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)

Marked increases of plasminogen activator activity were observed in human colon cancer tissue, compared to corresponding normal tissues. This increase was attributable to urokinase-type activator (HPA52), with no increase evident in the level of the tissue-type plasminogen activator (HPA66). Human monocyte minactivin specifically inhibited HPA52 activity in cancer tissue homogenates and in colon cancer cell supernatants, an effect that was greatly enhanced by preincubation with plasminogen, indicating that the predominant form of HPA52 in tissue and the form that is secreted in vitro is the proenzyme. Inactivation of HPA52 by minactivin was shown to be dependent on proteolytic activation of HPA52 proenzyme. Utilization of HPA52 activity by tumors in vivo could therefore be dependent upon a protease, such as plasmin, to generate the extracellular proteolytic activity necessary to digest the intercellular matrix and permit invasion of normal tissue structures by colon cancer cells.
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PMID:Proenzyme to urokinase-type plasminogen activator in human colon cancer: in vitro inhibition by monocyte minactivin after proteolytic activation. 296 17

Colon carcinoma cells are first found as microscopic foci within benign tumors or adenomas. The carcinoma must invade the adenoma which protrudes into the colon lumen before it can infiltrate the bowel wall. A quantitative model for this process has been developed in tissue culture in which human colon carcinoma cells destroy cocultivated adenoma colonies. 43 adenoma colonies were assayed by cocultivation with carcinoma cells. Constitutive secretion of the urokinase form of plasminogen activator by carcinoma cells apparently plays some role in adenoma destruction as inhibition of this protease by the competitive inhibitor benzamidine reversibly inhibited adenoma destruction (p less than 0.01). Elevation of plasminogen activator secretion by addition of the tumor promoter 12-tetradecanoylphorbol-13-acetate significantly enhanced the destruction of colonies cultured from tubular adenomas with only mild dysplasia (p less than 0.025) and from villous, villotubular and tubular adenomas with moderate to severe dysplasia (p less than 0.0005).
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PMID:Tumor-promoter-enhanced destruction of noninvasive human benign colon tumor cells by cocultivated carcinoma cells. 323 26

The immunoperoxidase technique, using antibodies against human urinary urokinase (Mr 55,000), was used for the localization of this enzyme in histological preparations of human colon tumors and normal colon tissue. The localization of tissue (vascular) activator was also investigated using antibodies against enzyme purified from human malignant melanoma. Both the "indirect method" and the peroxidase-antiperoxidase technique were found to be useful. Urokinase-reactive material was found in all tissues examined (33 primary cancers, 11 metastases, and 8 adenomas). In the normal colon, urokinase was found only in some of the goblet cells of the mucosal epithelium. In colon cancer, diffuse specific staining was observed in the cytoplasm, but the most intense staining was localized at the edge of the cancer cells bordering the lumen of the glands. In some cases, intense supranuclear staining could be observed in a location corresponding to the Golgi apparatus. In a few instances, urokinase could be seen associated with fibroblasts near the advancing front of an invading tumor. Adenoma, a benign tumor but often a precursor of cancer, also showed the presence of urokinase. Most significant were the observations showing that, in regions of the mucosal glands where normal epithelial cells were abruptly replaced by cancer cells, the appearance of cytoplasmic urokinase showed strict and exclusive association with the malignant cells, and the same was the case in transitions from normal epithelium to adenoma. In contrast to urokinase, tissue plasminogen activator was not associated with cancer cells, but was consistently present in the stroma which separates the cancer glands and was localized in the endothelium of the blood vessels. This visual evidence was supported by results of extraction of plasminogen activators from tumors, and from the separated mucosal and submucosal layers of the normal colon of the same patients, which showed that urokinase is most abundant in the tumor tissue and least abundant in the submucosa, while tissue activator is most prevalent in the well-vascularized mucosa and submucosa and scarce in the usually poorly vascularized adenocarcinomas.
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PMID:Localization of plasminogen activators in human colon cancer by immunoperoxidase staining. 388 45

Plasminogen activator content was determined quantitatively in extracts of 23 pairs of surgically removed colon tumors and adjacent normal mucosa specimens. The activator content averaged 4.4 times higher in the tumor samples than in the corresponding normal tissue. Polyps removed with the adenocarcinomas gave values intermediate between those for tumors and those for the normal mucosae. The enzyme content of the group of tumors that showed invasive propagation or metastatic spread was significantly higher (P < 0.05) than was the enzyme content of the group not manifesting these conditions. Activator activity of the tumor extracts was completely inhibited by rabbit antibody formed against human urokinse. The activity of the normal mucosae was variably inhibited, suggesting the presence of several kinds of activator in normal tissues. The activator from the normal tissues could be separated into a completely refractory fraction and a completely inhibitable fraction by means of an affinity column made of Sepharose-linked, rabbit antiurokinase antibody. The activator, eluted from this column with 1 M acetic acid in 0.5 M NaCl (pH 2.2), was highly purified and had an isoelectric point of 8.6, as does authentic urokinase. The details of the isoelectric profile of the two, however, differed. The data are discussed in relation to earlier studies on the fibrinolytic system in colon cancer.
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PMID:Plasminogen activator content of human colon tumors and normal mucosae: separation of enzymes and partial purification. 693 Dec 52

nm23H1 has properties of a metastasis suppressor gene. Although its mechanism of action is unknown, nm23 has been implicated in transforming growth factor beta 1 (TGF beta 1) signal transduction. In an earlier study we decreased nm23 mRNA levels 2- to 8-fold by antisense phosphorothiolated oligonucleotides in two HT29 colon carcinoma sublines at different stages in tumor progression with different responses to TGF beta 1: the HD3 subline, which shows TGF beta 1-induced growth arrest and differentiation; and the more tumorigenic U9 subline, whose growth and invasion are stimulated by TGF beta 1. Only TGF beta 1-mediated responses in HD3 cells were inhibited by nm23 antisense oligos, suggesting that nm23 functions in only one TGF beta 1 signaling pathway. In the current report we have extended this study to cell motility. HD3 motility was increased by nm23 phosphorothiolated antisense oligos which decrease nm23 mRNA levels, while HD3 cell motility was conversely decreased by TGF beta 1 which increases nm23 mRNA levels. HD3 motility was not increased by basic FGF, TGF beta 1 or TGF alpha, while the 13-fold higher basal motility of U9 cells was stimulated 3-fold by basic FGF, 4-fold by TGF beta 1 and 5-fold by TGF alpha, but not by scatter factor. Differences in motility and response to motility factors could not be ascribed to differences in either basal levels of proteases or modulation of their levels by TGF beta 1. Both HD3 and U9 cells displayed equal levels of urokinase activity and mRNA, equal expression of the metalloproteinase inhibitor TIMP-1, and no detectable collagenases by zymography. No differential response to TGF beta 1 was seen in any of these assays. Thus limited cell motility and lack of response to motility factors in HD3 colon cancer cells could be correlated with expression of nm23 active in signal transduction.
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PMID:Colon carcinoma cells with inactive nm23 show increased motility and response to motility factors. 755 87

The host reaction is an important factor in the biological behavior of cancers. In human colon adenocarcinoma, stromal cells and some cancer cells express the urokinase receptor (uPAR), a molecule involved in the regulation of extracellular proteolysis. The present study reveals the identity of uPAR-expressing cell types and the subcellular localization of this molecule by immunoelectron microscopy in colon cancer. uPAR-positive cells were most abundant at the invasive margin of colon cancer and were identified as macrophages, fibroblasts, neutrophilic and eosinophilic granulocytes, endothelial cells and cancer cells. Of these, the most numerous were macrophages with uPAR detected along the plasma membrane, in accordance with its function in plasminogen activation on the cell surface. Fibroblasts were labeled in the lumen of rough endoplasmic reticulum, indicating its intracellular synthesis. Some granulocytes and endothelial cells expressed immunoreactivity along the plasma membrane. uPAR-positive cancer cells were stained along the plasma membrane and in rough endoplasmic reticulum. These findings suggested that a variety of non-malignant host cells play an important role in the plasmin-mediated breakdown of the extracellular matrix at the invasive margin.
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PMID:Expression of urokinase receptor in various stromal-cell populations in human colon cancer: immunoelectron microscopical analysis. 755 16

Recombinant human gamma 2 chain of laminin-5 was expressed in Escherichia coli, and used to generate specific polyclonal antibodies which were used to study the distribution of the protein in human cancers. A total of 72 biopsies of human cancers were stained, including 23 cases of colon adenocarcinomas, 16 ductal breast carcinomas, 9 malignant melanomas, 14 squamous cell carcinomas of the skin and cervix, and 10 sarcomas. As a control for the specificity of the antibodies, we performed in situ hybridization on adjacent sections of a number of the cases, and in all of these cases the localization of the gamma 2 chain protein and mRNA was identical. We found gamma 2 chain immunoreactivity in cancer cells in all cases of colon adenocarcinomas and squamous cell carcinomas but not in any of the sarcomas, supporting the view that the laminin-5 protein is specific for cells of epithelial origin. Notably, in all of the cases of colon adenocarcinomas, the positive staining was invariably associated with budding cancer cells located at the tip of invading malignant epithelium, whereas the cancer cells deeper in the tumors were most often negative. The staining was cytoplasmic in all cases and only in one case did we see additional extracellular immunoreactivity, indicating that this laminin isoform in cancer tissue is not laid down in the extracellular matrix but probably exerts its function at the cell surface or in its immediate vicinity. Using in situ hybridization to analyze the coexpression of laminin-5 and components of the plasminogen activation system, we found that the histological distribution of laminin-5-positive budding cancer cells at the invasion front in colon adenocarcinomas was identical to that of the receptor for urokinase-type plasminogen activator. These findings suggest that laminin-5 is a marker of invading cancer cells in at least some human malignancies, and that it therefore might represent a valuable marker for the invasive potential of these cancers. The colocalization of laminin-5 and urokinase-type plasminogen activator receptor in a subset of cancer cells in colon cancer also suggests that a controlled up-regulation of a number of gene products is a characteristic of budding colon cancer cells, and that these gene products serve functions crucial for the invasive phenotype of these cancer cells.
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PMID:Laminin-5 is a marker of invading cancer cells in some human carcinomas and is coexpressed with the receptor for urokinase plasminogen activator in budding cancer cells in colon adenocarcinomas. 766 91

Butyrate is a potent differentiating agent present in high concentrations in colonic lumen as a result of metabolic breakdown of dietary fibre and, as such, may directly influence colonic cancer progression. We have investigated the effects of butyrate on an enzyme system important in colonic tumour progression, the plasminogen-activating system, in a poorly differentiated colon cancer cell. Butyrate was found to induce a rapid and transient increase in plasminogen activator inhibitor type 1 (PAI-1) mRNA while concomitantly suppressing the constitutive production of both urokinase-type plasminogen activator (uPA) and uPA receptor (uPAR) mRNA transcripts. We have investigated the mechanisms involved in mediating these effects by run-on transcription and RNA stability analyses. Our data show that PAI-1 mRNA induction occurs through both regulation of the stability of the alternately spliced 3.3 kb PAI-1 mRNA transcript and induction of the 2.4 kb PAI-1 mRNA transcript. Studies using modulators of signal transduction pathways demonstrate that induction of PAI-1 mRNA synthesis is independent of protein kinase C but dependent on the activation of protein kinase A. Suppression of uPA mRNA by butyrate was found to occur by down-regulation of gene transcription through a process independent of de novo protein synthesis. The transcription rate of the uPAR gene was not modulated by butyrate, but rapid turnover of the uPAR gene by butyrate was dependent on ongoing protein synthesis. Our results demonstrate that butyrate can effect rapid changes in the expression of genes of the plasminogen-activating system through several different mechanisms in a gene-specific manner.
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PMID:Butyrate regulates gene expression of the plasminogen activating system in colon cancer cells. 766 35

We examined the localization of urokinase-type plasminogen activator (u-PA), plasminogen activator inhibitors (PAI-1 and PAI-2) and plasminogen (plg) in 26 cases of colon cancer by immunohistochemical staining. The u-PA antigen was detected in the cytoplasm of cancer cells (18/26) and stromal cells adjacent to cancer tissues (9/26). The localization of u-PA mRNA examined by in situ hybridization was consistent with that of u-PA antigen. The PAI-1 antigen was detected in fibroblasts and endothelial cells (22/26), while PAI-2 antigen was found in cancer cells (20/26). The plg antigen was seen in the extracellular matrix of the cancer stroma. The u-PA expression in cancer cells was significantly more frequently detected in cases with lymph node metastasis than in cases without metastasis. In either PAI-1- or PAI-2-expressing cases, lymph node metastasis seemed to be restrained. These findings indicate that cancer cells themselves produce u-PA, and suggest that u-PA converts plg into plasmin, which dissolves the extracellular matrix surrounding cancer cells, resulting in cancer invasion and metastasis. PAI-1 and PAI-2 may have inhibitory actions on cancer invasion and metastasis mediated by u-PA.
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PMID:Localization of urokinase-type plasminogen activator, plasminogen activator inhibitor-1, 2 and plasminogen in colon cancer. 773 9

The plasminogen activator urokinase promotes tumor invasion by converting plasminogen into plasmin, which degrades several extracellular matrix components. Urokinase can bind to a specific cell surface receptor, which leads to accelerated plasmin production. While there is good evidence indicating a role for this binding site in tumor invasion/metastasis, there is little information concerning the regulation of urokinase receptor expression in invasive cancer. To address this question a series of colon cancer cell lines, which demonstrate either a high or low ability to invade an extracellular matrix-coated porous filter, was characterized for receptor expression at the transcriptional and post-transcriptional levels. The invasive cell lines possessed 10-fold more receptors than their non-invasive counterparts as shown by cross-linking experiments and by Western blotting. Northern blotting indicated that this disparity in receptor number could be largely accounted for by a different amount of steady-state mRNA encoding the binding site. However, neither gene amplification nor enhanced mRNA stability could account for the augmented receptor protein observed for the invasive colon cancer cell types. In contrast, nuclear run-on experiments with representative cell lines revealed that the 10-fold difference in receptor display between the invasive-competent and invasive-deficient cells could be largely accounted for by differences in transcription rates. Transcription of the u-PAR gene in the receptor-deficient GEO cells, but not in the receptor-rich RKO cells, could be augmented by protein kinase C stimulation. These findings provide a clear rationale for studies to determine if the urokinase receptor promoter in invasive colon cancer is activated in cis or in trans.
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PMID:Transcriptional activation of the urokinase receptor gene in invasive colon cancer. 807 48


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