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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gastrointestinal epithelium is known to undergo constant and rapid renewal resulting in millions of cells being shed into the fecal stream every day. The conventional wisdom was that these cells disintegrate upon exfoliation and will not survive the transit through the intestinal tract. In 1990, we (P.N.) made the discovery that a significant number of these cells remain intact and viable and that they can be isolated. The implications of this important discovery became apparent when we demonstrated that these cells are exclusively of colonic origin, are anatomically representative of the entire colon, and can be used for clinical investigations of disease processes. The term coprocytobiology (CCB) was coined to encompass the broad range of applications of this new technology. The somatic cell sampling and recovery (SCSR) process involves the isolation of exfoliated colonocytes from a small sample of stool ( approximately 1 g) collected and transported in a unique medium at ambient temperature, providing cells for the detection of a number of biomarkers of disease propensity. These exfoliated colonocytes express cytokeratins indicating epithelial lineage as well as colon-specific antigen. Over the years, the study of exfoliated colonocytes has provided striking new insights into the biology of colon cancer and inflammatory bowel disease, including detection of p53 gene mutations, reverse transcriptase polymerase chain reaction amplification, and identification of CD44 splice variants, neoplasia-associated specific binding of plant lectins, and expression of COX-2, the inducible form of cyclooxygenase. The functional diversity of cells isolated by SCSR is revealed by the demonstration of cell surface markers such as secretory component, IgA, and IgG on the one hand and the amplification and cloning of the human insulin receptor and the expression of the multidrug resistance gene mdr-1 on the other hand. This review portrays the immense potential of CCB as a powerful tool for investigating the pathophysiology of disease, identifying genetic variants in pharmacogenetics, assessment of mucosal immunity, and several other applications that use somatic cells.
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PMID:Coprocytobiology: on the nature of cellular elements from stools in the pathophysiology of colonic disease. 1270 72

To gain insight into the transformation of epidermal cells into squamous carcinoma cells (SCC), we compared the response to ultraviolet B radiation (UVB) of normal human epidermal keratinocytes (NHEK) versus their transformed counterpart, SCC, using biological and molecular profiling. DNA microarray analyses (Affymetrix), approximately 12000 genes) indicated that the major group of upregulated genes in keratinocytes fall into three categories: (i). antiapoptotic and cell survival factors, including chemokines of the CXC/CC subfamilies (e.g. IL-8, GRO-1, -2, -3, SCYA20), growth factors (e.g. HB-EGF, CTGF, INSL-4), and proinflammatory mediators (e.g. COX-2, S100A9), (ii). DNA repair-related genes (e.g. GADD45, ERCC, BTG-1, Histones), and (iii). ECM proteases (MMP-1, -10). The major downregulated genes are DeltaNp63 and PUMILIO, two potential markers for the maintenance of keratinocyte stem cells. NHEK were found to be more resistant than SCC to UVB-induced apoptosis and this resistance was mainly because of the protection from cell death by secreted survival factors, since it can be transferred from NHEK to SCC cultures by the conditioned medium. Whereas the response of keratinocytes to UVB involved regulation of key checkpoint genes (p53, MDM2, p21(Cip1), DeltaNp63), as well as antiapoptotic and DNA repair-related genes - no or little regulation of these genes was observed in SCC. The effect of UVB on NHEK and SCC resulted in upregulation of 251 and 127 genes, respectively, and downregulation of 322 genes in NHEK and 117 genes in SCC. To further analyse these changes, we used a novel unsupervised coupled two-way clustering method that allowed the identification of groups of genes that clearly partitioned keratinocytes from SCC, including a group of genes whose constitutive expression levels were similar before UVB. This allowed the identification of discriminating genes not otherwise revealed by simple static comparison in the absence of UVB irradiation. The implication of the changes in gene profile in keratinocytes for epithelial cancer is discussed.
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PMID:Genome-wide comparison of human keratinocyte and squamous cell carcinoma responses to UVB irradiation: implications for skin and epithelial cancer. 1277 51

The goal of this study was to analyze the correlation between inducible nitric oxide synthase (iNOS) and COX-2 activities and p53 gene status in head and neck squamous cell carcinomas (HNSCCs) in vivo and in vitro. In a series of 43 HNSCCs we observed an up-regulation of both iNOS and COX-2 pathways in tumor tissues and both activities were correlated each other (rs = 0.612 and P = 0.0002). We also found that p53-mutated HNSCCs (25 cases, 58.1%) showed higher levels of iNOS activity and cGMP in comparison with wild-type p53 tumors (18 cases, 41.9%) (P = 0.0005 and P = 0.01), as well as higher iNOS immunohistochemical expression (P = 0.03). Analogously, higher PgE2 levels were documented in p53-mutated HNSCCs when compared with wild-type p53 tumors (P = 0.015) and COX-2 protein expression was higher in p53-mutated HNSCCs (P = 0.007). A431 cancer cells expressing a p53 temperature-sensitive mutant showed an approximately 1.9- and 2.6-fold decrease in spontaneous NO(2-)/NO(3-) and PgE2 synthesis at permissive temperature, respectively, when compared with the same cells at nonpermissive temperature (P <or= 0.001). Basal levels of iNOS and COX-2 proteins and mRNAs were markedly suppressed by restoration of p53 activity. Our results indicate that p53 gene mutation(s) may be responsible for iNOS and COX-2 up-regulation frequently observed in HNSCCs and suggest that restoration of wild-type p53 expression may interfere with tumor growth by inhibiting iNOS and COX-2 pathways.
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PMID:Down-regulation of nitric oxide synthase-2 and cyclooxygenase-2 pathways by p53 in squamous cell carcinoma. 1287 91

Nitric oxide (NO) in articular chondrocytes regulates differentiation, survival, and inflammatory responses by modulating ERK-1 and -2, p38 kinase, and protein kinase C (PKC) alpha and zeta. In this study, we investigated the effects of the actin cytoskeletal architecture on NO-induced dedifferentiation, apoptosis, cyclooxygenase (COX)-2 expression, and prostaglandin E2 production in articular chondrocytes, with a focus on ERK-1/-2, p38 kinase, and PKC signaling. Disruption of the actin cytoskeleton by cytochalasin D (CD) inhibited NO-induced apoptosis, dedifferentiation, COX-2 expression, and prostaglandin E2 production in chondrocytes cultured on plastic or during cartilage explants culture. CD treatment did not affect ERK-1/-2 activation but blocked the signaling events necessary for NO-induced dedifferentiation, apoptosis, and COX-2 expression such as activation of p38 kinase and inhibition of PKCalpha and -zeta. CD also suppressed activation of downstream signaling of p38 kinase and PKC, such as NF-kappaB activation, p53 accumulation, and caspase-3 activation, which are necessary for NO-induced apoptosis. NO production in articular chondrocytes caused down-regulation of phosphatidylinositol (PI) 3-kinase and Akt activities. The down-regulation of PI 3-kinase and Akt was blocked by CD treatment, and the CD effects on apoptosis, p38 kinase, and PKCalpha and -zeta were abolished by the inhibition of PI 3-kinase with LY294002. Our results collectively indicate that the actin cytoskeleton mediates NO-induced regulatory effects in chondrocytes by modulating down-regulation of PI 3-kinase and Akt, activation of p38 kinase, and inhibition of PKCalpha and -zeta
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PMID:Actin cytoskeletal architecture regulates nitric oxide-induced apoptosis, dedifferentiation, and cyclooxygenase-2 expression in articular chondrocytes via mitogen-activated protein kinase and protein kinase C pathways. 1290 84

Inactivation of the p53 tumor suppressor gene usually involves somatic mutation or binding of viral oncoproteins to the p53 protein. However, several types of malignant and premalignant tissues harbor a genetically wild-type, but transcriptionally inactive, form of p53, often localized in the cytoplasm. Electrophilic prostaglandins (PGs) are known to sequester and inactivate p53 in the cytoplasm, an effect that is likely to occur when cyclooxygenase (COX)-2 levels become elevated during colon carcinogenesis. We determined the localization and expression of p53 in the presence of PGA(1) and celecoxib, a selective COX-2 inhibitor in human colon cell lines HCT-116 (wild-type p53) and HT-29 (mutant p53). In the absence of treatment, p53 protein accumulated preferentially in the nucleus in both cell lines. We observed that the total cellular levels of p53 protein increased with exposure time and concentration of PGA(1). By contrast, p21 protein levels remained unchanged as a function of time and concentration of PGA(1). In the presence of 20 micro M PGA(1), p53 accumulated preferentially in the cytosol. The nuclear:cytosol ratios of p53 were 31 and 2.1 in the controls and in the presence of PGA(1) in HCT-116 cells but were 22 and 4, respectively, in HT-29 cells. Treatment with 50 micro M celecoxib for 24 h did not significantly change p53 expression and localization. However, in the presence of 100 micro M celecoxib, p53 levels increased in the nucleus. The nuclear:cytosol ratios were then 31 (control) and 60 (100 micro M celecoxib) in HCT-116 cells and 22 (control) and 36 (100 micro M celecoxib) in HT-29 cells. These results indicate that electrophilic PGs cause wild-type p53 accumulation in the cytosol where it is inactive. Inhibition of COX-2 by celecoxib appears to alleviate this effect on p53 by reducing electrophilic PG synthesis. Thus, COX-2 inhibition of electrophilic PG formation appears to protect p53 tumor suppressor function.
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PMID:Inhibition of COX-2 in colon cancer cell lines by celecoxib increases the nuclear localization of active p53. 1508 16

The aim of the study was to characterize both apoptotic and proliferating cells histologically and to analyze localisation and distribution of various apoptosis-associated proteins in tumours of different stages of degeneration in the animal model of Apc-gene defect mice. Such animals show clinical symptoms similar to those of patients suffering from Familial Adenomatous Polyposis (FAP) but develop the neoplasm's mainly in the small intestine. Tumours from all parts of the gut of 90 days old non-treated MIN-mice were classified as adenocarcinomas, histologically. The apoptosis-associated proteins bax, bcl-2, p53 and the COX-2 enzyme were investigated immunohistochemically. Additionally the localisation and distribution of proliferating (BrdU-labeling) and apoptotic (KLENOW, TUNEL) cells were analysed. In the summary we point out: 1. The activity of apoptosis increases in early stage of neoplasm as a defensive mechanism of mucosa. 2. A decrease in apoptosis rate occurs during carcinogenesis. 3. The inversely correlating, clear COX-2 accumulation accompanying carcinoma development supplies evidence for cyclooxygenase-inhibitor treatment is a promising therapeutic attempt in early stage of FAP.
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PMID:[COX-2 associated loss of apoptosis activity in intestinal neoplams in Apc gene knock-out mice]. 1451 2

Pancreaticobiliary maljunction (PBM) is a congenital anomaly with a high incidence of biliary tract carcinoma. Pathological findings strongly suggest that there is a hyperplasia-dysplasia-carcinoma sequence in carcinogenesis of PBM. A molecular biological analysis revealed high incidence of cellular proliferation activating factors such as TGF-alpha, COX-2 from the hyperplasia stage. In addition, cellular proliferative activity including BrdU, AgNOR, PCNA, and Ki-67 was significantly higher in regular gallbladder mucosa without PBM. Furthermore, a high incidence of K-ras gene mutation could be seen in hyperplasia (13-63%) and microsatellite instability could be observed in 60% of all cases in dysplasia. In cancerous lesions, a high rate of overexpression of cyclin D1, beta-catenin, p53, as well as p53 gene mutation has been recognized. These results suggest that a multistep carcinogenetic process contributes to the carcinogenesis of PBM, similar to that of other cancers. In addition, after preventive operation with resection of the extrahepatic bile duct is performed, carcinogenesis in the remnant biliary tract or pancreatic duct is rarely found. Whether the carcinogenesis is a result of the accumulation of genetic alteration from shortly after birth, or a result of regurgitation of gastrointestinal juice due to hepaticoenterostomy, remains unknown. Since a high frequency of COX-2 is positive in PBM, COX-2 inhibitors such as NSAIDs may play an important role in preventing carcinogenesis.
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PMID:Carcinogenetic process in gallbladder mucosa with pancreaticobiliary maljunction (Review). 1453 81

A significant component of the general surgeon's practice is treatment of cancer that most commonly involves breast, colorectal, pancreas, and hepatic surgeries. The prognosis for these patients is largely dependent upon the stage of the disease at the time of diagnosis. There is convincing evidence that the induction and progression of cancer occurs when the function of genes that regulate cell proliferation, cell death and DNA repair becomes altered. These molecular disturbances result from ongoing, tumor-promoting activity long before symptoms of the disease become apparent. The role of many genes and the extent of their involvement in this deleterious, molecular process is unique to the organ. However, the tumor suppressor genes p53 and p16, the oncogene c-myc, and the inflammation-associated enzyme COX-2 are implicated in all four of the tumors. The roles of the oncogenes ras and HER-2/erbB-2/neu are significant in all of the tumors except hepatocellular carcinoma. The systematic establishment of a comprehensive data base relating gene expression activity to the initiation and development of cancer will provide molecular markers for detection and targets for treatment. This overview presents the current status of information associating gene expression activity with cancers typically encountered by general surgeons.
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PMID:Gene activity associated with cancers treated by surgical oncologists. 1461 4

In order to dissect out cyclooxygenase-dependent from cyclooxygenase-independent mechanisms in the antiproliferative effects of selective prostaglandin H synthase (PGHS)-2 inhibitors, we compared the effects of L-745,337 (a highly selective PGHS-2 inhibitor) with sodium salicylate (a weak PGHS inhibitor) on prostanoid production, induction of the cyclin-dependent kinase inhibitor p21WAF-1/cip1, mutant p53 (m273-p53) levels, apoptosis and differentiation in human colon adenocarcinoma HT-29 cells. L-745,337 dose-dependently suppressed the cyclooxygenase activity of HT-29 cells (IC50: 0.24 microM). Four-day treatment with L-745,337 caused a concentration-dependent inhibition of cell growth (IC50: 0.9 mM) associated with the induction of p21WAF-1/cip1 and an increase in the proportion of apoptotic nuclei (EC50: 0.1 and 0.34 mM, respectively) while reducing the levels of m273-p53 (IC50: 0.2 mM). Sodium salicylate, at the concentration of 10 mM that did not affect prostanoid formation, caused a 60% reduction of cell growth associated with a 3-fold induction of p21WAF-1/cip1 and a 60% increase in the proportion of apoptotic nuclei. Ultrastructural analysis showed that L-745,337 (0.5 mM) and sodium salicylate (10 mM) caused the induction of a differentiated phenotype. We conclude that high concentrations of L-745,337 and sodium salicylate inhibit colon cancer cell growth by a mechanism unrelated to cyclooxygenase inhibition that may involve p53-independent induction of the tumor suppressor p21WAF-1/cip1.
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PMID:Cyclooxygenase-independent induction of p21WAF-1/cip1, apoptosis and differentiation by L-745,337, a selective PGH synthase-2 inhibitor, and salicylate in HT-29 cells. 1463 77

Since the first detection of aberrant crypt foci (ACF) in carcinogen-treated mice, there have been numerous studies focusing on these microscopically visible lesions both in rodents and in humans. ACF have been generally accepted as precancerous lesions in regard to histopathological characteristics, biochemical and immunohistochemical alterations, and genetic and epigenetic alterations. ACF show variable histological features, ranging from hyperplasia to dysplasia. ACF in human colon are more frequently located in the distal parts than in the proximal parts, which is in accordance with those in colorectal cancer (CRC). The immunohistochemical expressions of carcinoembryonic antigen (CEA), beta-catenin, placental cadherin (P-cadherin), epithelial cadherin (E-cadherin), inducible nitric oxide synthase (iNOS), cyclooxygenase (COX-2), and P16INK4a are found to be altered. Genetic mutations of K-ras, APC and p53, and the epigenetic alterations of CpG island methylation of ACF have also been demonstrated. Genomic instabilities due to the defect of mismatch repair (MMR) system are detectable in ACF. Two hypotheses have been proposed. One is the "dysplasia ACF-adenoma-carcinoma sequence", the other is "heteroplastic ACF-adenoma-carcinoma sequence". The malignant potential of ACF, especially dysplastic ACF, makes it necessary to reveal the nature of these lesions, and to prevent CRC from the earliest possible stage. The technique of magnifying chromoscope makes it possible to detect "in vivo" ACF, which is beneficial to colon cancer research, identifying high-risk populations for CRC, and developing preventive procedures.
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PMID:Aberrant crypt foci as microscopic precursors of colorectal cancer. 1466 4


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