorectal cancer similar to the inflammatory bowel disease associated cancer in humans. The aim of this study was to identify possible mutations of oncogenes and tumour suppressor genes involved in tumorigenesis in Interleukin-10 (IL-10)-deficient mice. Twenty colon carcinomas from IL-10-deficient mice were screened for mutations in the K-ras and p53 genes by 'cold' single-strand-conformation polymorphism. Immunohistochemical staining was performed to detect mutations in the proteins P53, APC and MSH2, and the transforming growth factor beta type II receptor. Microsatellite instability was analysed at eight chromosomal loci and plasma levels of transforming growth factor beta1 (TGF-beta1) were also measured. At 9 weeks, 14% of the animals developed colorectal cancer, and at 10-31 weeks the incidence of carcinoma was 65%. No mutations were detected in the analysed oncogene and tumour suppressor genes. Plasma TGF-beta1 levels in IL-10-deficient mice 10-31 weeks old were higher than in wild-type littermates e.g. 45.7 +/- 4.6 ng/ml versus 19.8 +/- 4.5 ng/ml (P<0.01). No alterations in K-ras, p53, APC: and Msh2 genes suggests that other genes are involved in the development of these tumours. Elevated TGF-beta1 plasma levels correspond to the high incidence of dysplasia and cancer. Normal expression of the TGF-beta II receptors hints at genetic alterations in other members of the TGF-beta receptor signal transduction pathway.
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PMID:Interleukin-10-deficient mice and inflammatory bowel disease associated cancer development. 1128 4

The mechanisms underlying the frequent development of colorectal carcinomas in patients with ulcerative colitis (UC) are still not understood. This study was conducted to investigate whether p53 and p21 protein expressions contribute to carcinogenesis in an experimental model with dextran sulfate sodium (DSS) treatment, and to establish if this colitis model is suitable for study of cancer development in UC. A total of 40 mice were subjected to four administration cycles of 4% DSS for 7 days followed by plain water for the subsequent 14 days. The 33-surviving mice were sacrificed to examine the malignant transformation of colonic mucosa morphologically and to determine p53 and p21 expressions immunohistochemically. After DSS treatment periods, there were marked irregularities in the mucosal layer, the thickness of the entire bowel wall and the shortness of the colon. Histologically, tumors were found in 13 out of 33 (39.4%) mice. These 13 cases included 9 with a solitary lesion and 4 with double tumors. There were occurrences of invasive carcinomas in 8 lesions, high-grade dysplasia in 3 lesions and low-grade-dysplasia in 6 lesions. One presented with a polypoid tumor, 5 mm in diameter, while 16 had small flat lesions. There were 13 tumors on the left-sided colon, as opposed to 4 on the right-sided colon. Histological differentiation of invading carcinomas revealed that 6 out of 8 lesions were comprised of well differentiated adenocarcinomas, while 2 were moderately differentiated adenocarcinomas. Overexpression of p53 protein was found in 4 out of 8 invasive carcinomas, 2 out of 3 high-grade dysplasia cases and 2 out of 6 low-grade dysplasia cases, whereas only 1 out of 8 with invasive carcinoma was positive for p21. This experimental colitis model suggests that p53 and p21 protein expressions may contribute to carcinogenesis in DSS-induced colitis in mice and appears suitable to study cancer development in UC.
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PMID:Development of colonic neoplasms and expressions of p53 and p21 proteins in experimental colitis of mice induced by dextran sulfate sodium. 1171 23

We have evaluated morphologic alterations and epithelial cell apoptosis and proliferation of colonic mucosa in the acute and chronic phases of DSS-induced colitis. Colitis was induced in Sprague-Dawley rats by 7 days of 4% DSS oral administration followed by 7 days of tap water for one, two, and three cycles. Control rats receved tap water only. Morphological changes in colonic mucosa were evaluated and scored by light and scanning electron microscopy. Apoptosis was studied by TUNEL assay and cell proliferation by Ki-67 immunoreaction. The expression of both proapoptotic (Fas, FasL, Bax, p53) and antiapoptotic (Bc12) cellular proteins was determined by immunohistochemistry. Morphologic assessment showed the most severe colonic epithelial lesions and inflammation in the distal colon with a trend to increasing severity from the first to the third DSS cycle. In DSS rats, the epithelial apoptotic index increased 20-fold after the first cycle and 120-fold after the second and third cycles compared with the controls; in the same way, the expression index of proapoptotic proteins (Fas, FasL, Bax, p53) dramatically increased. The proliferative index increased about 40 to 60-fold compared to controls, with no difference among the three DSS cycles. In conclusion, DSS-induced colitis in rats, which has many structural and ultrastructural features similar to those seen in human ulcerative colitis, is a suitable model for studying increased epithelial apoptosis and proliferation. Further studies employing this model will permitt two hypotheses to be tested. (1) Increased apoptosis may lead to a breakdown of the epithelial barrier function and facilitate the mucosal invasion of intraluminal microorganisms and/or antigens. (2) Abnormal and persistent epithelial hyperproliferation could be causally related to the development of colorectal cancers in the setting of chronic colonic inflammation.
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PMID:Increased proliferation and apoptosis of colonic epithelial cells in dextran sulfate sodium-induced colitis in rats. 1214 99

Although both sporadic colorectal cancer (CRC) and colitis-associated CRC arise from dysplastic precursor lesions and share several molecular alterations, the nature of the dysplasia and the frequency and timing of several of the key molecular changes differ enough to consider colitis-associated CRC a rather unique entity. To date, cancer surveillance in both ulcerative colitis and Crohn's colitis rests upon the detection of dysplasia. However, because there are considerable limitations to the detection and interpretation of dysplasia, there is a need for other molecular markers to complement the histologic analysis of dysplasia. Because patients with inflammatory bowel disease (IBD) undergo repeated, periodic surveillance colonoscopies, it affords an opportunity to study marker expression over time. Of the few markers that have been studied chronologically, aneuploidy, p53, and mucin-associated sialyl-Tn antigen expression each hold promise as markers of CRC risk in IBD. It will be important to study whether these markers, or other panels of gene or protein expression, can identify patients at highest risk for developing CRC in future clinical studies.
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PMID:Colon carcinogenesis in inflammatory bowel disease: applying molecular genetics to clinical practice. 1270 69

To develop an efficient animal model for colitis-related carcinogenesis, male Crj: CD-1 (ICR) mice were given a single intraperitoneal administration (10 mg/kg body weight) of a genotoxic colonic carcinogen, azoxymethane (AOM), and a 1-week oral exposure (2% in drinking water) to a non-genotoxic carcinogen, dextran sodium sulfate (DSS), under various protocols. At week 20, colonic neoplasms (adenocarcinomas, 100% incidence with 5.60 +/- 2.42 multiplicity; and adenomas, 38% incidence with 0.20 +/- 0.40 multiplicity) with dysplastic lesions developed in mice treated with AOM followed by DSS. Protocols in which AOM was given during or after DSS administration induced a few tubular adenomas or no tumors in the colon. Immunohistochemical investigation of such dysplasias and neoplasms revealed that all lesions were positive for beta-catenin, cyclooxygenase-2 and inducible nitric oxide synthase, but did not show p53 immunoreactivity. The results indicate that 1-week administration of 2% DSS after initiation with a low dose of AOM exerts a powerful tumor-promoting activity in colon carcinogenesis in male ICR mice, and may provide a novel mouse model for investigating colitis-related colon carcinogenesis and for identifying xenobiotics with modifying effects.
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PMID:A novel inflammation-related mouse colon carcinogenesis model induced by azoxymethane and dextran sodium sulfate. 1461 73

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

The cytokine macrophage migration inhibitory factor (MIF) participates in fundamental events in innate and adaptive immunity. The profile of activities of MIF in vivo and in vitro is strongly suggestive of a role for MIF in the pathogenesis of many inflammatory diseases, including rheumatoid arthritis (RA), and hence antagonism of MIF is suggested as a potential therapeutic strategy in inflammatory disease. The best developed case for therapeutic antagonism of MIF is in RA. In RA, MIF is abundantly expressed in serum and synovial tissue. MIF induces synovial expression of key pro-inflammatory genes, regulates the function of endothelial cells and leucocytes, and is implicated in the control of synoviocyte proliferation and apoptosis via direct effects on the expression of the tumour suppressor protein p53. In animal models of RA, anti-MIF antibodies or genetic MIF deficiency are associated with significant inhibition of disease. A similar case has been made, for example using MIF-deficient mice, in models of atheroma, colitis, multiple sclerosis and other inflammatory diseases. The relationship with p53 also means MIF may be important in the link between inflammatory disease and cancer, such as is seen in RA or colitis. MIF also has a unique relationship with glucocorticoids, in that despite antagonizing their effects, the expression of MIF is in fact induced by glucocorticoids. Thus, MIF functions as a physiological counter-regulator of the anti-inflammatory effects of glucocorticoids. This may be entrained by selective activation of mitogen-activated protein kinases rather than nuclear factor kappa B. Therapeutic MIF antagonism may therefore provide a specific means of 'steroid sparing'. Exploitation of antibody, soluble receptor or small molecule technologies may soon lead to the ability to test in the clinic the importance of MIF in human inflammatory diseases.
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PMID:New therapeutic target in inflammatory disease: macrophage migration inhibitory factor. 1595 13

Poly(ADP-ribosyl) ation is a reversible post-translational protein modification implicated in the regulation of a number of biological functions. Whereas an 18 member superfamily of poly(ADP-ribose) polymerase (PARP) enzymes synthesize poly(ADP-ribose) (PAR), a single protein, PAR glycohydrolase (PARG) is responsible for the catabolism of the polymer. PARP-1 accounts for more than 90% of the poly(ADP-ribosyl)ating capacity of the cells. PARP-1 activated by DNA breaks cleaves NAD(+) into nicotinamide and ADP-ribose and uses the latter to synthesize long branching PAR polymers covalently attached to acceptor proteins including histones, DNA repair enzymes, transcription factors and PARP-1. Whereas activation of PARP-1 by mild genotoxic stimuli may facilitate DNA repair and cell survival, irreparable DNA damage triggers apoptotic or necrotic cell death. In apoptosis, early PARP activation may assist the apoptotic cascade [e.g. by stabilizing p53, by mediating the translocation of apoptosis inducing factor (AIF) from the mitochondria to the nucleus or by inhibiting early activation of DNases]. In most severe oxidative stress situations, excessive DNA damage causes over activation of PARP-1, which incapacitates the apoptotic machinery and switches the mode of cell death from apoptosis to necrosis. Besides serving as a cytotoxic mediator, PARP-1 is also involved in transcriptional regulation, most notably in the NF kappaB and AP-1 driven expression of inflammatory mediators. Pharmacological inhibition or genetic ablation of PARP-1 provided remarkable protection from tissue injury in various oxidative stress-related disease models ranging from stroke, diabetes, diabetic endothelial dysfunction, myocardial ischemia-reperfusion, shock, Parkinson's disease, arthritis, colitis to dermatitis and uveitis. These beneficial effects are attributed to inhibition of the PARP-1 mediated suicidal pathway and to reduced expression of inflammatory cytokines and other mediators (e.g. inducible nitric oxide synthase).
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PMID:Structure and function of poly(ADP-ribose) polymerase-1: role in oxidative stress-related pathologies. 1602 17

Radiotherapy for malignant pelvic disease is often followed by acute radiation colitis (ARC). It has been reported that sucralfate treatment has a protective effect against ARC, though the mechanisms of action are unknown. The effects of sucralfate on X-ray radiation-induced apoptosis was studied at 4 Gy in the colonic crypt cells of rats. Sucralfate enemas given prior to radiation resulted in the following: (1) reduction in number of apoptotic colonic crypt cells; (2) reduction in number of caspase-3 positive cells; (3) decreases in p53 accumulation and p21 expression; (4) decreases of Bax/Bcl-2 ratio. The protective effects of sucralfate against ARC may be partially due to the suppression of radiation-induced apoptosis by way of p53 in the colon and the protection of the colonic epithelial stem cell region.
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PMID:Sucralfate protects intestinal epithelial cells from radiation-induced apoptosis in rats. 1657 13

Pathogenic mechanisms responsible for inflammatory bowel disease (IBD) are poorly understood. In an IBD animal model, the oral administration of polysaccharides such as dextran sulfate sodium (DSS) induces colitis, which exhibit several clinical and histological features for IBD. However, pathogenic factors in the development of colitis remain unclear. Therefore, we investigated possible mechanisms for DSS-induced colitis, and mainly focused on biological responses from an intestinal epithelial cell line, Caco-2. Cytotoxicity and cytokine release were measured using MTS assays and ELISA, respectively. The effect of DSS on the transepithelial electrical resistance (TEER) of Caco-2 cell monolayers was also evaluated. Cell cycle progression was estimated using antibodies directed against p53 and cdc-2 proteins. The generation of reactive oxygen species (ROS) was measured using a DCFH-DA method. Pyridylamino-DSS (PA-DSS) was used as a fluorometric label in order to investigate fluorescence-microscopically the location of DSS in Caco-2 cells. DSS induced cytotoxicity on Caco-2 cells at 5%. DSS also induced strong TEER decrease at 3%. DSS induced the weak release of IL-8, IL-6, and TGF-beta1. Remarkably DSS arrested Caco-2 cell cycle and reduced the intracellular generation of ROS. Under fluorescence microscopy, PA-DSS entered cells and bound to the nucleus, indicating this binding of DSS may be involved in the cell cycle arrest of Caco-2 cells. The cell cycle arrest and reduced intracellular generation of ROS may be involved during initiation or throughout the early stages of DSS-induced colitis.
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PMID:In vitro effects of dextran sulfate sodium on a Caco-2 cell line and plausible mechanisms for dextran sulfate sodium-induced colitis. 1708 61


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