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:3.4.21.68 (tissue plasminogen activator)
11,311 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein C inhibitor (PCI) is a heparin-dependent serpin present in a native form in plasma at concentrations of 5 micrograms/mL. In vitro, PCI inhibits activated protein C (APC), thrombin, plasma kallikrein (KK) and urokinase-(uPA) and tissue-type plasminogen activator (tPA), and we have shown in vivo inhibition of APC, uPA and KK by PCI. In order to further characterize the physiological role of PCI, we have measured the level of PCI in several biological fluids. PCI antigen was assayed by ELISA and PCI activity was measured by its capability to form complexes with APC in the presence of heparin. Seminal plasma from voluntary donors had PCI levels (160 +/- 20 micrograms/mL, mean +/- SD) about 30 or 40 times higher than those found in blood plasma. Patients under a fertilization program had significantly reduced PCI seminal levels (110 +/- 35 micrograms/mL). Seminal plasma PCI retained about 45% of its activity immediately after ejaculation, and the activity rapidly decreased following incubation of seminal plasma at 37 degrees C, in parallel with the appearance of complexes of PCI with prostate-specific antigen (PSA). PCI was present in seminal vesicle secretion, obtained by autopsy, at concentration similar to that observed in semen, was mostly active and was not inactivated by incubation of secretion at 37 degrees C. The mean functional and antigen levels of PCI in urine from normal donors were 0.58 and 0.25 micrograms/mL, respectively, whereas in saliva these levels were 20 and 0.8 ng/mL, respectively. Amniotic fluid contained PCI antigen levels of 2.1 +/- 0.2 microgram/mL. These results show that PCI is secreted in the seminal vesicles in a functional form, and suggest that PSA, a major secretory component of the prostate, is responsible for its inactivation. They also suggest a physiological role of PCI in reproduction, and show that PCI is present in various biological fluids.
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PMID:Functionally active protein C inhibitor/plasminogen activator inhibitor-3 (PCI/PAI-3) is secreted in seminal vesicles, occurs at high concentrations in human seminal plasma and complexes with prostate-specific antigen. 172 27

Vascular endothelial cells undergo morphological and functional changes at sites of cell-mediated immune responses which may serve to promote the pathogenesis of inflammation. These changes, described as "endothelial cell activation" can be invoked by a variety of cytokines which include interleukin I (IL-1), tumor necrosis factor (TNF), and lipopolysaccharide (LPS). We report here on the regulation of the plasminogen activator (PA) proteolytic system by human recombinant TNF alpha in short term cultures (less than 4 passages) of human umbilical vein endothelial cells (HUVECs). TNF alpha treatment of HUVECs enhanced the production of 55 kDa urokinase (u) PA activity and uPA antigen by fourfold, in a concentration dependent manner (5-100 U/ml), following a 24 h treatment as determined by PA zymography and micro-ELISA assays, respectively. This response was specific for uPA since, no change in extracellular tissue type PA activity and tPA antigen levels were noted under analogous conditions. A similar 4-fold increase in the de novo synthesis of [35S]-methionine radiolabeled uPA was observed by immunoprecipitation following a 24 h TNF treatment. The induction of uPA by TNF was inhibited by actinomycin D and cycloheximide implying the necessity of RNA and protein synthesis, respectively. The effect of TNF could not be prevented by the addition of IL-1 neutralizing antibodies. Therefore, it is unlikely that TNF acts through the induction of IL-1 secretion. Time course studies using PA zymography indicate that within 8 h after TNF exposure, a 2-fold increase in uPA activity above untreated basal levels was observed. Upregulation of extracellular uPA production in HUVECs following TNF treatment suggests yet a new aspect of cellular and interstitial PA regulation in endothelium during inflammation and angiogenesis.
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PMID:Tumor necrosis factor induction of urokinase-type plasminogen activator in human endothelial cells. 180 6

A GnRH agonist (5-50 micrograms) is capable of inducing ovulation in PMSG-primed hypophysectomized immature rats, as is the case in hCG-induced ovulation, but 2-4 h earlier than hCG. GnRH-induced ovulation is effectively blocked by the concomitant administration of the GnRH-antagonist which failed to interfere with hCG-induced ovulation, indicating that GnRH and its agonists do not share a receptor with LH/hCG. Like hCG, GnRH is also capable of inducing tissue type (tPA), but not urokinase type (uPA) PA. The plasminogen activator activity in ovarian homogenates and the granulosa and theca-interstitial cells increase in a time-dependent manner, reaching maximum levels just prior to ovulation. Similar to hCG, GnRH also increases tPA activity in cumulus-oocyte complexes in a time-dependent fashion.
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PMID:A comparative study on involvement of tPA activity in ovulation induced by hCG and GnRH agonist in hypophysectomized rats. 180 39

Human glomerular epithelial cells (GECs) in culture synthesize single-chain, urokinase-type plasminogen activator (SC-uPA), tissue-type plasminogen activator (t-PA), and plasminogen activator inhibitor 1 (PAI-1) and possess specific membrane-binding sites for u-PA. Using purified 125I-alpha thrombin, we demonstrate here the presence of two populations of specific binding sites for thrombin on GECs (1.Kd = 4.3 +/- 1.0 x 10(-10) M, 5.4 +/- 1.4 x 10(4) M sites per cell, 2. Kd = 1.6 +/- 0.5 x 10(-8) M, 7.9 +/- 1.8 x 10(5) sites per cell). Purified human alpha thrombin promoted the proliferation of GECs and induced a time- and dose-dependent increase of SC-uPA, t-PA, and PAI-1 antigens released by GECs. Thrombin-mediated increase in antigen was paralleled by an increase in the levels of corresponding u-PA and PAI-1 messenger RNA. In contrast, thrombin decreased u-PA activity in conditioned medium. This discrepancy between u-PA antigen and u-PA activity was explained by a limited proteolysis of SC-uPA by thrombin, leading to a two-chain form detected by immunoblotting and that could not be activated by plasmin. Thrombin also decreased the number of u-PA binding sites on GECs (p less than 0.05) without changing receptor affinity. Hirudin inhibited the binding and the cellular effects of thrombin, whereas thrombin inactivated by diisopropylfluorophosphate had no effect, indicating that both membrane binding and catalytic activity of thrombin were required. We conclude that thrombin, through specific membrane receptors, stimulates proliferation of GECs and decreases the fibrinolytic activity of GECs both at the cell surface and in the conditioned medium. These results suggest that thrombin could be involved in the pathogenesis of extracapillary proliferation and persistency of fibrin deposits in crescentic glomerulonephritis.
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PMID:Thrombin increases proliferation and decreases fibrinolytic activity of kidney glomerular epithelial cells. 184 34

In this study, we have evaluated the effects of four different thrombolytic agents, including Streptokinase from Hoechst and from Kabivitrum, Urokinase from Abbott and tissue plasminogen activator (t-PA) from Genetech, on platelet-rich plasma clots and platelet aggregation. At concentrations lower than 50 ugs/ml, t-PA had no inhibitory effect on clot retraction or platelet aggregation induced by weak or potent agonist. At a higher concentration (greater than 100 ugs/ml), t-PA specifically antagonized the action of thrombin on clot formation and platelet aggregation. Streptokinase (Kabivitrum) potentiated the action of weak agonists on platelet aggregation, but the same agent from Hoechst had no negative or positive influence. None of the drugs tested had an adverse effect on platelet function at suggested therapeutic levels. None of the thrombolytic agents were capable of dissociating preformed clots made from platelet-rich plasma. However, all of them caused lysis of whole blood clots. Also, prior incubation of plasma alone or platelet-rich plasma with any of the agents prevented subsequent clot formation. The studies demonstrate that thrombolytic drugs at therapeutic concentrations do not affect platelet function adversely. They have a potent effect on whole blood clots, but not on clots from platelet-rich plasma. Therefore, platelets may play a critical role in determining the degree of reperfusion and the frequency of reocclusion following treatment with thrombolytic agents in vivo.
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PMID:Influence of thrombolytic agents on human platelet function. 186 14

Expression of plasminogen activator inhibitor 2 (PAI-2) under the control of the protease B gene promoter in a mutant strain of Saccharomyces cerevisiae, DS569, resulted in its accumulation intracellularly at up to 20% of the soluble cell protein. Provision of an N-terminal signal sequence resulted in the secretion of a hyperglycosylated molecule. The intracellularly produced PAI-2 was purified by copper-chelate and anion-exchange chromatography to greater than 95% pure and was fully active. The recombinant PAI-2 formed SDS-stable complexes with urokinase and tissue-type plasminogen activator and inhibited the proteases with similar reaction kinetics to placental PAI-2 (second-order rate constant for uPA, 2.4 x 10(6) M-1 s-1, and for two-chain tPA, 0.7 x 10(5) M-1 s-1). As is the case for placental PAI-2, the N-terminus of the yeast-derived recombinant PAI-2 was blocked. The high productivity and consequent ease of purification mean that S. cerevisiae provides an excellent source of recombinant PAI-2 for investigation of its therapeutic potential in the treatment of neoplastic and inflammatory diseases.
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PMID:Purification and characterisation of plasminogen activator inhibitor 2 produced in Saccharomyces cerevisiae. 190 Oct 39

Urokinase-type (u-PA) and tissue-type plasminogen activator antigen (t-PA) as well as plasminogen activator-inhibitor activity were determined in seminal plasma and lysates of the respective spermatozoas in 67 ejaculate of males in infertile marriage without genito urinary pathology. U-PA was determined by a competition RIA, t-PA by an ELISA and PAI by a spectrophotometric assay. 15 patients showed normozoospermia, 11 azoospermia and 41 oligoasthenoteratozoospermia (OAT-syndrome). In lysates of spermatozoas, significantly higher levels of both plasminogenactivators and PAI were found in patients with OAT syndrome as compared to those exhibiting normozoospermia. Whereas PAI was absent in the seminal plasma of normozoospermic ejaculate, patients with azoospermia (180 +/- 13 mU/ml.) and OAT-syndrome (60 +/- 5 mU/ml.) showed high PAI levels. The similarly high values of t-PA (190.8-227.8 ng./ml.) and u-PA (19.4-32 ng./ml.) in the same compartment confirm their predominantly prostatic origin and seem to have no influence on the quality of the ejaculate.
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PMID:Fibrinolytic parameters in spermatozoas and seminal plasma. 190 31

To assess the postulated role of plasminogen activation in tumor invasion, we have investigated the cellular sites of synthesis for urokinase-type (uPA) and tissue-type (tPA) plasminogen activators and their inhibitors (PAI-1 and PAI-2) in two human cutaneous neoplasia that differ in their metastatic potential. The combined use of zymography on tissue sections and in situ hybridization demonstrates that uPA is produced by malignant cells of squamous cell carcinomas (SCC) but not by basal cell carcinomas (BCC), whereas tPA is detected exclusively in nonmalignant dermal tissue. In addition, we show that SCC neoplastic cells simultaneously produce variable amounts of PAI-1, and that PAI-1 production correlates inversely with uPA enzymatic activity. These observations establish that invasive human malignant cells in vivo can activate plasminogen through uPA production during the early phases of tumor growth; they also demonstrate that the proteolytic activity of tumor cells can be modulated by the concomitant production of PAI-1. Because SCC have a higher invasive and metastatic potential than BCC, our findings lend further support to the involvement of plasminogen activation in malignant behavior.
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PMID:Differential protease expression by cutaneous squamous and basal cell carcinomas. 191 64

Urokinase and streptokinase are commonly used thrombolytic agents for fibrin obstructed central venous catheters. Although proven to be efficacious, these two agents have the potential to induce systemic fibrin breakdown and hemorrhage. We report our initial experience with tissue plasminogen activator (t-PA) for the treatment of occluded central venous catheters which failed urokinase. Of 25 incidents of catheter occlusion in 142 right atrial catheters, six failed to clear after an initial bolus dwell of urokinase. Five of these six catheters cleared following treatment with 2 mg/2 cc of t-PA with a mean of 1.5 bolus installations. The one catheter failure was due to catheter tip position and age of clot. No coagulation abnormalities or bleeding was observed. These data suggest that t-PA may be a safe, effective thrombolytic agent in the treatment of occluded central venous catheters.
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PMID:Investigational use of tissue plasminogen activator (t-PA) for occluded central venous catheters. 211 48

Plasminogen activator (PA) was located in newborn rat osteoclasts using a single-cell assay. Immunohistochemistry using biotin-streptavidin-peroxidase indicated the presence of both tissue-type plasminogen activator (tPA) and urokinase (uPA) within the cytoplasm of osteoclasts isolated from newborn rat long bones. Electron microscopic immunohistochemistry using the biotin-streptavidin-colloidal gold system on L.R. Gold thin resin sections of undecalcified, newborn rat tibial metaphyseal trabecular bone identified these proteases in the lysosomal network of osteoclasts. uPA was also localized in marrow macrophage lysosomes, but tPA was not detected in these cells. The localization of these enzymes within osteoclasts may imply their involvement in bone resorption.
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PMID:Identification of plasminogen activator in osteoclasts. 211 31


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