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: EC:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Membrane vesicles are shed by tumor cells both in vivo and in vitro. Although their functions are not well understood, it has been proposed that they may play multiple roles in tumor progression. We characterized membrane vesicles from human HT1080 fibrosarcoma cell cultures for the presence of proteinases involved in tumor invasion. By gelatin zymography and Western blotting, these vesicles showed major bands corresponding to the zymogen and active forms of gelatinase B (MMP-9) and gelatinase A (MMP-2) and to the MMP-9. tissue inhibitor of metalloproteinase 1 complex. Both gelatinases appeared to be associated with the vesicle membrane. HT1080 cell vesicles also showed a strong, plasminogen-dependent fibrinolytic activity in 125I fibrin assays; this activity was associated with urokinase plasminogen activator, as shown by casein zymography and Western blotting. Urokinase was bound to its high affinity receptor on the vesicle membrane. Addition of plasminogen resulted in activation of the progelatinases associated with the vesicles, indicating a role of the urokinase-plasmin system in MMP-2 and MMP-9 activation. We propose that vesicles shed by tumor cells may provide a large membrane surface for the activation of membrane-associated proteinases involved in extracellular matrix degradation and tissue invasion.
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PMID:Urokinase plasminogen activator and gelatinases are associated with membrane vesicles shed by human HT1080 fibrosarcoma cells. 920 45

MCF7 and ZR75-1 breast cancer cells grow as adherent monolayers in tissue culture. Treatment with the serum serine protease plasmin causes them to detach and to grow as floating multicellular spheroids. Two plasmin activators, urokinase plasminogen activator and streptokinase, induce the same growth pattern changes in the presence of plasminogen. Serum contains also plasminogen activator inhibitors. Aged serum, deficient in plasminogen activator inhibitors, converts spontaneously monolayer breast cancer cells into multicellular spheroids which readily revert to monolayer growth after addition of fresh serum. Urokinase blocks the reversion. The formation of multicellular spheroids does not affect the proliferative rate of breast tumor cells but endows tumor cells with increased resistance to the chemotherapeutic drugs, doxorubicin and paclitaxel.
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PMID:Plasmin induces the formation of multicellular spheroids of breast cancer cells. 923 31

Tissue type plasminogen activator (tPA) is the physiological initiator of fibrinolysis, activating plasminogen via highly specific proteolysis; plasmin then degrades fibrin with relatively broad specificity. Unlike other chymotrypsin family serine proteinases, tPA is proteolytically active in a single-chain form. This form is also preferred for therapeutic administration of tPA in cases of acute myocardial infarction. The proteolytic cleavage which activates most other chymotrypsin family serine proteinases increases the catalytic efficiency of tPA only 5- to 10-fold. The X-ray crystal structure of the catalytic domain of recombinant human single-chain tPA shows that Lys156 forms a salt bridge with Asp194, promoting an active conformation in the single-chain form. Comparisons with the structures of other serine proteinases that also possess Lys156, such as trypsin, factor Xa and human urokinase plasminogen activator (uPA), identify a set of secondary interactions which are required for Lys156 to fulfil this activating role. These findings help explain the anomalous single-chain activity of tPA and may suggest strategies for design of new therapeutic plasminogen activators.
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PMID:Lysine 156 promotes the anomalous proenzyme activity of tPA: X-ray crystal structure of single-chain human tPA. 930 22

We previously found that the binding of pemphigus IgG to desmogleins caused marked activation of phospholipase C, a transient increase in inositol 1,4,5-trisphosphate production, and a concomitant increase in the intracellular calcium concentration in DJM-1 cells, a squamous cell carcinoma line. The binding of pemphigus IgG to cell membranes increased the activity of urokinase plasminogen activator in culture medium and induced subsequent cell-cell detachment in DJM-1 cells. Because urokinase plasminogen activator activates the conversion of plasminogen to plasmin by binding to urokinase plasminogen activator receptor evading inhibitors in serum, it is likely that plasmin is generated only in microenvironments adjacent to urokinase plasminogen activator receptor on the cell surface. It is not known whether pemphigus IgG causes acantholysis by inducing urokinase plasminogen activator receptor expression on the cell surface and secreting urokinase plasminogen activator in inhibitor-rich environments. We examined the effects of pemphigus IgG on urokinase plasminogen activator receptor expression in DJM-1 cells and normal keratinocytes by immunoblot analysis and immunofluorescence microscopy using antibodies to urokinase plasminogen activator receptor. IgG were obtained from serum samples from eight patients with bullous pemphigoid, five patients with pemphigus vulgaris, seven patients with pemphigus foliaceus, and eight normal subjects. Pemphigus vulgaris and pemphigus foliaceus IgG significantly increased the urokinase plasminogen activator receptor expression on the surface of DJM-1 cells and normal keratinocytes after 3- and 7-d incubation compared with normal IgG. These results suggest that enhanced urokinase plasminogen activator activity and urokinase plasminogen activator receptor expression activates plasmin in the limited cell surface of pemphigus IgG-bound keratinocytes and may contribute to the pathogenesis of differential acantholysis in pemphigus vulgaris and pemphigus foliaceus.
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PMID:Pemphigus IgG induces expression of urokinase plasminogen activator receptor on the cell surface of cultured keratinocytes. 934 94

Several important functions have been assigned to the receptor for urokinase-type plasminogen activator, uPAR. As implied by the name, uPAR was first identified as a high affinity cellular receptor for urokinase plasminogen activator (uPA). It mediates the binding of the zymogen, pro-uPA, to the plasma membrane where trace amounts of plasmin will initiate a series of events referred to as "reciprocal zymogen activation" where plasmin converts pro-uPA to the active enzyme, uPA, which in turn converts plasma membrane-associated plasminogen to plasmin. This is an efficient machinery to generate broad-spectrum proteolytic activity which is spatially restricted to the plasma membrane, since plasmin that diffuses away from the plasma membrane is rapidly inactivated by circulating inhibitors (i.e., alpha 2-antiplasmin). The system is controlled by a series of plasminogen activator inhibitors (PAIs), most importantly PAI-1 and PAI-2, providing means of temporally restricting the process of plasminogen activation. In addition to its role in plasminogen activation, compelling evidence has demonstrated a role for uPAR in cell-cell and cell-extracellular matrix adhesion, both directly and indirectly. uPAR is directly involved in binding to the extracellular matrix molecule, vitronectin, and the affinity of this binding is increased when uPAR is occupied by (pro-)uPA. A more indirect but presumably very important role of uPAR in cell adhesion seems to be mediated through interactions between uPAR and beta 1- or beta 2-integrins. It has been demonstrated that uPAR may bind physically to integrins in a reversible manner. The interaction seems to be of functional importance since the affinity of the integrin for its corresponding ligand is modulated by the association of integrin with uPAR. In some experimental setups uPAR has been shown to reduce the affinity of the associated integrin for certain ligands, while other experimental systems have demonstrated an increased affinity of the interaction between integrin and ligand after binding of uPAR to the integrin. Finally, uPAR has also been shown to participate in signal transduction events. Since uPAR is not a transmembrane molecule but belongs to the group of proteins that are tethered to the plasma membrane via a glycosyl-phosphatidylinositol anchor, association with a transmembrane adaptor is required for transmission of signals via uPAR. Integrins may serve as such signal transducers, and indeed uPAR has been shown to be associated in the plasma membrane with complexes of integrins and (phosphorylated) tyrosin kinases suggesting a role for these complexes in transmembrane transmission of signals via uPAR. In the hematopoietic system it has been shown that urokinase-type plasminogen activator (uPAR) is expressed as a differentiation antigen on cells of the myelomonocytic lineage and as an activation antigen on monocytes and T lymphocytes. Neutrophils contain intracellular reservoirs of uPAR that are translocated to the plasma membrane upon activation, and neutrophils from patients with the rare blood disease paroxysmal nocturnal hemoglobinuria (PNH) that fail to express glycosyl-phosphatidylinositol-anchored proteins including uPAR, show a very significantly reduced transmigration over an endothelial barrier. Cell-associated plasminogen activation by PNH-affected neutrophils is severely impaired, and it has been proposed that this may be causally related to the propensity for thrombosis in PNH. The pattern of expression of uPAR in hematological malignancies mirrors the expression by normal blood and bone marrow counterparts with some exceptions (differentiated myeloid leukemias are positive, undifferentiated myeloid may be negative and the majority of lymphoid leukemias and lymphomas are negative). The potential clinical relevance of uPAR expression in leukemias and lymphomas has not been determined.
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PMID:Structure, function and expression on blood and bone marrow cells of the urokinase-type plasminogen activator receptor, uPAR. 940 52

The B10/B10.A congenic mouse pair serves as a model for identifying specific genes related to morphogenesis and dysmorphogenesis of the embryonic palate and other organs. The present report describes our initial investigation of the Fraser-Juriloff paradigm, which proposes that susceptibility to malformation results from genetically determined differences in normal developmental patterns. Specifically, we evaluated the relationship between Igf2r gene expression, transforming growth factor-beta (TGF-beta) activation, and cdk4 gene expression. By using in situ hybridization, RNase protection assays, indirect immunofluorescence, Western blots, and bioassays, we show 1) the presence of insulin-like growth factor II (IGF-II), IGF-II receptor (IGF-IIR), IGF-IR, TGF-beta, plasminogen, plasminogen activators [urokinase plasminogen activator (uPA) and tissue plasminogen activator (tPA)], and Cdk4 in developing palates; 2) on embryonic day 14 (E14), which is a critical day for palatal growth, B10.A embryos have 82% greater IGF-IIR mRNA than B10; 3) on E14, B10.A embryonic palates have a 57% greater level of active TGF-beta2 than B10, although the total TGF-beta2 is nearly identical; and 4) on E14, B10 embryonic palates have a 52% greater level of Cdk4 mRNA than B10.A palates, a measure of cell cycle progression. Because cellular activation of latent TGF-beta appears to require binding to the mannose-6-phosphate (M6P) binding site of the IGF-IIR and is plasmin and plasminogen activator dependent, the positive correlation of IGF-IIR levels and active TGF-beta2 levels seems to be key. Thus, the strain variation of TGF-beta2/IGF-IIR-mediated growth inhibition in late G1 phase would appear to account for the slower growth and development of B10.A palates relative to B10. Elevated corticosteroid (CORT) exposure in E14 B10.A embryos significantly increases TGF-beta levels, 87% of which is TGF-beta2, as well as the levels of active TGF-beta, 64% of which is TGF-beta2. Without exogenous CORT, B10.A embryos do not have clefts; hence, we present an outline of pathogenesis: slower growing B10.A embryos have an up-regulation of IGF-IIR, which serves to sequester IGF-II from the growth-promoting IGF-IR and to bind more CORT-up-regulated, latent TGF-beta2 for subsequent plasmin-dependent activation; higher levels of TGF-beta2 signaling down-regulate Cdk4 and result in greater palatal growth inhibition at a critical stage of palatogenesis and, thus, cleft palate. We present an epigenetic model of information processing related to cell proliferation. The model is a dynamical network that uses continuous logic to learn its rules from changing conditions.
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PMID:Insulin-like growth factor II receptor, transforming growth factor-beta, and Cdk4 expression and the developmental epigenetics of mouse palate morphogenesis and dysmorphogenesis. 943 20

Amiloride is an inhibitor of urokinase plasminogen activator (uPA), an essential component of the plasminogen/plasmin enzyme system. Inhibition of uPA prevents the conversion of plasminogen to tumor cell surface bound plasmin which is required for initiation of the metastatic process. MATB rat mammary cancer cells were introduced into the jugular venous system of 80 Fisher 344 female rats. Amiloride at high and low dosages was administered in the drinking water at the time of, prior to or several days following the tumor cell inoculation and continued daily for 10 days post inoculation. Control rats were maintained on water alone. The middle lobe of the right lung was examined microscopically for numbers of metastases. Suppression of metastases was significant at high amiloride dosages in all groups, and at low dosage when administered prior to inoculation. We conclude that amiloride suppresses induced metastases of rat mammary cancer, the effect being dose- and time-dependent.
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PMID:Time and dose dependency of the suppression of pulmonary metastases of rat mammary cancer by amiloride. 962 14

We have previously shown that thrombospondin-1 (TSP-1) and TGF-beta 1 upregulate the urokinase plasminogen activator (uPA) and its receptor (uPAR) and promote tumor cell invasion in breast cancer. To date, the effect of TSP-1 and TGF-beta 1 on the plasminogen/plasmin system in gastrointestinal epithelial malignancies has not been investigated. In this study, we determined the effect of TSP-1 and TGF-beta 1 on uPA and uPAR expression and on tumor cell invasion in pancreatic cancer. ASPC1 human pancreatic adenocarcinoma cells were incubated for 48 h on cell-conditioned media (CCM) either alone (Control) or with the addition of either TSP-1 (40 micrograms/ml) or TGF-beta 1 (5 ng/ml). uPA and uPAR expression were determined by ELISA. ASPC1 cell invasion was determined in a modified Boyden chamber type I collagen invasion assay. The upper chamber was treated with CCM either alone (Control) or with the addition of anti-uPA (10 micrograms/ml) or anti-uPAR (10 micrograms/ml). The lower chamber was treated with CCM either alone (Control) or with the addition of either TSP-1 (40 micrograms/ml) or TGF-beta 1 (5 ng/ml). TSP-1 and TGF-beta 1 induced a twofold increase on uPAR expression but only a slight increase on total uPA. Tumor cell invasion was upregulated 3.5 to 4.5-fold by TSP-1 and TGF-beta 1, respectively. Anti-uPA and anti-uPAR antibodies completely blocked the TSP-1 and TGF-beta 1-mediated pancreatic tumor cell invasion. We conclude that TSP-1 and TGF-beta 1 mediate pancreatic tumor cell invasion through upregulation of the plasminogen/plasmin system.
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PMID:The effect of thrombospondin-1 and TGF-beta 1 on pancreatic cancer cell invasion. 969 45

The receptor for urokinase plasminogen activator (uPAR; CD87) is a 50- to 65-kDa glycosylphosphatidylinositol (GPI)-anchored glycoprotein expressed by leukocytes and tumor cells where it facilitates uPA-dependent, plasmin-mediated pericellular proteolysis during cellular invasion. Because uPAR is inducibly shed into culture supernatants and human body fluids, we tested the hypothesis that soluble uPAR (suPAR) can bind to the plasma membrane of hematopoietic cells where it might modulate their invasive phenotype. As measured by flow cytometry, recombinant biotinylated-suPAR (B-suPAR) bound in a specific fashion to THP-1 leukemia cells and blood PMNs and monocytes (but not to lymphocytes). B-suPAR also demonstrated specific binding to a variety of leukemic lines, including cells that are positive or negative for membrane uPAR expression. Binding of B-suPAR to THP-1 cells was enhanced four- to sevenfold by 24-h exposure of cells to PMA or by co-incubation with uPA ligand (but not its isolated catalytic and binding fragments). Conversely, binding of B-suPAR to PMNs was unaffected by brief exposure to fMLP, and was inhibited by co-incubation with uPA. B-suPAR biding to PMA-differentiated THP-1 cells in the presence of uPA was further enhanced by acid washing (removing endogenous uPA) but was partially inhibited by treatment of cells with trypsin. Pretreatment of PMA-differentiated THP-1 cells and unstimulated PMNs with soluble sugars, calcium chelators, and antibodies specific for integrins or extracellular matrix proteins failed to consistently block the binding of B-suPAR. Whereas the binding of suPAR did not measurably affect cell-associated plasmin activation, suPAR did competitively inhibit the binding of exogenous uPA to membrane-associated uPAR. These observations support the hypothesis that suPAR can bind specifically to trypsin-sensitive receptors expressed by certain normal and neoplastic hematopoietic cells where its binding is variably influenced by uPA ligand.
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PMID:A soluble form of the urokinase plasminogen activator receptor (suPAR) can bind to hematopoietic cells. 971 60

The receptor for urokinase plasminogen activator (uPAR) is a key molecule in cell surface-directed plasminogen activation. uPAR binds urokinase plasminogen activator (uPA) and thereby focuses plasminogen activation on the cell surface. Plasmin dissolves fibrin deposits and facilitates cell migration during tissue repair processes by degrading the extracellular matrix. During human implantation and placental development, plasmin is considered important for both trophoblast migration/invasion and for fibrin surveillance. This study examined the expression of uPAR in normal and ectopic human placentae by immunohistochemistry. In first and third trimester normal placentae as well as in tubal ectopic placental tissues, a high uPAR expression was seen in the trophoblast associated with deposits of fibrin-type fibrinoid. Extravillous trophoblast of the basal plate, of the cell islands, and of the cell columns was also positive for uPAR in the first trimester whereas at term the expression of the protein was decreased. Moreover, uPAR immunostaining was observed in decidual cells throughout normal gestation and in endometrial tissues of patients with ectopic pregnancies. These findings suggest that uPAR participates in placental development and in trophoblast invasion particularly in the first trimester of pregnancy and that uPAR is involved in repair mechanisms of the trophoblast and fibrin surveillance.
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PMID:Immunohistochemical identification of the receptor for urokinase plasminogen activator associated with fibrin deposition in normal and ectopic human placenta. 977 23


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