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Query: UMLS:C0699790 (
colon cancer
)
28,837
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Expression of urokinase plasminogen activator (uPA) and its receptor (
uPAR
) strongly correlates with a malignant tumour cell phenotype. In the multistep process of metastasis, uPA binding to
uPAR
influences different cellular functions. In the present study, a highly metastatic colon cancer cell line, HCT116 was transfected with an expression vector containing a 5'
uPAR
cDNA fragment in an antisense orientation. This construct was most effective in reducing
uPAR
cell surface expression as confirmed by flow cytometry analysis. Antisense transfection of HCT116 cells had no effect on proliferation but the following effects were observed: (1) a 1.3-fold decreased adhesion; (2) a two-fold decreased Erk MAP kinase activity; (3) a 2.7-fold decrease in Src kinase activity; (4) a 1.5- and two-fold decrease in uPA cell surface expression and secretion; (5) abrogation of promatrix metalloproteinase-9 secretion; and (6) a complete suppression of plasminogen-dependent matrix degradation. Using proteomic analysis, we demonstrate loss of approximately 200 proteins and quantitative differences in the expression of 141 other proteins in an antisense-clone compared to wild-type and mock-transfected control. Such changes in protein expression with the down-regulation of
uPAR
may be an important contributor in
colon cancer
progression and metastasis and may not only provide a basis to develop a proteomic data bank of
uPAR
-mediated signaling molecules but may also lead to the development of therapeutic approaches for the cure and better management of
colon cancer
.
...
PMID:Proteomic profiling of proteins associated with urokinase plasminogen activator receptor in a colon cancer cell line using an antisense approach. 1262 82
Membrane type serine protease 1 (MT-SP1) is a representative member of a large family of related enzymes known as type II transmembrane serine proteases or membrane type serine proteases. MT-SP1 has been implicated in the selective proteolysis of key extracellular substrates but its physiological role is still not fully understood. MT-SP1 expression at the protein and RNA level has been previously examined by nonquantitative methods such as in situ hybridization, Northern blotting and immunohistochemistry. To establish an introductory understanding of the quantitative mRNA expression of MT-SP1 and to correlate these levels with
urokinase-type plasminogen activator receptor
(
uPAR
), a key component of extracellular proteolysis, quantitative RT-PCR was carried out. RNA expression was analyzed in 34 human cancer cell lines, 26 human tissues and 18 primary human breast cancer tissue samples. MT-SP1 mRNA is highly expressed in many breast, ovarian, prostate and
colon cancer
cell lines and normal human tissues of endodermal origin. At the transcript level, MT-SP1 shows a highly statistically significant correlation (Pearson's product moment correlation r = 0.784, p < 0.001) with
uPAR
in human breast cancer tissue. The exact role of MT-SP1 in concert with proteins such as
uPAR
and other members of the plasminogen activator cascade has yet to be ascertained. However, the significant correlation between MT-SP1 and
uPAR
transcript levels in this initial study suggests further work to establish the role of MT-SP1 as a possible prognostic, diagnostic or therapeutic target for breast cancer.
...
PMID:Quantitation of membrane type serine protease 1 (MT-SP1) in transformed and normal cells. 1267 19
Colorectal cancer is the second most frequent cancer in the Western world, often lethal when invasion and/or metastasis occur. In addition to hepatocyte growth factor (HGF),
colon cancer
invasion may be driven by prostaglandins, especially the E2 series (PGE2), generated by the cyclooxygenase-2 (Cox-2) enzyme. While concentration of PGE2 as well as expression of Cox-2, HGF receptor (c-Met-R), epidermal growth factor receptor (EGFR), and beta-catenin are all dramatically increased in colon cancers and implicated in their growth and invasion, the precise role of PGE2 in the latter process remains unclear. Here we provide evidence that PGE2 transactivates c-Met-R (contingent upon functional EGFR), increases tyrosine phosphorylation and nuclear accumulation of beta-catenin, and induces
urokinase-type plasminogen activator receptor
(
uPAR
) mRNA expression. This is accompanied by increased beta-catenin association with c-Met-R and enhanced
colon cancer
cell invasiveness. Inactivation of EGFR and c-Met-R significantly reduced PGE2-induced cancer cell invasiveness. Clinical relevance of these findings is confirmed by our immunohistochemical studies demonstrating that cancer cells in the invasive front overexpress Cox-2, c-Met-R, and beta-catenin. Our findings explain a functional relationship between prostaglandins, EGFR, and c-Met-R in
colon cancer
growth and invasion.
...
PMID:Prostaglandins promote colon cancer cell invasion; signaling by cross-talk between two distinct growth factor receptors. 1295 70
Colorectal cancer is often lethal when invasion and/or metastasis occur. Tumor progression to the metastatic phenotype is mainly dependent on tumor cell invasiveness. Secondary bile acids, particularly deoxycholic acid (DCA), are implicated in promoting
colon cancer
growth and progression. Whether DCA modulates beta-catenin and promotes
colon cancer
cell growth and invasiveness remains unknown. Because beta-catenin and its target genes
urokinase-type plasminogen activator receptor
(
uPAR
) and cyclin D1 are overexpressed in colon cancers, and are linked to cancer growth, invasion, and metastasis, we investigated whether DCA activates beta-catenin signaling and promotes
colon cancer
cell growth and invasiveness. Our results show that low concentrations of DCA (5 and 50 microM) significantly increase tyrosine phosphorylation of beta-catenin, induce urokinase-type plasminogen activator,
uPAR
, and cyclin D1 expression and enhance
colon cancer
cell proliferation and invasiveness. These events are associated with a substantial loss of E-cadherin binding to beta-catenin. Inhibition of beta-catenin with small interfering RNA significantly reduced DCA-induced
uPAR
and cyclin D1 expression. Blocking
uPAR
with a neutralizing antibody significantly suppressed DCA-induced
colon cancer
cell proliferation and invasiveness. These findings provide evidence for a novel mechanism underlying the oncogenic effects of secondary bile acids.
...
PMID:Deoxycholic acid activates beta-catenin signaling pathway and increases colon cell cancer growth and invasiveness. 1500 25
The
urokinase-type plasminogen activator receptor
(u-PAR) plays a central role in cell migration, growth, and invasion and is regulated, in part, transcriptionally. In mice, u-PAR expression is restricted to a few tissues, one of which is the colon. We therefore screened a colon expression library for regulators of u-PAR promoter activity and identified a zinc finger protein bearing consensus sequences to the Kruppel-like family of transcription factors and showing partial homology with one of the members, KLF4. Like u-PAR, KLF4 expression is predominant in the luminal surface epithelial cells of the colonic crypt, and we hypothesized that u-PAR synthesis in these cells is directed by this transcription factor. Colon cells from KLF4 null mice showed a dramatic reduction in u-PAR protein compared with wild-type mice. Conversely, KLF4 expression in HCT116
colon cancer
cells increased the amount of u-PAR protein/mRNA. Transient transfection of KLF4 with a reporter driven by 5'-deleted u-PAR promoter fragments indicated the requirement of the proximal 200 base pairs for optimal expression. Mobility-shifting experiments demonstrated binding of KLF4 to multiple regions of the u-PAR promoter (-154/-128, -105/-71, and -51/-24), and chromatin immunoprecipitation assays confirmed the binding of KLF4 to the endogenous promoter. Deletion of the -144/-123 promoter region diminished but did not eliminate the ability of KLF4 to transactivate the u-PAR promoter, suggesting cooperativity of these binding sites with respect to activation of gene expression. In conclusion, we have identified KLF4 as a novel regulator of u-PAR expression that drives the synthesis of u-PAR in the luminal surface epithelial cells of the colon.
...
PMID:The Kruppel-like KLF4 transcription factor, a novel regulator of urokinase receptor expression, drives synthesis of this binding site in colonic crypt luminal surface epithelial cells. 1503 Dec 82
The interaction between the urokinase receptor (
uPAR
) and its ligand urokinase (uPA) mediates phenomena such as tissue remodelling, chemotaxis, tumour invasion, dissemination, proliferation, and angiogenesis. The broad-spectrum of biological processes that the uPA/
uPAR
interaction plays a role in has led researchers to speculate that this interaction may be a useful molecular target for therapeutic intervention in several pathological conditions, particularly in the prevention and inhibition of the dissemination of cancer cells. In syngeneic and xenograft murine tumour models, in which metastasis is driven by the uPA/
uPAR
interaction, inhibition of primary tumour growth, metastasis and angiogenesis has been shown with several proteins acting as
uPAR
antagonists. Immunohistochemistry, in conjunction with prognostic studies, has implicated the uPA/
uPAR
interaction in the dissemination of tumours, such as malignant melanoma,
colon cancer
, non-small cell lung cancer (NSCLC) and stomach cancer, as well as breast and ovarian carcinomas. A potential inhibitor of the uPA/
uPAR
interaction should result in a significant increase in the disease-free interval and survival time following resection of the primary tumour in a clinical Minimal Residual Disease (MRD) setting. Low molecular weight
uPAR
antagonists should be orally active, and have few side-effects, excellent bioavailability, favourable pharmacokinetic properties and a long half-life. Furthermore, these compounds should be able to inhibit the dissemination of cancer cells without the need for targeted drug and vector delivery.
...
PMID:Urokinase receptor antagonists: novel agents for the treatment of cancer. 1599 80
The urokinase receptor (
uPAR
), transcriptionally activated in several cancers, contributes to tumor progression by promoting cell migration and proteolysis, and repressing expression of this gene could be of therapeutic utility. Indeed, targeting regulatory element(s) in the promoter may represent an efficient means for reducing expression because only two alleles have to be neutralized. We previously identified the -148/-124 promoter region, bound with Sp1 and Sp3, as regulatory for
uPAR
expression in vitro. The purpose of this study was twofold: to determine (a) the accessibility of this region in its natural chromatin setting and (b) the efficacy of WP631, a bisintercalator favoring GC-rich DNA sequences, in repressing endogenous
uPAR
expression in RKO
colon cancer
cells. In these cells, DNaseI hypersensitivity, genomic footprinting, and chromatin immunoprecipitation experiments revealed that the -148/-124
uPAR
promoter region was accessible in chromatin and bound with Sp1, thus validating it as a therapeutic target. WP631 treatment competed for transcription factor binding to this regulatory region and reduced
uPAR
mRNA/protein. However, a chemically related compound (WP629), with low DNA binding affinity, failed to diminish
uPAR
protein amount. GAPDH mRNA level was only modestly affected by WP631, arguing against the possibility that this bisanthracycline universally represses expression of GC-rich promoter-driven genes. Further,
uPAR
function, as assessed by migration of cells across a vitronectin-coated filter, was attenuated with WP631. Thus, we have shown that the chromatinized -148/-124 regulatory region of the
uPAR
promoter is accessible to small molecules and that WP631, which disrupts the interaction of DNA binding proteins with this region, diminishes
uPAR
expression and function.
...
PMID:A bisanthracycline (WP631) represses uPAR gene expression and cell migration of RKO colon cancer cells by interfering with transcription factor binding to a chromatin-accessible -148/-124 promoter region. 1626 46
In this study, the effects of acetylsalicylic acid (aspirin) on the expression of
uPAR
and the mechanism by which it regulates expression of
uPAR
was examined in two different
colon cancer
cell lines HCT116 and GEO, respectively. The study shows that under physiological concentration, aspirin upregulates steady-state level expression of
uPAR
mRNA as well as expression of
uPAR
protein. Using a transient transfection assay, a region corresponding to -1 to -398 region of
uPAR
promoter has been identified which shows maximum responsiveness to aspirin treatment and found that this region is sufficient for the aspirin-induced up-regulation of
uPAR
. A stable integration of a single copy of this region coupled to luciferase reporter gene into the HCT116 genome also behaved similarly. Using gel mobility shift assays, it is found that the distal AP1 region between -171 and -186 is responsible for the aspirin-induced up-regulation of
uPAR
. Mutation of this region reduced up-regulation. Supershift assays identify that the bound proteins at this region are c-Jun and Fra-1. Real-time PCR analysis showed more than 4-fold increase in the binding of c-Jun and a 1.6-fold increase in the binding of Fra-1 in this region and this up-regulation corresponds to an increased binding of acetylated histone H4 in this region. Since an increase in the expression of
uPAR
corresponds to an increase in the migration of the cell, a migration assay was performed and result showed a 3-fold increased migration of HCT116 cells through the vitronectin-coated layer. Thus, an AP1 mediated pathway for aspirin induced up-regulation of
uPAR
has been identified.
...
PMID:Aspirin upregulates expression of urokinase type plasminogen activator receptor (uPAR) gene in human colon cancer cells through AP1. 1689 20
It is becoming increasingly clear that tumor growth and progression is not entirely due to genetic aberrations but also reflective of tumor cell plasticity. It follows therefore that proteins contributing to tumor progression oscillate in their expression a contention yet to be shown. Because the
urokinase-type plasminogen activator receptor
(
uPAR
) promotes tumor growth and invasion, we determined whether its expression is itself plastic. In fluorescence-activated cell sorting (FACS), three independent
colon cancer
clonal populations revealed the expected Gaussian distribution for cell surface
uPAR
display. However, subcloning of cells collected from the trailing edge of the FACS yielded subpopulations, displaying low cell surface
uPAR
number. Importantly, these subclones spontaneously reverted to cells enriched in
uPAR
display, indicating a metastable phenotype.
uPAR
display plasticity was associated with divergent in vivo behavior with weak tumor growth and progression segregating with receptor deficiency. Mechanistically, reduced
uPAR
display reflected not repressed gene expression but a switch in
uPAR
protein trafficking from membrane insertion to shedding. To our knowledge, this is the first demonstration that
uPAR
cell surface density is oscillatory and we propose that such an event might well contribute to tumor progression.
...
PMID:Plasticity in urokinase-type plasminogen activator receptor (uPAR) display in colon cancer yields metastable subpopulations oscillating in cell surface uPAR density--implications in tumor progression. 1691 70
The transcriptionally regulated
urokinase-type plasminogen activator receptor
(u-PAR) contributes to cancer progression. Although previous studies have identified multiple 5' regulatory elements, these cis motifs cannot fully account for u-PAR expression prompting a search for hitherto uncharacterized regulatory elements. DNase I hypersensitivity and chromatin immunoprecipitation assays using u-PAR-expressing
colon cancer
cells indicated a hypersensitive region (+665/+2068) in intron 1 enriched with acetylated histone 3 (H3) and H3 methylated at lysine 4, markers of regulatory regions. The +665/+2068 region increased transcription from a u-PAR-promoter in an orientation- and distance-independent manner fulfilling the criteria of an enhancer. Optimal stimulation of the u-PAR promoter by phorbol ester required this enhancer. Systematic truncations combined with DNase I footprinting revealed two protected regions (+1060/+1099 and +1123/+1134) with deletion of the latter practically abolishing enhancer activity. The +1123/+1134 region harbored non-consensus activator protein-1 and Ets1 binding sites bound with c-Jun (and/or the related JunD/JunB) and c-Fos (and/or the related FosB/Fra-1/Fra-2) as revealed with chromatin immunoprecipitation. Further, nuclear extract from resected colon cancers showed elevated protein binding to a +1123/+1134-spanning probe coordinate with elevated u-PAR protein. Thus, we have defined a novel intragenic enhancer in the u-PAR gene required for constitutive and inducible expression.
...
PMID:Identification of an histone H3 acetylated/K4-methylated-bound intragenic enhancer regulatory for urokinase receptor expression. 1700 7
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