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)

Heparin is often used as an adjunct to thrombolytic therapy in order to prevent reocclusion of the patent vessels in patients with thrombotic disease. Controversy exists as to whether heparin is required for effective clot lysis with tissue-type plasminogen activator, while in vitro data and small scale clinical trials have suggested an enhancement of pro-urokinase efficacy by heparin. The present study was conducted to determine whether heparin pre-treatment is required to produce optimal clot lysis and blood flow restoration in response to recombinant pro-urokinase (r-proUK). In four groups of dogs, blood clots labelled with 125Iodine were formed in the femoral artery and were monitored continuously for loss of counts as an indicator of clot lysis. Femoral artery blood flow was measured simultaneously. Group 1 received vehicle (n = 5), while group 2 was given vehicle + heparin (n = 6; 500 U bolus + 350 U/h). This dose of heparin increased the activated partial thromboplastin time (APTT) by at least 1.5 times the control level for the 4 h observation period. Group 3 received r-proUK alone at a dose of 100,000 U/kg (50% given as a 1-min bolus injection, 50% as a 30 min infusion) (n = 8), while group 4 was treated with the same dose of r-proUK in the presence of heparin as described (n = 8).2
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PMID:Recombinant pro-urokinase requires heparin for optimal clot lysis and restoration of blood flow in a canine femoral artery thrombosis model. 849 50

The hypothesis that heparin-coated perfusion circuits reduce thrombin formation and activity; fibrinolysis; and platelet, complement, and neutrophil activation was tested in 20 consecutive, randomized adults who had cardiopulmonary bypass. Twenty identical perfusion systems were used; in 10, all blood-contacting surfaces were coated with partially degraded heparin (Carmeda process; Medtronic Cardiopulmonary, Anaheim, Calif.). All patients received a 300 U/kg dose of heparin. Activated clotting times were maintained longer than 400 seconds. Cardiopulmonary bypass lasted 36 to 244 minutes. Blood samples for platelet count, platelet response to adenosine diphosphate, plasma beta-thromboglobulin, inactivated complement 3b, neutrophil elastase, fibrinopeptide A, prothrombin fragment F1.2, thrombin-antithrombin complex, tissue plasminogen activator, plasminogen activator inhibitor-1, plasmin alpha 2-antiplasmin complex, and D-dimer were obtained at these times: after heparin was given, 5 and 30 minutes after cardiopulmonary bypass was started, within 5 minutes after bypass was stopped, and 15 minutes after protamine was given. After cardiopulmonary bypass, tubing segments were analyzed for surface-adsorbed anti-thrombin, fibrinogen, factor XII, and von Willebrand factor by radioimmunoassay. Heparin-coated circuits significantly (p < 0.001) reduced platelet adhesion and maintained platelet sensitivity to adenosine diphosphate (p = 0.015), but did not reduce release of beta-thromboglobulin. There were no significant differences between groups at any time for fibrinopeptide A, prothrombin fragment F1.2, or thrombin-antithrombin complex or in the markers for fibrinolysis: D-dimer, tissue plasminogen activator, plasminogen activator inhibitor-1, and alpha 2-antiplasmin complex. In both groups, concentrations of prothrombin fragment F1.2 and thrombin-antithrombin complex increased progressively and significantly during cardiopulmonary bypass and after protamine was given. Concentrations of D-dimer, alpha 2-antiplasmin complex, and plasminogen activator inhibitor-1 also increased significantly during bypass in both groups. Fibrinopeptide A levels did not increase during bypass but in both groups increased significantly after protamine was given. No significant differences were observed between groups for levels of inactivated complement 3b or neutrophil elastase. Radioimmunoassay showed a significant increase in surface-adsorbed antithrombin on coated circuits but no significant differences between groups for other proteins. We conclude that heparin-coated circuits used with standard doses of systemic heparin reduce platelet adhesion and improve platelet function but do not produce a meaningful anticoagulant effect during clinical cardiopulmonary bypass. The data do not support the practice of reducing systemic heparin doses during cardiac operations with heparin-coated extracorporeal perfusion circuitry.
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PMID:Surface-bound heparin fails to reduce thrombin formation during clinical cardiopulmonary bypass. 880 Jan 82

In a previous report, we described the molecular cloning, expression, and partial characterization of a second human tissue factor pathway inhibitor (TFPI), which we designated as TFPI-2 [Sprecher, C. A., et al. (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 3353-3357]. Recombinant TFPI-2 inhibited the amidolytic activity of trypsin as well as that of factor VIIa in complex with tissue factor. TFPI-2 recently has been shown to be identical to placental protein 5 (PP5), a glycoprotein originally isolated from placenta that exhibits serine protease inhibitory activity. In the present study, we have examined TFPI-2/PP5 for its ability to inhibit a number of serine proteases involved in blood coagulation and fibrinolysis, inasmuch as TFPI-2/PP5 prolonged the coagulation time of human plasma induced by either tissue factor or contact activation in a dose-dependent manner. In addition to its ability to inhibit the amidolytic and proteolytic activities of the factor VIIa-tissue factor complex, TFPI-2/PP5 strongly inhibited the amidolytic activities of human factor XIa, human plasma kallikrein, and human plasmin with Ki values of 15, 25, and 3 nM, respectively. TFPI-2/PP5 was also a weak inhibitor of the activation of factor X by a complex of human factor IXa and poly(lysine) with an apparent Ki of 410 nM. Heparin markedly enhanced the ability of TFPI-2/PP5 to inhibit factor VIIa-tissue factor both in the solution phase and on cell surfaces. In addition, heparin augmented the inhibition of human factor Xa amidolytic activity at relatively high levels (10-100 nM) of TFPI-2/PP5. No significant inhibition of glandular kallikrein, urinary plasminogen activator, tissue plasminogen activator, human activated protein C, human factor Xa, human thrombin, or leukocyte elastase was observed when these proteases were incubated with TFPI-2 in the absence of heparin.
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PMID:Inhibitory properties of a novel human Kunitz-type protease inhibitor homologous to tissue factor pathway inhibitor. 855 84

The effect of heparin, aspirin, and recombinat tissue-type plasminogen activator (rt-PA) on TP-9201 pharmacokinetics and pharmacodynamics was investigated in beagles. Animals received TP-9201, an Arginine-Glycine-Aspartic acid (RGD)-containing synthetic peptide glycoprotein (gp)IIbIIIa antagonist as a bolus of 0.31 mg/kg, followed by a 4-h infusion of 0.5 mg/kg/h. rt-PA was administered as a modification of the weight-adjusted standard regimen. Heparin was administered as a bolus followed by an infusion producing a 1.5- to 2-fold increase in the activated prothromboplastin time (aPTT) above baseline values. Aspirin was administered orally, approximately 24 and 2 h before TP-9201. TP-9201 had a plasma clearance of 9.9 +/- 2 ml/min/kg and a volume of distribution that was larger than plasma volume. Administration of heparin and aspirin with TP-9201 did not affect the clearance of TP-9201, whereas rt-PA resulted in a faster clearance (p = 0.05). Whether the faster clearance is physiologic or a result of rt-PA interference in the TP-9201 assay is unclear. TP-9201 completely inhibited ADP-mediated platelet aggregation. After discontinuation of TP-9201, recovery of platelet aggregation had a half life (t1/2) of 2-3 h and was complete < or = 24 h. Coadministration of heparin did not interfere with TP-9201 pharmacodynamics, whereas aspirin and rt-PA slowed the recovery of platelet aggregation. The template bleeding time profile for the TP-9201-treated animals was similar to that of the aspirin-treated animals.
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PMID:Pharmacokinetics and pharmacodynamics of TP-9201, a gpIIbIIIa antagonist, administered in combination with recombinant tissue-type plasminogen activator, heparin, and aspirin in beagles. 865 42

Acidic and basic fibroblast growth factor (aFGF and bFGF respectively) are closely related mitogens (55% homology) of the heparin binding growth factor family. Reports of the relative potency of these growth factors and the ability of heparin to potentiate the activity of bFGF are conflicting. We have examined the effect of heparin and human recombinant aFGF and bFGF on basal and thrombin challenged release of metabolites from cultured human umbilical vein endothelial cells (HUVEC). Culture supernatant was assayed for thrombospondin, prostacyclin and PAI-1 and cell lysates were analysed for t-PA. aFGF and bFGF were equipotent in regulating ther release of all metabolites studied, except thrombin stimulated release of PGI2 where bFGF was more potent than aFGF in the absence of heparin. Heparin potentiated the mitogenic and metabolic effects of both bFGF and aFGF. However, heparin was not essential for the expression of the biological activity of FGF.
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PMID:Acidic and basic fibroblast growth factors have comparable effects on the haemostatic function of vascular endothelium. 867 45

We have studied the binding, uptake, and degradation of a recombinant form of apolipoprotein[a] (r-apo[a]) using a cultured cell model. In HepG2 cells and in human fibroblasts, r-apo[a] complexed with low density lipoprotein(LDL) is bound and internalized via high affinity (Kd = 10 nM) receptors; in both cell types, low affinity (Kd = 200-300 nM) sites also mediate free apo[a] uptake. Using competition studies, we found that the high affinity binding component corresponds to the LDL receptor. Involvement of the LDL receptor in r-apo[a] uptake by fibroblasts was confirmed using fibroblasts derived from an individual homozygous for familial hypercholesterolemia; in contrast to normal fibroblasts, these cells lacked the high affinity r-apo[a] binding component. Cell association of 125I-labeled r-apo[a] was increased and decreased concomitantly with the up- and down-regulation of the LDL receptor in response to a number of compounds. The addition of alpha 2-macroglobulin as well as treatment with heparinase, chondroitinase ABC, and sodium chlorate did not decrease total specific binding of r-apo[a], suggesting that neither the low density lipoprotein receptor-related protein nor cell surface proteoglycans are involved in r-apo[a] clearance. The low affinity binding component present in both fibroblasts and HepG2 cells likely corresponds to the plasminogen receptor, as binding of r-apo[a] to these sites was specifically decreased by the addition of plasminogen or the lysine analogue epsilon-aminocaproic acid, but not by the addition of tissue-type plasminogen activator. Heparin abolished uptake of r-apo[a] by the LDL receptor component only; this indicates that apo[a] must be associated with LDL to be cleared by this receptor. In contrast, free apo[a] can be effectively cleared by the plasminogen receptor which may represent a significant route of clearance for free apo[a] in vivo.
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PMID:Interaction of a recombinant form of apolipoprotein[a] with human fibroblasts and with the human hepatoma cell line HepG2. 872 15

Utilizing highly sensitive monoclonal based assays, we have measured various mediators of antithrombotic action including t-PA, prostacyclin and tissue factor pathway inhibitor (TFPI). To evaluate the pharmacologic stimulation of these mediators, blood from patients treated with heparin and low molecular weight heparin in (LMWH) at various dosages, group of patients treated with oral polydeoxyribonucleotide (defibrotide), a synthetic analogue of heparin, namely aprosulate (Luitpold Pharma, Munich, Germany) were analyzed for various vascular mediators. Similarly, to evaluate patients treated with physical modalities such as the sequential compression devices alone and sequential compression devices in combination with LMWHs were tested for these same parameters. Heparin produced a marked release of TFPI and t-PA after i.v. administration. After subcutaneous administration, a relatively smaller elevation of these parameters were seen. Several of the LMWHs produced varying effects on the release of TFPI and t-PA and the area under the curve after the s.c. injection was found to be much higher than i.v. administration. Defibrotide administration after i.v. and oral administration also resulted in a significant increase in the TFPI and t-PA antigen levels. However, the prostacyclin metabolite 6-keto-PGF1 alpha was much higher than the values obtained the heparins. Repeated administration of a hypersulfated heparin analogue produced marked increase in TFPI in both i.v. and s.c. studies. These results indicate that besides directly acting on plasmatic mediators, antithrombotic drugs are capable of releasing endogenous mediators of antithrombotic actions. Physical manipulation of the vascular system can also produce these effects. Thus, both physical and pharmacologic means can be used to produce an antithrombotic state to mediate their prophylactic and therapeutic effects.
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PMID:Physical and pharmacologic manipulation of the vascular system as measured by the release of TFPI and other mediators of antithrombotic actions. 873 35

The effect of PRAP-1, a Fab-fragment of a PAI-1-inhibiting polyclonal antibody, on thrombus size and arterial blood flow was studied in a rat model of arterial thrombosis. It was shown that exposure of the carotid artery to FeCl3 led to the rapid formation of an occlusive thrombus with a morphology similar to that of arterial thrombi found in humans. Tranexamic acid (50 mg/kg), an inhibitor of fibrinolysis, increased thrombus size (p = 0.014) when given intravenously (i.v.) prior to the FeCl3-exposure. Heparin (1000 U), when given i.v. after FeCl3, did not affect the thrombus size per se, but caused a reduction in the interindividual variation of the size of the thrombus (p < 0.05). Thus, heparin was included in all the subsequent experiments. An i.v. infusion of t-PA (1 mg/kg/h), starting before thrombus formation, induced a 3.3 fold increase in the perfusion rate (p = 0.006) and a 67% reduction in the thrombus size (P < 0.001). PRAP-1, an inhibitor of rat PAI-1 activity, was given i.v. as a bolus followed by an infusion. Two doses of PRAP-1 were studied (7.5 and 15 mg/kg/h), and the administration of the PAI-1 inhibitor was started 10 min before FeCl3. The lower PRAP-1 dose caused a 3.8 fold increase in perfusion rate (p = 0.036), a 1.44 fold increase in the time to occlusion (p = 0.034), and the thrombus size was decreased by 18% (p = 0.104). The corresponding effects of the high PRAP-1 dose were a 6.5 fold increase in perfusion rate (p < 0.001), a 1.6 fold increase in time to occlusion (p = 0.038) and a 32% reduction in thrombus size (p = 0.016). It is concluded that an inhibitor of PAI-1 activity, PRAP-1, caused a moderate decrease in thrombus size and partly restores blood flow in a rat model of arterial thrombus. This finding suggests a potential role for an inhibitor of PAI-1 in the treatment of arterial thrombosis.
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PMID:The Fab-fragment of a PAI-1 inhibiting antibody reduces thrombus size and restores blood flow in a rat model of arterial thrombosis. 918 11

Previous works suggest the interesting possibility of an effect of heparin on vascular smooth muscle cell (SMC) replication and migration via a selective inhibition of the expression of t-PA and u-PA both of which may play major roles during intimal hyperplasia following endothelial injury. The present study was undertaken to evaluate in vitro the effect of heparin on the growth and migration of aortic SMC isolated from transgenic mice showing single inactivations of the t-PA and u-PA genes comparatively to SMC isolated from control mice. With regard to serum-induced proliferation and migration, all cell types showed similar responses. On control cells, heparin inhibited in a dose-dependent manner the expression of both t-PA and u-PA protein and mRNA. Heparin however, similarly affected the mitogenic and chemotactic activity of FCS for SMC isolated from control, t-PA or u-PA-deficient mice therefore showing that heparin inhibits FCS-induced SMC proliferation via mechanism(s) other than single inhibition of t-PA or u-PA expression by smooth muscle cells.
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PMID:The inhibitory effect of heparin for vascular smooth muscle cell proliferation or migration is not mediated by u-PA and t-PA. 918 19

Stimulated monocytes are involved in blood clotting and fibrin dissolution by synthesizing tissue factor (TF) and fibrinolytic components such as plasminogen activator inhibitor type 2 (PAI-2). Heparin interacts with smooth muscle cells, platelets, and endothelial cells and specifically binds to human monocytes. In endothelial and smooth muscle cells, heparin selectively inhibits collagenase and tissue plasminogen activator gene expression. To investigate (1) heparin's influence on the hemostatic system by its interactions with plasma factors and cellular elements and (2) to determine its effects on gene expression in blood circulating cells, we studied the effect of heparin on TF and PAI-2 protein and mRNA in human lipopolysaccharide (LPS)- or interferon-gamma (IFN-gamma)-stimulated monocytes. TF and PAI-2 proteins were investigated by ELISA and by assaying procoagulant activity. The mRNA study was carried out by an initial PCR screening followed by a Northern blot semiquantitative analysis. Heparin (0.5 U/mL) inhibited both TF and PAI-2 production and gene expression. The contemporaneous protein and mRNA decrease (TF and PAI-2 protein 22 and 42%, respectively; suggests that this action is, at least partially, at the transcriptional level. The effect is not specific for heparin and is not demonstrated by other glycosaminoglycans (chondroitin-4-sulfate or dermatan sulfate). This action may be relevant for the antithrombotic activity of heparin in cell-mediated blood clotting activation.
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PMID:Tissue factor and plasminogen activator inhibitor type 2 expression in human stimulated monocytes is inhibited by heparin. 920 Mar 37


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