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:3.4.21.5 (thrombin)
33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasminogen activator inhibitor-1 (PAI-1) is a serpin protease inhibitor that binds plasminogen activators (uPA and tPA) at a reactive center loop located at the carboxyl-terminal amino acid residues 320-351. The loop is stretched across the top of the active PAI-1 protein maintaining the molecule in a rigid conformation. In the latent PAI-1 conformation, the reactive center loop is inserted into one of the beta sheets, thus making the reactive center loop unavailable for interaction with the plasminogen activators. We truncated porcine PAI-1 at the amino and carboxyl termini to eliminate the reactive center loop, part of a heparin binding site, and a vitronectin binding site. The region we maintained corresponds to amino acids 80-265 of mature human PAI-1 containing binding sites for vitronectin, heparin (partial), uPA, tPA, fibrin, thrombin, and the helix F region. The interaction of "inactive" PAI-1, rPAI-1(23), with plasminogen and uPA induces the formation of a proteolytic protein with angiostatin properties. Increasing amounts of rPAI-1(23) inhibit the proteolytic angiostatin fragment. Endothelial cells exposed to exogenous rPAI-1(23) exhibit reduced proliferation, reduced tube formation, and 47% apoptotic cells within 48 h. Transfected endothelial cells secreting rPAI-1(23) have a 30% reduction in proliferation, vastly reduced tube formation, and a 50% reduction in cell migration in the presence of VEGF. These two studies show that rPAI-1(23) interactions with uPA and plasminogen can inhibit plasmin by two mechanisms. In one mechanism, rPAI-1(23) cleaves plasmin to form a proteolytic angiostatin-like protein. In a second mechanism, rPAI-1(23) can bind uPA and/or plasminogen to reduce the number of uPA and plasminogen interactions, hence reducing the amount of plasmin that is produced.
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PMID:A truncated plasminogen activator inhibitor-1 protein induces and inhibits angiostatin (kringles 1-3), a plasminogen cleavage product. 1111 16

Protein C (PC) is the zymogen form of a serine protease, activated protein C (APC), a naturally occurring anticoagulant. In control of the coagulation of blood, APC functions by attenuating thrombin formation. It serves this role through inactivation, by limited proteolysis, of two important cofactors for overall clot formation, one of which, Factor Va (FVa), stimulates prothrombin activation, and another, Factor VIIIa (FVIIIa), enhances activation of coagulation Factor X (FX). In maintaining the fluidity of blood, APC also indirectly functions in fibrinolysis, in one manner by directly inactivating an inhibitor of plasminogen activation, plasminogen activation inhibitor-1 (PAI-1), and in another manner via its role in attenuating thrombin production, with the resulting effect of limiting production of another thrombin-dependent fibrinolytic inhibitor, thrombin activatable fibrinolysis inhibitor (TAFI). PC, and other components of the PC anticoagulant pathway, e.g., protein S (PS), thrombomodulin (Tm), and endothelial cell protein C receptor (EPCR), also can serve as anti-inflammatory mediators, through a number of different thrombin-dependent and thrombin-independent mechanisms. A large number of symptomatic and asymptomatic mutations occur in PC in humans, which express a variety of phenotypes. Generation and characterization of a murine model of a total PC gene inactivation has demonstrated that while an untreated total PC deficiency results in neonatal death through DIC-related abnormalities, a valuable resource is now available to study phenotypes of less severe deficiencies of this protein. Such studies will lead to advances in an understanding of the relative role of this protein system in the various pathways in which it has an influence.
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PMID:Gene targeting in hemostasis: protein C. 1143 41

Most of our lifetime we spend in the postprandial state. Postprandial triglyceridemia may represent a procoagulant state involving disturbances of both blood coagulation and fibrinolysis, in particular due to elevation of the plasma levels of activated factor VII (VIIa) and plasminogen activator inhibitor (PAI-1). Therefore, disturbances of the hemostatic system might, at least partly, account for by the link between hypertriglyceridemia and coronary heart disease (CHD). Factor VIIa is the first enzyme of the blood coagulation system and serves a priming function for triggering of the clotting cascade. The coagulant activity of factor VII (VIIc, total activity of factor VII in plasma) was identified as an independent predictor of myocardial infarction in initially healthy middle-aged men, and particularly of fatal coronary events, and both serum cholesterol and triglyceride concentrations correlated positively with the VIIc level. Addition of fat to diet has been consistently shown to cause a rapid conversion of the factor VII zymogen into its active form (VIIa) whereas the concentration of total protein is unaffected. Postprandial activation of factor VII is dependent on lipolytic activity and it is mainly supported by large triglyceride-rich lipoprotein of the VLDL class. Studies in vivo with specific coagulation factor-deficient patients indicate that factor IX is essential for the postprandial activation of factor VII. The basal generation of thrombin seems to be unaffected by increased plasma levels of VIIa. However, since VIIa-tissue factor complex is responsible for the initiation of the coagulation cascade, increased generation of VIIa in the postprandial state would increase the potential for thrombin production in the event of plaque rupture. Plasminogen activator inhibitor-1 (PAI-1) is the major physiological inhibitor of the plasminogen activators in the circulation and thereby the principal inhibitor of the fibrinolytic system. Postprandial triglyceridemia has been observed in many, not all, studies to increase PAI-1 plasma levels, which would further strengthen the chances of thrombotic occlusion of a vessel after rupture of an atherosclerotic plaque.
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PMID:Postprandial triglycerides and blood coagulation. 1145 40

A number of experimental and clinical studies have recently underlined the importance, in acute myocardial infarction, of platelet adhesion and aggregation after plaque rupture. During clot resolution, platelet-rich thrombi are relatively resistant to fibrinolytic agents, mainly due to the release of plasminogen inhibitor-1 by platelets which are activated as a result of the increase in thrombin generation induced by plasminogen activator therapy despite heparin administration. Platelet glycoprotein (GP) IIb/IIIa integrin receptor blockers prevent platelet aggregation by blocking the final pathway of platelet activation. Thus, they also prevent the formation of an intraluminal white thrombus without affecting adhesion. Animal and human studies have shown that the potent inhibition of platelet GP IIb/IIIa receptors can lead to modest reperfusion rates even without exogenous fibrinolytic therapy. This suggests that combining the "dethrombotic" effects of a GP IIb/IIIa antagonist with lower fibrynolytic doses may result in a synergistic effect. Preclinical studies including patients with myocardial infarction have shown that such combined treatment increases the incidence, speed and durability of reperfusion. It has also been proved to be useful in improving the microcirculatory coronary flow and in facilitating subsequent percutaneous coronary interventions. In the phase III GUSTO V trial, abciximab combined with 5 + 5 U of reteplase and low-dose weight-adjusted heparin led to a 30-day mortality rate that was similar to that obtained with full-dose reteplase (10 + 10 U) and standard heparin therapy, without causing a significant increase in the incidence of intracranial hemorrhage. The results of this trial offer a rationale for alternative reperfusion therapy, although further analyses, including a 1-year follow-up, are needed to define the patient groups that are most likely to benefit from such a new regimen.
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PMID:[New strategies in the treatment of acute myocardial infarction]. 1172 6

Plasminogen activator inhibitor-1 (PAI-1) and alpha2-anti-plasmin (alpha2-AP) may contribute to arterial thrombolysis resistance. The role of these components on thrombus evolution in vivo was investigated in mice deficient for PAI-1 (PAI-1(-/-)) or alpha2-AP (alpha2-AP(-/-)) or their wild-type counterparts (PAI-1(+/+), alpha2-AP(+/+)). Moreover, the influence of either PAI-1 or alpha2-AP deficiency on the results of pharmacologic inhibition of glycoprotein IIb/IIIa of platelets or thrombin was also investigated. A thrombus was induced in the murine carotid artery by endothelial injury. The alpha2-AP(-/-) mice were indistinguishable from wild-type, whereas the time to occlusion in PAI-1(-/-) was significantly prolonged to 24.9 +/- 3.7 min. Vascular patency was markedly increased in both PAI-1- and alpha2-AP-deficient mice. In separate animals, either a glycoprotein IIb/IIIa antagonist or a thrombin inhibitor was applied. The time required to occlusion was prolonged in a dose-dependent manner in all types of mice. When each compound was administered to PAI-1(-/-) mice, significant changes were observed. In conclusion, lack of PAI-1 prolongs the time to occlusion and accelerates clot lysis, whereas alpha2-AP only has an effect on spontaneous reperfusion. Consequently, the inhibition of PAI-1, but not of alpha2-AP, could enhance the effects of anti-thrombotic therapy.
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PMID:Inhibitors of fibrinolytic components play different roles in the formation and removal of arterial thrombus in mice. 1179 Oct 14

Different extracellular matrix proteins have been described as binding proteins for growth factors, influencing their storage or presentation towards cellular receptors. The multifunctional adhesive glycoprotein vitronectin (VN), which is found in the circulation and widely distributed throughout different tissues, has been implicated in the regulation of vascular cell functions, and these activities could be related to interactions with various growth factors. In vitro, soluble VN interfered with transforming growth factor-beta (TGF-beta) binding to isolated extracellular matrix and was found to associate with TGF-beta1 and TGF-beta2 as well as with other growth factors such as vascular endothelial growth factor, epidermal growth factor, or basic fibroblast growth factor in a saturable manner. In particular, binding of TGF-beta was maximal for the heparin-binding multimeric isoform of VN, whereas VN in a ternary complex with thrombin and antithrombin or plasma VN exhibited weaker binding. Plasminogen activator inhibitor-1 (PAI-1) or heparin, but not desulfated glycosaminoglycans, interfered with binding of VN to TGF-beta, and soluble PAI-1 was able to dissociate VN-bound TGF-beta. Upon limited plasmin proteolysis of VN, only the fragments comprising the intact aminoterminal portion of VN bound to TGF-beta as did a synthetic peptide (amino acids 43 to 62), indicating that TGF-beta and PAI-1 share common binding site(s) on VN. Although VN did not influence TGF-beta bioactivity for mink lung epithelial cells, TGF-beta dose dependently inhibited both urokinase-receptor as well as alpha(v)-integrin-dependent adhesion to VN. This activity of TGF-beta was reminiscent of the antiadhesive function of PAI-1. In atherosclerotic tissue sections, staining patterns of VN and TGF-beta indicated their colocalization. These findings describe VN as a new binding protein for TGF-beta, whereby specific functions of both factors become modulated by this interaction.
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PMID:Molecular interactions and functional interference between vitronectin and transforming growth factor-beta. 1179 24

Serine proteases, such as thrombin and tissue-type plasminogen activator, play an important role in brain injury after intracerebral hemorrhage and other neurologic disorders. Plasminogen activator inhibitor-1 is one of the serine protease inhibitors, or serpins. The balance between serine proteases and serpins may affect the outcome of intracerebral hemorrhage. The purpose of this study was to determine whether plasminogen activator inhibitor-1 and tissue-type plasminogen activator are upregulated after intracerebral hemorrhage and the role that thrombin plays in that induction. Plasminogen activator inhibitor-1 protein levels were upregulated after intracerebral hemorrhage. Brain plasminogen activator inhibitor-1 content also increased after thrombin infusion in a dose-dependent manner. Hirudin, a specific thrombin inhibitor, blocked the upregulation of plasminogen activator inhibitor-1 after intracerebral hemorrhage. Time courses showed that plasminogen activator inhibitor-1 levels around the hematoma peaked at the first day. Plasminogen activator inhibitor-1-positive cells were detected in the perihematomal area and the ipsilateral basal ganglia after thrombin infusion, but not in the contralateral hemisphere. Plasminogen activator inhibitor-1 messenger RNA levels were increased at 24 hours after intracerebral hemorrhage and after thrombin infusion. However, tissue-type plasminogen activator protein levels were the same in the control, whole-blood, and thrombin-infusion groups. In conclusion, intracerebral hemorrhage and thrombin infusion stimulate plasminogen activator inhibitor-1 but not tissue-type plasminogen activator production in the brain. The upregulation of plasminogen activator inhibitor-1 may be neuroprotective by limiting thrombin or other serine protease-induced toxicity.
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PMID:Plasminogen activator inhibitor-1 induction after experimental intracerebral hemorrhage. 1180 94

To determine whether there is a correlation between fibrinolytic activity and dyslipidemia, we performed a study of 72 subjects (20 patients with hypercholesterolemia, 20 with hypertriglyceridemia, 12 with isolated low high-density lipoprotein (HDL)-cholesterol (mean age 47.7 +/- 6.3, body mass index 24.7 +/- 0.4) and 20 healthy controls. Plasminogen activator inhibitor-1 (PAI-1), tissue-plasminogen activator activity and plasmin-antiplasmin complexes (PAP) were detected at baseline and after venous occlusion test. We also measured at baseline lipidic pattern, soluble E and P selectins (sE-sel, sP-sel), prothrombin factor 1+2 (F1+2), lipoprotein(a), factor VII, plasma insulin, fibrinogen, homocysteine, and thrombin activable fibrinolysis inhibitor (TAFI) activity. Fibrinolysis was significantly reduced in hypertriglyceridemic patients compared with hypercholesterolemic patients and control subjects (PAP, p < 0.01 and p < 0.001) and was associated with increased PAI-1 (at baseline and after venous occlusion test, p < 0.001). sP-sel, F1 +2 and TAFI were not significantly different compared with controls, while hypercholesterolemic subjects showed a significant increase in these parameters (p < 0.001), which were related to decreased PAP only at the upper low-density lipoprotein (LDL)-cholesterol levels (>160 mg/dl) (p < 0.001, r = -0.76). Moreover, there was no significant difference in PAI-1 activity (at baseline and after venous occlusion test) compared with controls. In conclusion, endothelial dysfunction was the main mechanism of decreased fibrinolysis in subjects with hypertriglyceridemia and low HDL-cholesterol, while enhanced thrombin generation and TAFI activity were the main determinants in hypercholesterolemia.
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PMID:Different mechanisms of fibrinolysis impairment among dyslipidemic subjects. 1206 44

Hepatocyte growth factor activator inhibitor-1 (HAI-1) is an integral membrane protein expressed on epithelial cells and contains two extracellular Kunitz domains (N-terminal KD1 and C-terminal KD2) known to inhibit trypsin-like serine proteases. In tumorigenesis and tissue regeneration, HAI-1 regulates the hepatocyte growth factor (HGF)/c-Met pathway by inhibiting the activity of HGF activator (HGFA) and matriptase, two serine proteases that convert pro-HGF into its biologically active form. By screening a placental cDNA library, we discovered a new splice variant of HAI-1 designated HAI-1B that contains an extra 16 amino acids adjacent to the C terminus of KD1. To investigate possible consequences on Kunitz domain function, a soluble form of HAI-1B (sHAI-1B) comprising the entire extracellular domain was produced. First, we found that sHAI-1B displayed remarkable enzyme specificity by potently inhibiting only HGFA (IC50 = 30.5 nm), matriptase (IC50 = 16.5 nm), and trypsin (IC50 = 2.4 nm) among 16 serine proteases examined, including plasminogen activators (urokinase- and tissue-type plasminogen activators), coagulation enzymes thrombin, factors VIIa, Xa, XIa, and XIIa, and activated protein C. Relatively weak inhibition was found for plasmin (IC50 = 399 nm) and plasma kallikrein (IC50 = 686 nm). Second, the functions of the KD1 and KD2 domains in sHAI-1B were investigated using P1 residue-directed mutagenesis to show that inhibition of HGFA, matriptase, trypsin, and plasmin was due to KD1 and not KD2. Furthermore, analysis by reverse transcription-PCR demonstrated that HAI-1B and HAI-1 were co-expressed in normal tissues and various epithelial-derived cancer cell lines. Both isoforms were up-regulated in eight examined ovarian carcinoma specimens, three of which had higher levels of HAI-1B RNA than of HAI-1 RNA. Therefore, previously demonstrated roles of HAI-1 in various physiological and pathological processes likely involve both HAI-1B and HAI-1.
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PMID:Tissue expression, protease specificity, and Kunitz domain functions of hepatocyte growth factor activator inhibitor-1B (HAI-1B), a new splice variant of HAI-1. 1281 39

Plasminogen activator inhibitor-1 (PAI-1) is the major physiological inhibitor of tissue plasminogen activator (tPA) and is elevated in diseases of vascular remodeling. In this study, we describe an inhibitor of active PAI-1, WAY-140312. Using fluorescence spectroscopy, it was determined that WAY-140312 bound PAI-1 at a single binding site with a dissociation constant of 5 microM. In a biochemical assay determining direct tPA activity, human recombinant PAI-1 completely inhibited tPA, but this inhibition was blocked by WAY-140312 at an IC(50) of 15.6 microM. In vivo, a 10 mg/kg oral dose of WAY-140312 to rats produced a significant plasma reduction of active PAI-1. Bleeding time, thrombin clotting time, and ex vivo platelet aggregation induced by ADP (20 microM) or collagen (2.5 microg/ml) were not affected by administration of WAY-140312. These results are the first to demonstrate that an orally active PAI-1 inhibitor can reduce plasma PAI-1 activity while maintaining normal platelet aggregation and coagulation.
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PMID:WAY-140312 reduces plasma PAI-1 while maintaining normal platelet aggregation. 1462 66


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