Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0699790 (colon cancer)
 28,837 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the effects of 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3] on the phosphoinositol signal transduction pathway in the human colon cancer-derived cell line CaCo-2 and have studied the regulation of intracellular calcium ([Ca2+]i) and pH (pHi) by this secosteroid. CaCo-2 cells were prelabeled with [3H]myoinositol and treated with 10(-8) M 1,25-(OH)2D3 or vehicle for 90 sec. 1,25-(OH)2D3 caused a decrease in labeled phosphatidylinositol-4-5-bis-phosphate and an increase in labeled inositol 1,4,5-trisphosphate. Treatment with 10(-8) M 1,25-(OH)2D3 for 90 sec also raised the cellular content of diacylglycerol. In a dose-dependent manner, 1,25-(OH)2D3 caused the translocation of protein kinase-C activity from the cytosolic to the membrane fraction, which occurred after as little as 15 sec of exposure to the secosteroid, peaked at about 1-5 min, and then returned toward baseline values. In these CaCo-2 cells, baseline [Ca2+]i was 258 +/- 2 nM (mean +/- SE), as assessed using the fluorescent dye fura-2. After exposure to 10(-8) M 1,25-(OH)2D3, [Ca2+]i rapidly increased to 392 +/- 14 nM after 100 sec, fell, and then subsequently rose to a plateau of 350 +/- 3 nM after 400 sec. In Ca(2+)-free buffer, 1,25-(OH)2D3 caused only a transient rise in [Ca2+]i, indicating that 1,25-(OH)2D3 stimulated both the release of intracellular calcium stores and calcium influx. 1,25-(OH)2D3 caused a dose-dependent decrease in pHi in CaCo-2 cells, as assessed by the fluorescent dye BCECF, which was not observed in cells suspended in Na(+)-free buffer or pretreated with amiloride, indicating that the secosteroid inhibited Na(+)-H+ exchange. No effect of 1,25-(OH)2D3 on pHi was observed in cells in a Ca(2+)-free buffer or pretreated with the phospholipase-C inhibitor U-73,122, which also blocked the rise in [Ca2+]i, or in cells pretreated with the Ca2+/calmodulin inhibitor calmidazolium. Taken together, these studies indicate that 1,25-(OH)2D3 rapidly stimulates membrane phosphoinositide breakdown in CaCo-2 cells, generating the second messengers inositol 1,4,5-trisphosphate and diacylglycerol, causing translocation of protein kinase-C to the membrane, and increasing [Ca2+]i by both releasing calcium stores and promoting calcium influx. Secondary to the rise in [Ca2+]i, Na(+)-H+ exchange is inhibited by a calcium/calmodulin-dependent pathway.
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PMID:1,25-dihydroxyvitamin D3 inhibits Na(+)-H+ exchange by stimulating membrane phosphoinositide turnover and increasing cytosolic calcium in CaCo-2 cells. 132 51

Carcinoembryonic antigen (CEA) is released from colon cancer cells into the circulation where it is monitored clinically as an indicator of the recurrence or progression of cancer. We have studied the mechanism of CEA membrane attachment and release using the human colonic adenocarcinoma cell line LS-174T, specimens of human colon cancers, and serum from colon cancer patients. CEA release by cells in vitro and in vivo is associated with the conversion of CEA from a membrane-bound, hydrophobic molecule to a soluble, hydrophilic form with no apparent decrease in molecular mass. When LS-174T cell membranes were incubated with various buffers, proteases, and phospholipases, the only agents that released CEA and converted it to the hydrophilic form were preparations of phosphatidylinositol-specific phospholipase C (PI-PLC). Both [3H]ethanolamine and [3H]palmitate could be incorporated metabolically into CEA but only palmitate was released by treatment with PI-PLC, consistent with the presence of a glycosyl-phosphatidylinositol linkage. PI-PLC treatment also release significant quantities of CEA from living monolayers and from seven human colon cancer specimens. These experiments suggest that cellular CEA is anchored to membranes by a covalent linkage to a membrane phosphatidylinositol molecule, and that an endogenous phospholipase may be important for releasing CEA in vitro and in vivo.
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PMID:Release of carcinoembryonic antigen from human colon cancer cells by phosphatidylinositol-specific phospholipase C. 304 7

The Min (multiple intestinal neoplasia) strain of the laboratory mouse and its derivatives permit the fundamental study of factors that regulate the transition between normal and neoplastic growth. A gene of central importance in mediating these alternative patterns of growth is Apc, the mouse homologue of the human adenomatous polyposis coli (APC) gene. When adenomas form in the Min mouse, both copies of the Apc gene must be inactivated. One copy is mutated by the nonsense Apc allele carried in heterozygous form in this strain. The other copy can be silenced by any of several mechanisms. These range from loss of the homologue bearing the wild-type Apc allele; to interstitial deletions surrounding the wild-type allele; to intragenic mutation, including nonsense alleles; and finally, to a reduction in expression of the locus, perhaps owing to mutation in a regulatory locus. Each of these proposed mechanisms may constitute a two-hit genetic process as initially posited by Knudson; however, apparently the two hits could involve either a single locus or two loci. The kinetic order for the transition to adenoma may be still higher than two, if polyclonal adenomas require stronger interactions than passive fusion. The severity of the intestinal neoplastic phenotype of the Min mouse is strongly dependent upon loci other than Apc. One of these, Mom1, has now been rigorously identified at the molecular level as encoding an active resistance conferred by a secretory phospholipase. Mom1 acts locally within a crypt lineage, not systemically. Within the crypt lineage, however, its action seems to be non-autonomous: when tumours arise in Mom1 heterozygotes, the active resistance allele is maintained in the tumour (MOH or maintenance of heterozygosity). Indeed, the secretory phospholipase is synthesized by post-mitotic Paneth cells, not by the proliferative cells that presumably generate the tumour. An analysis of autonomy of modifier gene action in chimeric mice deserves detailed attention both to the number of genetic factors for which an animal is chimeric and to the clonal structure of the tissue in question. Beyond Mom1, other loci can strongly modify the severity of the Min phenotype. An emergent challenge is to find ways to identify the full set of genes that interact with the intestinal cancer predisposition of the Min mouse strain. With such a set, one can then work, using contemporary mouse genetics, to identify the molecular, cellular and organismal strategies that integrate their functions. Finally, with appropriately phenotyped human families, one can investigate by a candidate approach which modifying factors influence the epidemiology of human colon cancer. Even if a candidate modifier does not explain any of the genetic epidemiology of colon cancer in human populations, modifier activities discovered by mouse genetics provide candidates for chemopreventive and/or therapeutic modalities in the human.
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PMID:The intestinal epithelium and its neoplasms: genetic, cellular and tissue interactions. 968 89

Prostaglandin synthesis occurs via the coordinate action of a phospholipase that liberates arachidonic acid from membrane phospholipids and a cyclooxygenase (COX) that converts the free arachidonic acid to prostaglandins. Several lines of evidence suggest that prostaglandins play a role in carcinogenesis. Two isoforms of COX have been described. COX-2 is highly regulated and induced by inflammation while COX-1 is considered primarily a housekeeping form. The acute up-regulation of COX-2 by UV radiation suggests that it may contribute to photocarcinogenesis in the same way that COX-2 has recently been shown to contribute to colon cancer.
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PMID:The role of cyclooxygenase-2 in the pathogenesis of skin cancer. 1284 53

Lysophosphatidic acid (LPA) is a mediator of multiple cellular responses. LPA mediates its effects predominantly through the G protein-coupled receptors LPA1, LPA2, and LPA3. In the present work, we studied LPA2-mediated signaling using human colon cancer cell lines, which predominantly express LPA2. LPA2 activated Akt and Erk1/2 in response to LPA. LPA mediated Akt activation was inhibited by pertussis toxin (PTX), whereas Erk1/2 activation was completely inhibited by a blocker of phospholipase Cbeta, U-73122. LPA also induced interleukin-8 (IL-8) synthesis in the colon cancer cells by primarily activating LPA2 receptor. We also found that LPA2 interacts with Na+/H+ exchanger regulatory factor 2 (NHERF2). Activation of Akt and Erk1/2 was significantly attenuated by silencing of NHERF2 expression by RNA interference, suggesting a pivotal role of NHERF2 in LPA2-mediated signaling. We found that expression of LPA2 was elevated, whereas expression of LPA1 downregulated in several types of cancers, including ovarian and colon cancer. We conclude that LPA2 is the major LPA receptor in colon cancer cells and cellular signals by LPA2 are largely mediated through its ability to interact with NHERF2.
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PMID:LPA2 receptor mediates mitogenic signals in human colon cancer cells. 1572 8

The lipid metabolite lysophosphatidic acid (LPA) mediates an impressive set of responses that includes morphogenesis, cell proliferation, cell survival, cell adhesion, and cell migration. LPA exerts its downstream signaling by binding to the LPA(1), LPA(2), and LPA(3) (formerly Edg-2, -4, and -7) family of seven-transmembrane, segmented, heterotrimeric guanine nucleotide-binding protein (G protein)-coupled receptors. LPA actions of therapeutic interest include effects on wound healing, atherogenesis, thrombogenesis, and, of course, cancer. LPA has been implicated in the progression of human breast, ovarian, prostate, head and neck, and colon malignancies. In view of these earlier observations, a recent report that LPA stimulates the proliferation of colon cancer-derived cell lines was greeted with great anticipation for its possible contribution to the unraveling of details of cancer signaling downstream of LPA. LPA was shown to stimulate nuclear accumulation of beta-catenin in a manner that depended on activation of Galpha(q) by LPA(2,3'), activation of phospholipase Cbeta, activation of a conventional protein kinase C, and phosphorylation and inhibition of glycogen synthase kinase 3-beta. The phosphorylation of beta-catenin by this kinase marks the protein for intracellular degradation; LPA suppresses this degradation and stimulates beta-catenin accumulation. Beta-catenin is a pivotal molecule in the control of cell cycle progression and gene expression, activating both processes in combination with lymphoid-enhancing factor/T cell-factor-sensitive transcription and inhibiting both processes in combination with FOXO transcription factors. The ability of LPA to increase the cytoplasmic and nuclear accumulation of beta-catenin provides a new dimension of knowledge linking lipid mediators to the dysregulation of beta-catenin signaling in cancer.
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PMID:Beta-catenin, cancer, and G proteins: not just for frizzleds anymore. 1601 5

With the advent of agents directed against specific molecular targets in drug discovery, it has become imperative to show a compound's cellular impact on the intended biomolecule in vivo. The objective of the present study was to determine if we could develop an assay to validate the in vivo effects of a compound. Hence, we investigated the in vivo pharmacodynamic activity of JNJ-10198409, a relatively selective inhibitor of platelet-derived growth factor receptor tyrosine kinase (PDGF-RTK), in tumor tissues after administering the compound orally in a nude mouse xenograft model of human LoVo colon cancer. We developed a novel assay to quantify the in vivo anti-PDGF-RTK activity of the inhibitor in tumor tissue by determining the phosphorylation status of phospholipase Cgamma1 (PLCgamma1), a key downstream cellular molecule in the PDGF-RTK signaling cascade. We used two antibodies, one specific for the total (phosphorylated and unphosphorylated forms) PLCgamma1 (pan-PLCgamma1) and the other, specific for phosphorylated form of PLCgamma1 (ph-PLCgamma1) to immunohistochemically detect their expression in tumor tissues. Computer-assisted image analysis was then used to directly compare the ratio of ph-PLCgamma1 to pan-PLCgamma1 immunolabeling intensities in serial sections (5 mum) of tumors obtained from vehicle- and JNJ-10198409-treated tumor-bearing mice. Our data showed statistically significant, dose-dependent differences in the ph-PLC/pan-PLC ratio among the four treatment groups (vehicle, 25, 50, and 100 mg/kg b.i.d.). These results confirmed this compound's ability to suppress PDGF-RTK downstream signaling in tumor tissues in vivo. In addition to this specific application of this in vivo validation approach to those targets that use PLCgamma as a downstream signaling partner, these methods may also benefit other drug discovery targets.
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PMID:Validation of in vivo pharmacodynamic activity of a novel PDGF receptor tyrosine kinase inhibitor using immunohistochemistry and quantitative image analysis. 1609 35

The development of colon cancer is highly influenced by lifestyle factors such as nutrition and physical inactivity. Detailed biological mechanisms are thus far unclear. The purpose of this study was to investigate the effects of regular treadmill exercise on gene expression in rat colon mucosa. For this purpose, 6-week-old male Wistar rats completed a stress-free voluntary treadmill exercise period of 12 weeks. Sedentary rats served as a control group. In the colon mucosa, steady-state mRNA expression levels of approximately 10,000 genes were compared between both groups by micro-array analysis (MWG rat 10K array). A total of 8846 mRNAs were detected above background level. Regular exercise led to a decreased expression of 47 genes at a threshold-factor of 2.0. Three genes were found to be up-regulated in the exercise group. The identified genes encode proteins involved in signal transduction (n=11), transport (n=8), immune system (n=7), cytoskeleton (n=6), protein targeting (n=6), metabolism (n=5), transcription (n=3) and vascularization (n=2). Among the genes regulated by regular exercise, the betaine-homocysteine methyltransferase 2 (BHMT2) seems to be of particular interest. Physical activity may protect against aberrant methylation by repressing the BHMT2 gene and thus contribute to a decreased risk of developing colon cancer. We have also identified vascular endothelial growth factor (VEGF), angiopoietin-2 (ANG-2) and calcium-independent phospholipase a2 (iPL-A2), all of them with markedly reduced transcript levels in the mucosa of active rats. In summary, our experiment presents the first gene expression pattern in rat colon mucosa following regular treadmill activity and represents an important step in understanding the molecular mechanisms responsible for the preventive effect of physical activity on the development of colon cancer.
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PMID:Alteration of gene expression in rat colon mucosa after exercise. 1834 45

Trifluorothymidine (TFT) is part of the novel oral formulation TAS-102, which is currently evaluated in phase II studies. Drug resistance is an important limitation of cancer therapy. The aim of the present study was to induce resistance to TFT in H630 colon cancer cells using two different schedules and to analyze the resistance mechanism. Cells were exposed either continuously or intermittently to TFT, resulting in H630-cTFT and H630-4TFT, respectively. Cells were analyzed for cross-resistance, cell cycle, protein expression, and activity of thymidine phosphorylase (TP), thymidine kinase (TK), thymidylate synthase (TS), equilibrative nucleoside transporter (hENT), gene expression (microarray), and genomic alterations. Both cell lines were cross-resistant to 2'-deoxy-5-fluorouridine (>170-fold). Exposure to IC(75)-TFT increased the S/G(2)-M phase of H630 cells, whereas in the resistant variants, no change was observed. The two main target enzymes TS and TP remained unchanged in both TFT-resistant variants. In H630-4TFT cells, TK protein expression and activity were decreased, resulting in less activated TFT and was most likely the mechanism of TFT resistance. In H630-cTFT cells, hENT mRNA expression was decreased 2- to 3-fold, resulting in a 5- to 10-fold decreased TFT-nucleotide accumulation. Surprisingly, microarray-mRNA analysis revealed a strong increase of secretory phospholipase-A2 (sPLA2; 47-fold), which was also found by reverse transcription-PCR (RT-PCR; 211-fold). sPLA2 inhibition reversed TFT resistance partially. H630-cTFT had many chromosomal aberrations, but the exact role of sPLA2 in TFT resistance remains unclear. Altogether, resistance induction to TFT can lead to different mechanisms of resistance, including decreased TK protein expression and enzyme activity, decreased hENT expression, as well as (phospho)lipid metabolism. Mol Cancer Ther; 9(4); 1047-57. (c)2010 AACR.
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PMID:Trifluorothymidine resistance is associated with decreased thymidine kinase and equilibrative nucleoside transporter expression or increased secretory phospholipase A2. 2037 15

The discovery of an inducible form of prostaglandin synthase initiated a reexamination of the biochemical pathways for ligand-induced prostaglandin synthesis. As a result, new pharmaceutical agents with potential activity against pain, fever, chronic and acute inflammation, cardiovascular disorders, and colon cancer have been developed and are currently under intense investigation. Careful biochemical and pharmacologic studies of the differences between the constitutive and inducible prostaglandin synthase enzymes have suggested a previously unexpected mechanism for some of the therapeutic effects of aspirin. Identification of a new phospholipase, and recognition of its role in mast cell prostaglandin production and in transcellular prostaglandin synthesis, have identified additional potential targets for pharmacologic intervention in inflammation and other prostaglandin-mediated disorders.
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PMID:Recent progress in the cellular and molecular biology of prostaglandin synthesis. 2123 25


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