Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Urokinase-type plasminogen activator (uPA) binds to cells via a specific glycosylphosphatidylinositol-anchored receptor. Although occupancy of the uPA receptor (uPAR) has been shown to alter cellular function and to induce gene expression, the signaling mechanism has not been characterized. Urokinase induced an increase in the tyrosine phosphorylation of multiple proteins in bovine aortic endothelial cells. In contrast, low molecular weight uPA did not induce this response. Analysis by immunoblotting demonstrated tyrosine phosphorylation of focal adhesion kinase (FAK), the focal adhesion-associated proteins paxillin and p130(cas), and mitogen-activated protein kinase (MAPK) following the occupancy of the uPAR by uPA. Treatment of cells with phosphatidylinositol-specific phospholipase C, which cleaves glycosylphosphatidylinositol-linked proteins from the cell surface, blocked the uPA-induced tyrosine phosphorylation of FAK, indicating the requirement of an intact uPAR on the cell surface. The uPA-induced activation of MAPK was completely inhibited by genistein, but not by 4-amino-5-(4-methylphenyl)-7-(t-butyl)pyrazolo[3, 4-d]pyrimidine, a specific inhibitor of Src family kinases. Thus, this study demonstrates a novel role for the uPAR in endothelial cell signal transduction that involves the activation of FAK and MAPK, which are mediated by the receptor-binding domain of uPA. This may have important implications for the mechanism through which uPA influences cell migration and differentiation.
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PMID:The urokinase-type plasminogen activator receptor mediates tyrosine phosphorylation of focal adhesion proteins and activation of mitogen-activated protein kinase in cultured endothelial cells. 966 Jul 90

We review the evidence in support of the notion that, upon experimental oncogenic transformation or in spontaneous human cancers, mitogenesis and expression of urokinase (uPA) and its receptor (uPAR) are activated through common signaling complexes and pathways. It is well documented that uPA, uPAR or metalloproteinases (MMPs) are overexpressed in tumor cells of mesenchymal or epithelial origin and these molecules are required for tumor invasion and metastasis. Furthermore, oncogenic stimuli, which may render the transformed cells tumorigenic and metastatic in vivo, activate, in a constitutive fashion, the extracellular-regulated kinases (Erk 1 and 2) classical mitogenic pathway and others such as the NH(2)-Jun-kinase (Jnk). Cells from human tumors or oncogene-transformed cells overexpress uPA and uPAR, and also show a sustained activation of the above-mentioned signaling modules. In this paper we show that the classical mitogenic pathway involving Ras-Erk, PKC-Erk or Rac-JNK, among others, is activated by growth factors or endogenously by oncogenes, and constitutively activates uPA and uPAR expression. All the data obtained from human tumors or experimental systems, incorporated into a general model, indicate that oncogenic stimuli lead to the constitutive activation of mitogenesis and uPA and its receptor expression, through the activation of the same classical and nonclassical signaling complexes and pathways that regulate cell proliferation. We also discuss contrasting points of view. For instance, what governs the differential regulation of mitogenesis and the signal that leads to protease overexpression in a way that allows normal cells during physiological events to respond to growth factors, and proliferate without overexpressing extracellular matrix (ECM) proteases? Or how can cells remodel their microenvironment without proliferating? What restrains benign tumors from overexpressing tumor-associated proteases when they certainly have the mitogenic signal fully activated? This may occur by the differential regulation of transcriptional programs and recent reports reviewed in this paper may provide an insight into how this occurs at the signaling and transcriptional levels.
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PMID:Deregulation of the signaling pathways controlling urokinase production. Its relationship with the invasive phenotype. 1040 35

Mechanisms that regulate the transition of metastases from clinically undetectable and dormant to progressively growing are the least understood aspects of cancer biology. Here, we show that a large ( approximately 70%) reduction in the urokinase plasminogen activator receptor (uPAR) level in human carcinoma HEp3 cells, while not affecting their in vitro growth, induced a protracted state of tumor dormancy in vivo, with G(0)/G(1) arrest. We have now identified the mechanism responsible for the induction of dormancy. We found that uPA/uPAR proteins were physically associated with alpha5beta1, and that in cells with low uPAR the frequency of this association was significantly reduced, leading to a reduced avidity of alpha5beta1 and a lower adhesion of cells to the fibronectin (FN). Adhesion to FN resulted in a robust and persistent ERK1/2 activation and serum-independent growth stimulation of only uPAR-rich cells. Compared with uPAR-rich tumorigenic cells, the basal level of active extracellular regulated kinase (ERK) was four to sixfold reduced in uPAR-poor dormant cells and its stimulation by single chain uPA (scuPA) was weak and showed slow kinetics. The high basal level of active ERK in uPAR-rich cells could be strongly and rapidly stimulated by scuPA. Disruption of uPAR-alpha5beta1 complexes in uPAR-rich cells with antibodies or a peptide that disrupts uPAR-beta1 interactions, reduced the FN-dependent ERK1/2 activation. These results indicate that dormancy of low uPAR cells may be the consequence of insufficient uPA/uPAR/alpha5beta1 complexes, which cannot induce ERK1/2 activity above a threshold needed to sustain tumor growth in vivo. In support of this conclusion we found that treatment of uPAR-rich cells, which maintain high ERK activity in vivo, with reagents interfering with the uPAR/beta1 signal to ERK activation, mimic the in vivo dormancy induced by downregulation of uPAR.
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PMID:Tumor dormancy induced by downregulation of urokinase receptor in human carcinoma involves integrin and MAPK signaling. 1050 58

The low density lipoprotein receptor-related protein (LRP) has been reported to regulate cellular migration. In this study, an antisense RNA expression strategy was used to reduce LRP to undetectable levels in HT 1080 fibrosarcoma cells. The LRP-deficient cells demonstrated increased levels of cell-surface uPAR, higher levels of uPA in conditioned medium, increased migration on vitronectin-coated surfaces, and increased invasion of Matrigel. LRP-deficient cells also demonstrated increased levels of phosphorylated extracellular signal-regulated kinase (ERK) in the absence of exogenous stimulants. Antibodies which block binding of endogenously produced uPA to uPAR reduced ERK phosphorylation and migration of LRP-deficient cells to the levels observed with control cells. Inhibitors of ERK activation, including PD098059 and dominant-negative MEK1, also decreased the migration of LRP-deficient but not control cells. By contrast, constitutively active MEK1 stimulated the migration of control but not LRP-deficient cells. Although Matrigel invasion by LRP-deficient cells was inhibited by the proteinase inhibitor, aprotinin, PD098059 in combination with aprotinin was necessary for an optimal effect. Expression of the VLDL receptor in LRP-deficient cells reversed the changes in cellular migration and invasion. These studies demonstrate that binding of endogenously produced uPA to uPAR may serve as a major determinant of basal levels of activated ERK and, by this mechanism, regulate cellular migration and invasion. By regulating the uPA/uPAR system, LRP may also regulate ERK activation, cellular migration, and invasion.
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PMID:Extracellular signal-regulated kinase functions in the urokinase receptor-dependent pathway by which neutralization of low density lipoprotein receptor-related protein promotes fibrosarcoma cell migration and matrigel invasion. 1059 31

Urokinase-type plasminogen (uPA) activator regulates a variety of processes, including morphogenesis, cell differentiation, migration, and invasion. In previous studies, we demonstrated that uPA levels are significantly higher in anaplastic astrocytoma and glioblastoma than in low-grade glioma and normal brain tissue. In the present study, our goal was to determine whether the increase in uPA production in higher-grade gliomas is caused by an increase in mRNA stability or increased transcription of the gene in three human glioma cell lines of various grades (H4, SW1783, UWR3). The half-life of uPA mRNA was about 14 h in UWR3 and 8 h in SW1783 cells. In transient transfection studies of the wild-type -2109-bp human uPA promoter in the different grades of cell lines, the uPA promoter activity was increased two-fold in SW1783, anaplastic astrocytoma cells and six-fold in UWR3 glioblastoma cells, as compared with the uPA promoter activity in low-grade H4 cells. Using human uPA promoter chloramphenicol acetyl transferase (CAT) constructs with mutations of the AP-1 element at -1967 or the PEA-3 cis element at -1973, the activity of the uPA promoter was decreased 4-fold to 10-fold in all three human glioma cell lines. In transient transfection assays, the uPA promoter was stimulated 2.2-fold in UWR3 and SW1783 cells and 3.7-fold in H4 cells in response to phorbol-12-myristat-13-acetate. We further studied the activation and inhibition of uPA promoter by co-expression of a transactivation domain lacking c-jun: a dominant negative ERK1 and ERK2 mutant and a dominant negative c-raf in glioblastoma cell line showed repressed uPA promoter activity compared with the effect of the empty expression vector. We conclude from our findings that increased transcription is the more likely mechanism underlying the increase in uPA production in high-grade gliomas.
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PMID:Regulation of the uPA gene in various grades of human glioma cells. 1111 41

We reported previously that endogenous p38 MAPK activity is elevated in invasive breast cancer cells and that constitutive p38 MAPK activity is important for overproduction of uPA in these cells (Huang, S., New, L., Pan, Z., Han, J., and Nemerow, G. R. (2000) J. Biol. Chem. 275, 12266-12272). However, it is unclear how elevated endogenous p38 MAPK activity is maintained in invasive breast cancer cells. In the present study, we found that blocking alpha(v) integrin functionality with a function-blocking monoclonal antibody or down-regulating alpha(v) integrin expression with alpha(v)-specific antisense oligonucleotides significantly decreased the levels of active p38 MAPK and inhibited cell-associated uPA expression in invasive breast cancer MDA-MB-231 cells. These results suggest a function link between alpha(v) integrin, p38 MAPK activity, and uPA expression in invasive tumor cells. We also found that vitronectin/alpha(v) integrin ligation specifically induced p38 MAPK activation and uPA up-regulation in invasive MDA-MB-231 cells but not in non-invasive MCF7 cells. Finally, using a panel of melanoma cells, we demonstrated that the cytoplasmic tail of alpha(v) integrin subunit is required for alpha(v) integrin ligation-induced p38 MAPK activation.
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PMID:Alpha(v) integrin, p38 mitogen-activated protein kinase, and urokinase plasminogen activator are functionally linked in invasive breast cancer cells. 1160 83

Tissue plasminogen activator (tPA) and urokinase (uPA) are targets of plasminogen activator inhibitor-1 (PAI-1) inhibition. We have previously shown that both proteases can also induce PAI-1 secretion in rat smooth muscle cells (SMCs). We now report that both proteases appear to use very similar cellular mechanisms for signal transduction. They induced PAI-1 secretion using a pathway(s) involving protein kinase C (PKC). They also activated the Raf/Mek/mitogen-activated protein kinase (MAPK) pathway, which lies downstream of PKC activation. Activation of protein kinase A (PKA), however, lowered PAI-1 secretion induced by uPA and tPA, as a result of an inhibition of the PKC pathway and inhibition of Raf, Mek and MAPK phosphorylations. Src and syk family non-receptor tyrosine kinases (TK) were also involved in PAI-1 induction. The mechanisms of interaction of these tyrosine kinases with other pathways appeared to be quite different: src appeared to act within the PKC and PKA pathways, while syk operated independently of these pathways. Furthermore, whereas src inhibition resulted in inhibition of Raf/Mek/Erk phosphorylations, syk inhibition could only inhibit Mek and Erk phosphorylations but not the phosphorylation of Raf. These multiple pathways utilized by uPA and tPA to modulate PAI-1 secretion might be involved in determining the proteolytic or antiproteolytic potential of the SMCs under different pathophysiological conditions.
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PMID:Regulation of plasminogen activator inhibitor-1 secretion by urokinase and tissue plasminogen activator in rat epithelioid-type smooth muscle cells. 1191 47

The tumor suppressor PTEN possesses lipid and protein phosphatase activities. It has been well established that the lipid phosphatase activity is essential for its tumor-suppressive function via the phosphoinositide 3-kinase (PI3K) and Akt pathways. The precise role of the protein phosphatase activity is still unclear. In the current study, we demonstrate that overexpression of wild-type PTEN in the MCF-7 breast cancer line results in phosphatase activity-dependent decreases in the phosphorylation of ETS-2, which is a transcription factor whose DNA-binding ability is controlled by phosphorylation. Exposure of MCF-7 cells to insulin, insulin-like growth factor 1 (IGF-1) or epidermal growth factor (EGF) can lead to the phosphorylation of ETS-2, Akt and ERK1/2. The MEK inhibitor PD590089 abrogates insulin-stimulated phosphorylation of ETS-2. In contrast, the PI3K inhibitor LY492002 has no effect on insulin-stimulated phosphorylation of ETS-2, despite the fact that it diminishes insulin-stimulated phosphorylation of Akt. Interestingly, overexpression of PTEN in MCF-7 leads to blockade of insulin-stimulated, but not EGF-stimulated, phosphorylation of ERK, accompanied by dramatic decreases in ETS-2 phosphorylation. We further show that the relationship of PTEN and ETS-2 has functional significance by demonstrating that PTEN abrogates activation of the uPA Ras-responsive enhancer, a target of ETS-2 action, in a phosphatase-dependent manner, irrespective of the presence or absence of insulin. Our observations, therefore, suggest that PTEN blocks insulin-stimulated ETS-2 phosphorylation through inhibition of the ERK members of the MAP kinase family independently of PI3K, and that the PTEN effect on the phosphorylation status of ETS-2 may be mediated through PTEN's protein phosphatase activity.
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PMID:PTEN blocks insulin-mediated ETS-2 phosphorylation through MAP kinase, independently of the phosphoinositide 3-kinase pathway. 1209 11

After dissemination from a primary tumor, cancer cells may resume growth, leading to overt metastasis, or enter a state of protracted dormancy. However, mechanisms that determine their fate, or markers that predict it, are mostly unavailable. We previously showed that in HEp3 human head and neck carcinoma, the extracellular signal-regulated kinase (ERK)(MAPK)/p38(SAPK) activity ratio predicts whether the cells will proliferate or enter a state of dormancy in vivo. The proliferative balance of high ERK/p38 ratio was induced by high urokinase (uPA) receptor (uPAR) expression, which activated alpha5beta1-integrin and epidermal growth factor receptor. This signaling pathway was additionally enhanced by uPA binding to uPAR and fibronectin binding to alpha5beta1-integrin. We tested whether the ERK/p38 balance is predictive of in vivo behavior in other cancer cell types and whether altering the balance will shift their phenotype between proliferation and dormancy. ERK and p38 activities were determined using either phospho-specific monoclonal antibodies or a trans-reporting system where GAL4-Elk and GAL4-CHOP trans-activation of luciferase gene served as reporters for ERK and p38 activities, respectively. We show that in breast, prostate, melanoma, and fibrosarcoma cell lines, the level of active phospho-ERK and the ERK/p38 activity ratio predict for the in vivo behavior in approximately 90% of the cell lines tested. Modulation of ERK/p38 activity ratio by multiple pharmacological and genetic interventions confirms that high ERK/p38 ratio favors tumor growth, whereas high p38/ERK ratio induces tumor growth arrest (dormancy) in vivo and that ERK is negatively regulated by p38. A melanoma cell line appeared to have developed an escape mechanism to avoid the growth inhibitory effect of high p38 activity. Mechanistic analysis implicated high uPAR expression and its interaction with and activation of alpha5beta1-integrin as determinants of the in vivo growth promoting high ERK/p38 ratio in several cell lines. The small GTPase, Cdc42, was implicated in activation of p38 and growth arrest. These results suggest that even cells that originate in advanced cancers retain a degree of dependence on surface receptors and matrix for their proliferative signals in vivo and provide a therapeutic opportunity to change their phenotype from tumorigenic to dormant.
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PMID:ERK(MAPK) activity as a determinant of tumor growth and dormancy; regulation by p38(SAPK). 1267 Sep 23

Curcumin (diferuloylmethane) is a polyphenol derived from the plant Curcuma longa, commonly called turmeric. Extensive research over the last 50 years has indicated this polyphenol can both prevent and treat cancer. The anticancer potential of curcumin stems from its ability to suppress proliferation of a wide variety of tumor cells, down-regulate transcription factors NF-kappa B, AP-1 and Egr-1; down-regulate the expression of COX2, LOX, NOS, MMP-9, uPA, TNF, chemokines, cell surface adhesion molecules and cyclin D1; down-regulate growth factor receptors (such as EGFR and HER2); and inhibit the activity of c-Jun N-terminal kinase, protein tyrosine kinases and protein serine/threonine kinases. In several systems, curcumin has been described as a potent antioxidant and anti-inflammatory agent. Evidence has also been presented to suggest that curcumin can suppress tumor initiation, promotion and metastasis. Pharmacologically, curcumin has been found to be safe. Human clinical trials indicated no dose-limiting toxicity when administered at doses up to 10 g/day. All of these studies suggest that curcumin has enormous potential in the prevention and therapy of cancer. The current review describes in detail the data supporting these studies.
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PMID:Anticancer potential of curcumin: preclinical and clinical studies. 1268 Feb 38


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