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)

The widespread use of indwelling intravascular catheters, such as central venous lines and umbilical vessel catheters, has resulted in an increased number of thrombotic complications and subsequently a growing need for specific thrombolytic therapy. The use of thrombolytic agents that have a high incidence of systemic fibrinolysis is of concern, however, especially in premature neonates. Tissue plasminogen activator is a locally acting thrombolytic agent that occurs naturally in the body. Tissue plasminogen activator can now be mass-produced through recombinant DNA technology. Reports of recombinant tissue plasminogen activator use in neonates are beginning to appear in the literature. This thrombolytic agent appears to be promising for the local lysis of clots within systemic coagulopathy. However, there is a need for controlled studies of thrombolytic agents in the neonatal population.
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PMID:Recombinant tissue plasminogen activator. 893 68

To evaluate the toxicity of lead on the blood fibrinolytic system during hemostasis, human aortic smooth muscle cells and human fetal lung fibroblasts were cultured in the presence of lead chloride. Tissue plasminogen activator antigen (t-PA:Ag) and plasminogen activator inhibitor-1 antigen (PAI-1:Ag) released were determined by enzyme immunoassay. It was found that lead decreased the release of both t-PA:Ag and PAI-1:Ag from vascular smooth muscle cells. On the other hand, in fibroblasts, the release of t-PA:Ag was markedly decreased whereas that of PAI-1:Ag was markedly increased by the metal. Fibrin zymography showed that lead reduced the plasminogen activator activity in the conditioned medium of both cell types. However, lead did not cause a nonspecific cell damage and an alteration of protein synthesis when evaluated by lactate dehydrogenase leakage and [14C]leucine incorporation, respectively. Lead accumulated within either vascular smooth muscle cells or fibroblasts in a dose-dependent manner; intracellular accumulation of calcium could be increased by lead. However, the effects of lead on the release of t-PA:Ag and PAI-1:Ag were different from those of calcium ionophore A23187. It was therefore suggested that regulation of spontaneous release of fibrinolytic proteins from subendothelial cells is disturbed by lead through intracellular calcium-independent pathway.
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PMID:Lead perturbs the regulation of spontaneous release of tissue plasminogen activator and plasminogen activator inhibitor-1 from vascular smooth muscle cells and fibroblasts in culture. 905 94

Tissue plasminogen activator (tPA), the serine protease that converts inactive plasminogen to the protease plasmin, was recently shown to mediate neurodegeneration in the mouse hippocampus. Mice deficient in tissue plasminogen activator (tPA) display a dramatic resistance to a paradigm of excitotoxic neuronal death that involves intrahippocampal injection of the excitotoxin. This model is thought to reproduce the mechanism of neuronal death observed during acute (such as ischemic stroke) and degenerative (such as amyotrophic lateral sclerosis) diseases of the nervous system. The requirement for the proteolytic activity of tPA to mediate neuronal death is acute in the adult mouse. Serine protease inhibitors, specific for tPA or the tPA/plasmin proteolytic cascade, are effective in conferring extensive neuroprotection following the excitotoxic injection. These findings suggest possible new ways for interfering with the neuronal death observed in the hippocampus as a result of excitotoxicity. In addition, tPA is produced in the hippocampus primarily by microglial cells, which become activated in response to the neuronal injury. Blocking microglial activation has been shown in other injury paradigms to protect against neuronal death, therefore suggesting another way to retard neurodegeneration in the CNS. Furthermore, after the insult has been inflicted and in the presence of a compromised blood-brain barrier macrophages (cells deriving from the same lineage as microglia) migrate into the brain, where they are thought to contribute to the neuronal cell loss by secreting neurotoxic molecules. If these macrophages/microglia expressed, however, a tPA inhibitor, rather than the possibly neurotoxic tPA, they might be able to protect the neurons from dying.
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PMID:Clinical implications of the involvement of tPA in neuronal cell death. 918 75

Thromboelastography (TEG) has been used after cardiopulmonary bypass (CPB) to diagnose excessive postoperative hemorrhage. Conventional TEG during CPB is not possible due to the sensitivity of the TEG to even small amounts of heparin, which produces a nondiagnostic tracing. The purpose of this study was to compare heparin neutralization using heparinase or protamine in TEG blood samples obtained during CPB. TEG testing was performed on 48 patients before, during and after CPB. Tissue plasminogen activator activity and antigen were measured on a subset of 32 patients. We found: 1) heparinase neutralized at least 10 IU/ml heparin while 1.6 ug/ml protamine neutralized up to 7 IU/ml heparin, 2) in samples with complete heparin neutralization by both methods, there was no significant difference in the R values, 3) while there was good correlation for other TEG parameters between heparinase and protamine treated samples, heparinase treatment produced shorter K values and higher angle, MA and A60, 4) while fibrinolysis was detected using both methods, heparinase treatment suppressed fibrinolysis in the TEG in both samples from patients and after in vitro addition of tissue plasminogen activator, 5) TEG was not a sensitive indicator of t-PA activity, detecting only 21% of samples with increased t-PA activity during bypass, and 5) heparinase was at least 100 times more expensive than protamine. We conclude that while both heparinase and protamine can be used to neutralize heparin in TEG samples obtained during CPB, protamine neutralization is more sensitive to fibrinolysis and less expensive, but the protamine dose must be carefully selected to match the heparin level used at individual institutions.
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PMID:A comparison of thromboelastography with heparinase or protamine sulfate added in vitro during heparinized cardiopulmonary bypass. 926 78

Thrombin-activable fibrinolysis inhibitor (TAFI) is a recently described plasma zymogen that can be activated by thrombin to an enzyme with carboxypeptidase B-like activity. The enzyme, TAFIa, potently attentuates fibrinolysis. TAFI activation, like protein C activation, is augmented about 1250-fold by thrombomodulin (TM). In this work, the effects of both soluble and cellular forms of TM on TAFI activation-dependent suppression of fibrinolysis were investigated. Soluble TM included in clots formed from purified components, barium citrate-adsorbed plasma, or normal human plasma maximally increased the tissue plasminogen activator-induced lysis time 2-3-fold, with saturation occurring at 5, 10, and 1 nM TM in the three respective systems. Soluble TM did not effect lysis in the system of purified components lacking TAFI or in plasmas immunodepleted of TAFI. In addition, the antifibrinolytic effect of TM was negated by monoclonal antibodies against either TAFI or TM. The inhibition of fibrinolysis by cellular TM was assessed by forming clots in dialyzed, barium citrate-adsorbed, or normal plasma over cultured human umbilical vein endothelial cells (HUVECs). Tissue plasminogen activator-induced lysis time was increased 2-fold, with both plasmas, in the presence of HUVECs. The antifibrinolytic effect of HUVECs was abolished 66% by specific anti-TAFI or anti-TM monoclonal antibodies. A newly developed functional assay demonstrated that HUVECs potentiate the thrombin-catalyzed, TM-dependent formation of activated TAFI. Thus, endothelial cell TM, in vitro at least, appears to participate in the regulation of not only coagulation but also fibrinolysis.
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PMID:Both cellular and soluble forms of thrombomodulin inhibit fibrinolysis by potentiating the activation of thrombin-activable fibrinolysis inhibitor. 944 87

Tissue plasminogen activator binds to endothelial cells via the calcium-regulated phospholipid-binding protein annexin II, an interaction that is inhibited by the prothrombotic amino acid homocysteine. We sought to identify the tissue plasminogen activator binding domain of annexin II and to determine the mechanism of its modulation by homocysteine. Tissue plasminogen activator binding to immobilized annexin II was inhibited by intact fluid phase annexin II but not by its "core" fragment (residues 25-339). Two overlapping "tail" peptides specifically blocked 65-75% of binding. Localization of the tissue plasminogen activator binding domain was confirmed upon specific inhibition by the hexapeptide LCKLSL (residues 7-12). Expressed C9G annexin II protein failed to support tissue plasminogen activator binding, while binding to C133G, C262G, and C335G was equivalent to that of wild type annexin II. Upon exposure to homocysteine, annexin II underwent a 135 +/- 4-Da increase in mass localizing specifically to Cys9 and a 60-66% loss in tissue plasminogen activator-binding capacity (I50 = 11 microM). Upon treatment of cultured endothelial cells with [35S]homocysteine, the dithiothreitol-sensitive label was recovered by immunoprecipitation with anti-annexin II IgG. These data provide a potential mechanism for the prothrombotic effect of homocysteine by demonstrating direct blockade of the tissue plasminogen activator binding domain of annexin II.
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PMID:Tissue plasminogen activator binding to the annexin II tail domain. Direct modulation by homocysteine. 954 44

We investigated annexin V expression and membrane vesiculation during activation of four leukemic cell lines (U937, HL60, HEL, and CMK11-5) in order to determine whether annexin V had a role in the coagulation abnormalities related to malignancy. After stimulation by tissue plasminogen activator, binding of a monoclonal anti-annexin V antibody to U937 cells and HL60 cells increased in comparison with binding to control cells. Stimulation with thrombin or lipopolysaccharide also induced such an increase, but U46619 did not. Following activation of U937 and HL60 cells with thrombin and lipopolysaccharide, microparticle formation increased. Tissue plasminogen activator caused an increase of microparticles in U937 cells, but not HL60 cells. On the other hand, CMK11-5 and HEL cells did not show any increase of microparticles. These results suggest that some agonists can potently stimulate expression of prothrombinase
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PMID:Annexin V expression and membrane vesiculation during activation of leukemic cell lines. 973 Nov 6

Tissue plasminogen activator, tPA, is induced in the brain by electrical activity leading to synaptic remodeling. It is also induced in the prefrontal cortex (PFC) by acute cocaine. We investigated cocaine-induced locomotor activity, the development of sensitisation to cocaine and cocaine self-administration in mice lacking the gene encoding tPA. Mice lacking tPA (tPA knockout mice, tPA-/-) showed normal spontaneous activity, exhibited cocaine-induced locomotor activity at lower doses than wild-type (WT) control mice and showed a greater degree of cocaine-induced locomotor activity following repeated administration. tPA-/- and WT mice did not differ significantly in the time to acquire self-administration of cocaine (20 microg/i.v. infusion) under an FR2 schedule. Following acquisition of this behavior, these groups also did not differ significantly in the rate of cocaine self-administration across the next three sessions. However, WT mice decreased responses on the active lever during signaled periods when reinforcer was not available; in contrast, tPA-/- mice did not. The emission of non-reinforced responses was most marked at the beginning of each 90 min daily session. This pattern of responding was not seen in tPA-/- mice pressing for food under an FR2 schedule of reinforcement. These results suggest that tPA may play a specific role either in retention of information between sessions or in behavioural inhibition in cocaine self-administration.
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PMID:Increased sensitivity to cocaine, and over-responding during cocaine self-administration in tPA knockout mice. 1021 3

Tissue plasminogen activator mediates excitotoxin-induced neurodegeneration and microglial activation in the mouse hippocampus. Here we show that tissue plasminogen activator (tPA) acts in a protease-independent manner to modulate the activation of microglia, the cells of the central nervous system with macrophage properties. Cultured microglia from tPA-deficient mice can phagocytose as efficiently as wild-type microglia. However, tPA-deficient microglia in mixed cortical cultures exhibit attenuated activation in response to lipopolysaccharide, as judged by morphological changes, increased expression of the activation marker F4/80 and the release of the pro-inflammatory cytokine tumor necrosis factor-(&agr;). When tPA is added to tPA deficient cortical cultures prior to endotoxin stimulation, microglial activation is restored to levels comparable to that observed in wild-type cells. Proteolytically-inactive tPA can also restore activation of tPA-deficient microglia in culture and in vivo. However, this inactive enzyme does not restore susceptibility of tPA-deficient hippocampal neurons to excitotoxin-mediated cell death. These results dissociate two different functions of tPA: inactive enzyme can mediate microglial activation, whereas proteolytically-competent protein also promotes neuronal degeneration. Thus tPA is identified as a new cytokine in the central nervous system.
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PMID:Activation of microglia reveals a non-proteolytic cytokine function for tissue plasminogen activator in the central nervous system. 1054 61

Human antithrombin III was demonstrated to bind plasminogen specifically in a time and concentration-dependent manner. The above binding was also confirmed using ligand western blot assays. The interaction of plasminogen was significantly (>90%) inhibited by lysine, indicating the involvement of kringles in binding antithrombin III. Plasminogen also bound to heparin-antithrombin III complex. In converse experiments, antithrombin III also interacted with immobilized plasminogen. Using carboxypeptidase B digestion, the plasminogen-binding site of antithrombin III was localized to the carboxy-terminus lysine of the anticoagulant protein. Tissue plasminogen activator also interacted with antithrombin III in a time- and concentration-dependent manner and its binding was also significantly (>90%) inhibited by lysine. Moreover, the interaction of plasminogen and tissue plasminogen activator with antithrombin III was competitive. These results provide the first evidence for the interaction of antithrombin III with fibrinolytic factors and suggest that antithrombin III may serve to localize these factors at the site of clot formation.
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PMID:Plasminogen and tissue plasminogen activator interact with antithrombin III. 1097 50


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