Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plasminogen activator (PA) inhibitor-1 (PAI-1) has been recognized as a surrogate marker of endothelial dysfunction in diseases associated with impaired angiogenesis, including atherosclerosis, diabetic vasculopathy, and nephropathy. To establish the necessary and sufficient components of the PA system [PAI-1, urokinase-type PA (uPA), or tissue-type PA (tPA), and plasminogen (Plg)] for angiogenesis, we examined angiogenic competence of vascular explant cultures obtained from mice deficient in PAI-1, tPA, uPA, and Plg. To gain insight into the requirement for different matrix-degrading systems during endothelial cell migration across plasmin-degradable basement membranes compared with profibrotic areas containing plasmin-nondegradable collagen, we contrasted vascular sprouting in collagen with Matrigel lattices. PAI-1(-/-) vessels showed an increased capillary sprouting in both collagen and Matrigel. Deficiency of uPA significantly reduced the rate of sprouting, whereas tPA(-/-) vessels showed a profound inhibition of capillary sprouting. The Plg(-/-) vessels failed to sprout, a defect that was restored not only by exogenous Plg, but also by the addition of PAs; a nonproteolytic effect of tPA was observed in Matrigel. Zymography revealed no differences in the activity of metalloproteinase (MMP)-2 and -9 in wild-type and PAI-1(-/-) vessels, but demonstrated reduced MMP-9 activity in all angiogenesis-deficient vessels. In summary, 1) PAI-1 by itself is a modest inhibitor of endothelial sprouting, 2) tPA and Plg are indispensable for angiogenesis in this model, 3) Plg is not the only substrate for PAs, and 4) the activity of MMP-9 is undetectable in explant cultures from tPA and Plg knockout mice.
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PMID:Plasmin-dependent and -independent effects of plasminogen activators and inhibitor-1 on ex vivo angiogenesis. 1155 72

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

Fibrinolysis is controlled by the plasminogen activator system. The proteolytic activity of this system is mediated by plasmin, which is generated from plasminogen by one of two plasminogen activators. Plasminogen activator inhibitor-1 (PAI-1) inhibits this process. Individuals with reduced fibrinolytic activity are at increased risk for ischemic cardiovascular events, and reduced fibrinolysis may underlie some of the pathological consequences of reduced nitric oxide (NO) availability. Within the vasculature, angiotensin II stimulates the release of PAI-1, thereby reducing fibrinolytic activity. Thus, the plasminogen activator system is largely controlled by the renin-angiotensin system (RAS). In accordance with this finding, treatment with angiotensin converting enzyme (ACE) inhibitors is associated with substantial reductions in the incidence of ischemic cardiovascular events. Links between the RAS, fibrinolytic balance, and cardiovascular pathology are further supported by evidence from transgenic and knockout animal models. This article discusses the role of the plasminogen activator system in cardiovascular pathology, and the potential for alleviating that pathology by manipulation of the RAS.
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PMID:Angiotensin and vascular fibrinolytic balance. 1182 73

Retinoids exert their pleiotropic effects on several pathophysiologic processes, including neointima formation after experimental vascular injury. Plasminogen activator inhibitor-1 (PAI-1) has been proposed to play an inhibitory role in arterial neointima formation after injury. We examined whether retinoids regulate PAI-1 expression in cultured vascular smooth muscle cells (SMCs). Northern blot analysis showed that all-trans retinoic acid (atRA) and 9-cis retinoic acid (9cRA) increased PAI-1 mRNA levels in a dose-dependent manner. These responses were completely inhibited by tyrosine kinase inhibitors. The half-life of PAI-1 was not affected by atRA, suggesting that induction of PAI-1 mRNA was mainly regulated at the transcriptional levels. Stable and transient transfection assays of the human PAI-1 promoter-luciferase constructs indicate that DNA sequence responsive to either ligand-stimulated or overexpressed retinoic acid receptor-alpha expression vector lies downstream of -363 relative to the transcription start site, where no putative retinoic acid response element is found. These results indicate that atRA and 9cRA increase PAI-1 gene transcription through pathways involving tyrosine kinases in SMCs. Because PAI-1 inhibits the production of fibrinolytic protein plasmin that facilitates SMC migration, induction of the PAI-1 gene expression by atRA may at least partly account for the role of atRA as an important inhibitor of neointima formation.
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PMID:Retinoids induce the PAI-1 gene expression through tyrosine kinase-dependent pathways in vascular smooth muscle cells. 1190 24

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

Aldosterone modulates cardiovascular and renal injury and fibrosis in animal models. This review explores the hypothesis that aldosterone causes injury and fibrosis, in part, through effects on plasminogen activator inhibitor-1, the major physiological inhibitor of plasminogen activators in vivo. Aldosterone interacts with angiotensin II to increase plasminogen activator inhibitor-1 expression in vitro and in vivo. Plasminogen activator inhibitor-1, by inhibiting the production of plasmin from plasminogen, tips the balance in favor of extracellular matrix accumulation and promotes fibrosis. Aldosterone receptor antagonism decreases both PAI-1 expression and fibrosis in animal models. These findings have implications for the clinical management of cardiovascular and renal disease.
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PMID:Aldosterone and PAI-1: implications for renal injury. 1211 92

Plasminogen activator inhibitor-1 (PAI-1), the primary physiological inhibitor of both tissue-type plasminogen activator and urokinase-type plasminogen activator in plasma, is a well established risk factor in thrombotic diseases. Reduction of active PAI-1 levels may lead to a decreased tendency of thrombosis. Compounds that can suppress pharmacologically active PAI-1 levels are therefore considered as putative drugs. In the present study, we describe the PAI-1 neutralizing properties and mechanism of a newly selected compound (i.e. fendosal, HP129) in comparison to four previously reported compounds (i. e. AR-H029953XX, XR1853, XR5118 and the peptide TVASS) using different assays. The inhibitory effect of these compounds on active PAl-1 was analyzed by a plasmin-coupled chromogenic assay (Coaset t-PA), direct chromogenic assays (t-PA, u-PA) and quantification of complex formation by ELISA, SDS-PAGE and surface plasmon resonance. Comparative evaluation of the obtained IC50 values reveals large differences [i.e. IC50 of 15 microM (HP129) vs. >1000 microM (XR5118) determined at 37 degrees C using SDS-PAGE] between the compounds studied. Importantly, the relative potency of the various compounds is also dependent on the method used (10 to 170-fold differences in IC50 values). Characterization of the PAI-1 forms (i.e. active, non-reactive and substrate) generated upon inactivation reveals that the newly described compound HP129 induces a unique pathway (i.e. active to non-reactive conversion via a substrate-behaving intermediate) of inactivation compared to the other compounds. Taken together, these data strongly suggest that the various compounds act through different mechanisms. In addition, the results stress the necessity for a careful selection of the method used for the evaluation of PAI-1 inhibitors, preferably requiring a panel of screening methods.
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PMID:Characterization and comparative evaluation of a novel PAI-1 inhibitor. 1215 54

Lipid abnormalities and dysregulation of the plasminogen activator (PA)/plasmin system may be involved in the development of glomerulosclerosis. We investigated the effects of low-density lipoprotein (LDL) on PA inhibitor-1 (PAI-1), urokinase-type PA (uPA), and tissue-type PA (tPA) in relationship to protein kinase C (PKC) in cultured human mesangial cells (HMC). LDL (200 microg/ml) induced two peaks of PKC activation at hours 0.25 and 6, with translocation of PKC-alpha, -beta(1), and -delta from cytosol to the membrane. The second increase in PKC activity gradually decreased to the control value by hour 18. LDL downregulated 2.4-kb PAI-1, uPA, and tPA mRNA expression within 6 h of incubation with HMC. On the other hand, after 12-48 h, LDL-treated cells showed a significant increase in PAI-1, tPA, and uPA mRNA levels. LDL induced up to a twofold increase in PAI-1 antigen levels in the extracellular matrix of HMC after 24-48 h as well as increased PA inhibitory activity in the culture medium. Analysis of the adhesion plaques from cells incubated with LDL for 48 h by zymography showed increased intensity of lysis near molecular weights of approximately 55,000 and 100,000. LDL slightly increased tPA release at hours 24 and 48 but did not increase PA activity in culture medium. The stimulatory effects of LDL on PAI-1, tPA, and uPA gene regulation in HMC were blocked by the inhibition of PKC using GF-109203X 12 h after treatment with LDL or downregulation of PKC using phorbol myristate acetate. In summary, LDL regulates PAI-1, uPA, and tPA in biphasic patterns in HMC, and the upregulation of PAI-1, uPA, and tPA after long-term LDL exposure seems to be mediated by a delayed PKC activation associated with an increased PA inhibitory activity. These results suggest that LDL, after prolonged incubations with HMC, causes a PA/inhibitor imbalance favoring accumulation of matrix.
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PMID:Biphasic regulation of plasminogen activator/inhibitor by LDL in mesangial cells. 1216 92

Plasminogen activator inhibitor-1 (PAI-1)-deficient transgenic mice have improved survival and less fibrosis after intratracheal bleomycin instillation. We hypothesize that PAI-1 deficiency limits scarring through unopposed plasminogen activation. If this is indeed true, then we would expect increased urokinase-type plasminogen activator (uPA) expression to result in a similar reduction in scarring and improvement in mortality. To test our hypothesis, using the tetracycline gene regulatory system, we have generated a transgenic mouse model with the features of inducible, lung-specific uPA production. After doxycycline administration, these transgenic animals expressed increased levels of uPA in their bronchoalveolar lavage (BAL) fluid that accelerated intrapulmonary fibrin clearance. Importantly, this increased plasminogen activator production led to a reduction in both lung collagen accumulation and mortality after bleomycin-induced injury. These results suggest that PAI-1 deficiency does protect against the effects of bleomycin-induced lung injury through unopposed plasmin generation. By allowing the manipulation of plasminogen activation at different phases of the fibrotic process, this model will serve as a powerful tool in further investigations into the pathogenesis of pulmonary fibrosis.
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PMID:Inducible lung-specific urokinase expression reduces fibrosis and mortality after lung injury in mice. 1237 55


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