UNIPROT:P00750 - FACTA Search

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Query: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of tissue-type plasminogen activator (t-PA) on the platelet aggregation were studied using citrated whole blood and platelet-rich plasma (PRP) obtained from human donors. t-PA suppressed adenosine 5'-diphosphate (ADP)- or collagen-induced platelet aggregation in a dose-dependent manner. The 50% inhibitory concentration (IC50) for t-PA was lower by one order of magnitude than that for urokinase (UK) in whole blood and PRP. The suppression of platelet aggregation was not completely inhibited by alpha-2-antiplasmin. t-PA did not cause the degradation of fibrinogen or fibrin in PRP, whereas UK caused the reduction of fibrinogen and fibrin, and the increase of fibrinogen- and fibrin-degradation products (FDP). These results suggest that the mode of action of t-PA in inhibiting platelet aggregation may be different from that of UK.
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PMID:Tissue-type plasminogen activator inhibits aggregation of platelets in vitro. 313 48

Intrinsic plasminogen activators (PA) were tested in euglobulins (eug) of platelet poor plasma (PPP) with and without washed platelets (WP), treated or not with urokinase (UK), streptokinase (SK), collagen (Col) and aspirin (ASA) using fibrin plates method. A significant decrease of the fibrinolytic activity related to the presence and number of platelets was observed. We confirm the presence of platelet anti-UK and anti-SK activities. The former appears to be higher than the other activity. Low and high concentrations of Col stimulated the release of plasminogen activator-inhibitors (PA-I) from platelets, and ASA could not modify this release. Besides ASA might inhibit some PA release. The high concentration of Col was capable to release anti-UK and anti-SK activities from platelets and perhaps other intrinsic PA-I. The low concentration of Col was only capable to release intrinsic PA-I, suggesting that anti-UK and anti-SK needed a stronger stimuli to be released than intrinsic PA-I. We must consider the possibility that the PA-I and/or activators could be released by different metabolic pathways other than cyclooxygenase pathway.
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PMID:Aspirin effect on the release of plasminogen activator inhibitors by human platelets. 314 64

The effect of Norplant subdermal implants on 22 different hemostatic variables was determined in 100 women attending the Fertility Control Clinic of the Singapore National University Hospital before and after 6 and 12 months of use. The factors analyzed were: hematocrit, hemoglobin (Hb), prothrombin time (PT), activated partial thromboplastin time (APTT), platelet count, fibrinogen, coagulation factor II, Factor V,Factor VII, Factor VIII, Factor VIIIR:Ag, Factor X, plasminogen activator, FDP, plasminogen (imm), antithrombin III (functional), antithrombin (antigen), protein C, alpha2-antiplasmin, alpha2-macroglobulin, alpha2-antitrypsin, platelet count, platelet aggregation (ADP), and platelet aggregation (collagen). The factors that differed significantly after 12 months were: Hb,PT,APTT, Factors II,V,VII, and VIIIR:Ag, Plasminogen (imm), antithrombin III(antigen), alpha2-antiplasmin, platelet count, and platelet aggregation. Most of these differences, while significant, were still within the normal range, except for PT,APTT, and platelet count. The subjects were considered to be in an enhanced risk for hypercoagulation and thrombosis.
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PMID:The effects of Norplant-2 rods on clinical chemistry in Singaporean acceptors after 1 year of use: haemostatic changes. 314 69

The pyrrolizidine alkaloid monocrotaline produces pulmonary inflammation, hemorrhage, fibrosis, and hypertension. In rats, monocrotaline pneumotoxicity can be ameliorated by cotreatment with inhibitors of angiotensin converting enzyme (ACE), such as CL242817. In the present study, serum and urine copper (Cu) concentrations were evaluated as indices of cardiopulmonary injury in rats sacrificed after six weeks of continuous administration of monocrotaline (0 to 3.6 mg per kg per day, in the drinking water) or CL242817 (60 mg per kg per day, in the feed), or both. Monocrotaline-treated rats exhibited dose-dependent increases in (1) pulmonary histopathology, (2) pulmonary endothelial dysfunction (decreased lung plasminogen activator activity, and increased prostacyclin and thromboxane production), (3) pulmonary hydroxyproline (collagen) content, and (4) cardiac right ventricular hypertrophy (an anatomic correlate of pulmonary hypertension). The severity of cardiopulmonary damage was accompanied by a dose-dependent elevation in serum Cu concentration. Serum iron concentration, in contrast, did not change. Urinary Cu concentration correlated roughly with that of serum, but the variability within groups was high. Cotreatment with the ACE inhibitor CL242817 not only ameliorated monocrotaline-induced right heart enlargement and lung hydroxyproline accumulation but also reduced the hypercupremia in monocrotaline-treated rats. Thus, serum copper concentration appears to be an accurate and minimally invasive index of monocrotaline pneumotoxicity in this model of pulmonary hypertension.
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PMID:Serum copper concentration as an index of cardiopulmonary injury in monocrotaline-treated rats. 314 70

It was previously demonstrated that substrata derived from well differentiated colon carcinoma cell lines induced a more benign program in a separate malignant colon cell line, MOSERsf. This study attempts to define a role for extracellular matrix components in the biological events of MOSERsf cells. Alterations in morphology, secreted carcinoembryonic antigen (CEA) and urokinase brought about by individual components were determined. Laminin induced similar changes to colon-derived substrata in that there was increased cell attachment and spreading, a 4-fold elevation in CEA and a 45% reduction in urokinase. Fibronectin stimulated cell attachment without altered morphology and reduced the amount of plasminogen activator. CEA values, however, remained unchanged. Growth of MOSERsf cells on all types of collagen failed to elicit any change in cell shape or CEA. However, type I/III collagen raised urokinase levels by 40%. Transforming growth factor beta (TGF-beta) induces cellular laminin and fibronectin, promotes cell attachment, and spreading, elevates CEA and diminishes urokinase. These data argue for a role for laminin and possibly fibronectin in the governing of biological events culminating in a more mature colon cell.
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PMID:Alteration in the behavior of a colon carcinoma cell line by extracellular matrix components. 316 44

Human fibrosarcoma (HT-1080) cells, in contrast to normal fibroblasts, rapidly hydrolyze the glycoprotein, collagen, and elastin extracellular matrix (ECM) synthesized by cultured rat aortic smooth muscle cells. This degradation occurs at a rapid rate in the presence of serum, indicating that the cellular proteases responsible are relatively insensitive to serum proteinase inhibitors. Here it is shown that protease nexin I (PNI), a fibroblast-secreted inhibitor of urokinase, plasmin, and certain other serine proteinases, effectively inhibited the HT-1080 cell-mediated degradation of this ECM. PNI at 2.0 nM significantly inhibited matrix destruction for 1-2 days and at 0.2 microM caused a virtually complete inhibition that persisted for the entire 10-day period of observation. Inhibition of ECM destruction was accompanied by a transient arrest of HT-1080 cell proliferation that took place during the first 3 days after PNI addition. PNI did not inhibit the growth of normal fibroblasts and also did not inhibit the growth of HT-1080 cells that were seeded onto plastic dishes rather than onto ECM. Like many types of malignant cells, HT-1080 cells release large amounts of urokinase. Antibody against this plasminogen activator partially protected ECM from HT-1080 cell-mediated hydrolysis, indicating that it may have been a target of PNI. One potential physiological function of PNI could be to help maintain the integrity of connective tissue matrices, protection that malignant cells could overcome by secreting proteinases in excessive amounts.
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PMID:Inhibition of tumor-cell-mediated extracellular matrix destruction by a fibroblast proteinase inhibitor, protease nexin I. 351 69

Defibrotide (D) is a polydeoxyribonucleotide of mammalian origin that has no anticoagulant activity or hemodynamic effects but has considerable profibrinolytic and antithrombotic activities under several experimental conditions. In this paper the dynamics of D's antithrombotic effects after oral administration and D's thrombolystic activity after intravemous infusion on venous collagen-induced thrombosis in the rabbit are reported. D administered orally (12.5, 25 or 50 mg kg-1), from 0 to 360 min before thrombus induction, was able to impede thrombus formation in the first 2 h of growth. There is a linear correlation between the dose of D and peak activity and a correlation, described by a power function, between the dose and the area under the experimental inhibition curve. D infused intravenously (20, 31.7 or 50 mg kg-1 h-1 X 6 h) into rabbits with 24-hour-old thrombi, had significant and impressive dose-related thrombolytic activity. There is a direct relationship between the thrombolytic effect and plasma levels. In this experimental model, urokinase infused intravenously (750, 1,500 or 3,000 IU kg-1 h-1) had the same thrombolytic activity as D; heparin (76 IU kg-1 h-1) was completely ineffective and PGI2 showed a modest activity at 60 nmol kg-1 h-1. The antithrombotic and thrombolytic activities of D may be partly due to its ability to promote release of plasminogen activator factor and of prostacyclin from vascular tissue.
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PMID:Defibrotide is antithrombotic and thrombolytic against rabbit venous thrombosis. 351 81

The results of four different assay methods showed that both normal and malignant plasminogen activator-secreting cells deposited substantial amounts of this protease on tissue-culture substrata, including collagen coatings. The cells studied were Rous sarcoma virus (RSV)-transformed vole fibroblasts, a malignant neural cell line (NG108-15) capable of neurite formation, and normal mouse-regenerating sensory neurons. Deposited plasminogen activator was detected by a fibrin overlay assay at sites from which cells growing on coverslips had been gently dislodged, showing that active enzyme is left beneath cells and in the immediate pericellular area. For neuronal cells, fibrinolytic zones were detected not only at the previous positions of cell bodies but also along the terrain conditioned by neurite extension, suggesting that a trail of plasminogen activator is left behind during growth cone movement. Substratum-bound enzyme could be solubilized in buffers containing sodium dodecyl sulfate (SDS) or Triton X-100 and demonstrated by zymography following electrophoresis or assayed for amidolytic activity with a chromogenic substrate (Kabi S-2251). The results suggest that plasminogen activator may be considered a component of substrate-adhesion material. Secretory proteases deposited directly on matrix molecules would seem strategically positioned to participate in local degradation of components of the extracellular environment.
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PMID:Normal and malignant cells, including neurons, deposit plasminogen activator on the growth substrata. 352 28

Cell lines derived from 3 different types of human tumor (e.g., squamous carcinomas, melanomas and gliomas) were examined for production of plasminogen activator activity and for attachment and spreading on various extracellular matrix components in the presence or absence of plasminogen. All of the squamous carcinoma and melanoma lines produced high levels of plasminogen activator activity. In contrast, 4 of 6 glioma lines had undetectable activity. Cells from all 3 tumor types attached and spread on fibrinogen-coated or fibrin-coated plastic dishes in the absence of plasminogen. In the presence of exogenous plasminogen, the attachment and spreading of the cells which produced high levels of plasminogen activator activity was inhibited. The plasminogen activator-deficient cells were much less sensitive to exogenous plasminogen. In the presence of plasminogen, attachment and spreading on fibronectin-coated dishes was also partially inhibited. In contrast, plasminogen had no effect on the attachment and spreading of the cells on type-I or -IV collagen, laminin or thrombospondin. Previous studies have shown that tumor-cell adhesion to the extracellular matrix depends on the synthesis of receptors for extracellular matrix components or on the synthesis of extracellular matrix components themselves. The present study shows that, in addition, the production of enzymes which are capable of degrading these components also influences tumor-cell adhesion to extracellular matrix moieties.
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PMID:Plasminogen activator production by human tumor cells: effect on tumor cell-extracellular matrix interactions. 369 23

A model is presented outlining the molecular and cellular events that occur during the early stages of the wound healing process. The underlying theme is that there is a specific binding interaction between fibrin, the major clot protein, and hyaluronic acid (HA), a constituent of the wound extracellular matrix. This binding interaction, which could also be stabilized by other cross-linking components, provides the driving force to organize a three-dimensional HA matrix attached to and interdigitated with the initial fibrin matrix. The HA-fibrin matrix plays a major role in the subsequent tissue reconstruction processes. We suggest that HA and fibrin have both structural and regulatory functions at different times during the wound healing process. The concentration of HA in blood and in the initial clot is very low. This is consistent with the proposed interaction between HA and fibrin(ogen), which could interfere with either fibrinogen activation or fibrin assembly and cross-linking. We propose that an activator (e.g. derived from a plasma precursor, platelets or surrounding cells) is produced during the clotting reaction and then stimulates one or more blood cell types to synthesize and secrete HA into the fibrin matrix of the clot. We predict that HA controls the stability of the matrix by regulating the degradation of fibrin. The new HA-fibrin matrix increases or stabilizes the volume and porosity of the clot and then serves as a physical support, a scaffold through which cells trapped in the clot or cells infiltrating from the peripheral edge of the wound can migrate. The HA-fibrin matrix also actively stimulates or induces cell motility and activates and regulates many functions of blood cells, which are involved in the inflammatory response, including phagocytosis and chemotaxis. The secondary HA-fibrin matrix itself is then modified as cells continue to migrate into the wound, secreting hyaluronidase and plasminogen activator to degrade the HA and fibrin. At the same time these cells secrete collagen and glycosaminoglycans to make a more differentiated matrix. The degradation products derived from both fibrin and HA are, in turn, important regulatory molecules which control cellular functions involved in the inflammatory response and new blood vessel formation in the healing wound. The proposed model generates a number of testable experimental predictions.
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PMID:A model for the role of hyaluronic acid and fibrin in the early events during the inflammatory response and wound healing. 373 72

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