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)

Extracellular proteolysis is required for matrix degradation and the regulation of cytokine activity during angiogenesis, and this is dependent on a cohort of proteases and protease inhibitors produced by endothelial and nonendothelial cells. The plasminogen activator (PA)/plasmin system has been extensively investigated in these processes, and descriptive studies have demonstrated that urokinase-type PA (uPA), uPA receptor (uPAR) and PA inhibitor-1 (PAI-1) are expressed by endothelial cells during angiogenesis in vivo. In vitro studies have led to the notion that normal capillary morphogenesis is dependent on a protease-antiprotease equilibrium. These findings are discussed in the context of recent observations on uPA-, uPAR-, PAI-1 and plaminogen-deficient mice, in which developmental and physiological angiogenesis appear to occur normally. This has led to a reevaluation of the role of the PA/plasmin system during angiogenesis. In particular, these observations raise the possibility that the role of this system may be limited to situations in which endothelial cells encounter and must degrade fibrin in order to form new capillary sprouts.
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PMID:Angiogenesis: a paradigm for balanced extracellular proteolysis during cell migration and morphogenesis. 879 3

The murine plasminogen/urokinase-type plasminogen-activator (u-PA) system was studied using purified proteins, plasma and endothelioma cells. Recombinant murine u-PA was obtained as a single-chain molecule of 45 kDa which was converted to two-chain u-PA with plasmin by cleavage of the Lys159-Ile160 peptide bond. Murine plasminogen, purified from plasma as a single-chain protein of 95 kDa, was resistant to quantitative activation with murine recombinant two-chain u-PA: only 15% activation within 1 h at 37 degrees C was obtained in mixtures of 1 microM plasminogen and 5 nM recombinant two-chain u-PA, whereas quantitative activation was observed in the autologous human system. Addition of 6-aminohexanoic acid to native murine plasminogen resulted in quantitative activation within 1 h. In murine plasma in vitro, plasminogen was also resistant to quantitative activation with u-PA (50% activation within 1 h at 37 degrees C with 50 nM recombinant two-chain u-PA, whereas in the human system nearly quantitative activation was obtained). Murine plasma clots submerged in murine plasma were resistant to lysis with u-PA; < or = 2% clot lysis in 2 h was obtained with 80 nM recombinant two-chain u-PA in the autologous murine system whereas 50% clot lysis in 2 h required only 15 nM recombinant two-chain u-PA in the autologous human system. Saturable binding of murine recombinant two-chain u-PA was observed to murine endothelioma cells that are genetically deficient in u-PA (u-PA-/- End cells). Binding was characterized by a Kd of 5.5 nM and 800000 binding sites/cell. However, u-PA-/- End cells did not significantly stimulate the activation rate of murine plasminogen by murine recombinant two-chain u-PA and did not enhance the plasmin-mediated conversion rate of murine recombinant single-chain u-PA to its two-chain derivative. Murine recombinant two-chain u-PA bound to murine endothelioma cells was quantitatively inhibited by murine plasminogen-activator inhibitor-1 (PAI-1). Thus, the interactions between murine plasminogen, u-PA and PAI-1 are qualitatively similar to those between their human counterparts. However, quantitative differences were observed both in the presence of cells and in plasma which may contribute to a reduced u-PA-mediated fibrinolytic activity in the murine systems.
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PMID:Characterization of the murine plasminogen/urokinase-type plasminogen-activator system. 894 73

Insulin-like growth factor (IGF) binding proteins (IGFBPs) modulate IGF action at cellular level through inhibition or, alternatively, potentiation, where their limited proteolysis is a contributory mechanism. Under basal conditions, neuroblastoma cells secrete IGFs (essentially IGF-II), IGFBPs (IGFBP-4 and predominantly IGFBP-2 that is partially proteolysed), and proteases, including tissue-type plasminogen (PLG) activator, whose activity is inhibited by PLG activator inhibitor-1. Neuroblastoma cells were used to investigate the influence of the plasmin system, transforming growth factor-beta retinoic acid on cell growth and the IGF system. In cells treated with 5 micrograms/ml PLG, proliferation was stimulated, an effect that was inhibited in the presence of either alpha IR-3 (which blocks the type 1 IGF receptor) or anti-IGF-II antibodies. There was a parallel increase in IGFBP-2 proteolysis, which resulted in a 5-fold loss of affinity for IGF-II. In the presence of 1 ng/ml transforming growth factor-beta, PLG-induced mitogenesis and IGFBP-2 proteolysis were reduced, and Northern blot analysis revealed increased PLG activator inhibitor-1 mRNA. Conversely, with 2 microM retinoic acid, the mitogenic effect of PLG, IGFBP-2 proteolysis, and tissue-type PLG activator mRNAs were increased. Therefore, IGF-II mediates autocrine proliferation in neuroblastoma cells under the control of IGFBPs secreted by the cells, its bioavailability being enhanced as a result of plasmin-induced IGFBP-2 proteolysis.
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PMID:Role of insulin-like growth factor binding protein-2 and its limited proteolysis in neuroblastoma cell proliferation: modulation by transforming growth factor-beta and retinoic acid. 900 3

The plasminogen activator (PA)-plasmin proteolytic system has recently received considerable attention because of its participation in a wide variety of biological activities and in pathological conditions involving tissue destruction. Excessive mechanical stress such as occlusal trauma is associated with alveolar bone loss in severe periodontitis. Therefore, mechanical stress may involve degradation of the extracellular matrix by occlusal trauma through activation of the PA-plasmin proteolytic system. We examined the effects of mechanical stress on PA activity, gene expressions of tissue type (t) PA, urokinase type (u) PA and PA inhibitor-1 (PAI-1) in human PDL cells. Human PDL cells were cultured on flexible-bottomed culture plates and placed on a Flexercell Strain Unit. The cells were flexed at 6 cycles (5 s strain, 5 s relaxation) at 9% and 18% elongation for 5 d. Application of tension-force induced significantly higher PA activity in stressed PDL cells than in non-stressed controls, and did so in a time- and magnitude-dependent manner (p < 0.001, ANOVA). Western-blot analysis revealed that the high level of activity was due to tPA and not uPA. Gene expression of tPA mRNA in stressed PDL cells, as examined by RT-PCR, increased on d 5. These findings suggest that tPA may be involved in periodontal metabolism in response to mechanical stress.
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PMID:Effect of tension-force on plasminogen activator activity from human periodontal ligament cells. 913 97

Proteolysis, caused by the serine proteinase plasmin (EC 3.4.21.7) that is present in milk, influences the quality of dairy products. Within the plasmin system, activators and inhibitors control plasmin activity. This study investigated the presence in bovine milk of two serine proteinase inhibitors of the plasmin system, alpha(2)-antiplasmin and plasminogen activator inhibitor-1, and an isolation procedure used for partial purification of them from milk. Two colorimetric assays were used to detect either plasmin inhibitor activity or plasminogen activator inhibitor activity. Two inhibitors were partially purified from milk using a combination of ammonium sulfate fractionation and concanavalin A affinity chromatography. Plasminogen activator inhibitor-1 and alpha(2)-antiplasmin antigens, which were associated with the inhibitory activities from bovine milk, were visualized by Western blot using commercial polyclonal antibodies raised against the corresponding human inhibitors. Both inhibitors were present in milk as several forms, possibly from the formation of complexes with other milk proteins. The predominant forms of the inhibitors in milk exhibited an approximate molecular mass of 60 kDa for alpha(2)-antiplasmin and 55 kDa for plasminogen activator inhibitor-1.
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PMID:Presence in bovine milk of two protease inhibitors of the plasmin system. 927 88

Angiotensin II is a vasoactive peptide that has been widely implicated in the pathogenesis of glomerular disease. Some of its effects are thought to be independent of changes in blood pressure. Plasmin is a key regulator of fibrinolysis and extracellular matrix turnover. The conversion of plasminogen to plasmin by plasminogen activators (PAs) is controlled by their specific inhibitor, PAI-1. In this study we report the effects of angiotensin II on the production of PA inhibitor-1 (PAI-1) and tissue-type PA (t-PA) by glomerular mesangial cells in culture. Angiotensin II significantly increased the production of PAI-1 in the supernatant of mesangial cells (p < 0.05) in a dose-dependent manner, the maximum stimulation occurring at a concentration of 10(-5) M. The effect was not mediated by transforming growth factor-beta (TGF-beta), which is known to be induced by angiotensin II; TGF-beta itself can increase PAI-1 expression. Angiotensin II did not alter t-PA production or incorporation of matrix fibronectin but did increase cellular proliferation and 3H-thymidine uptake. The increase in PAI-1 by angiotensin II may contribute to the persistence of fibrin deposits and extracellular matrix accumulation, providing another mechanism whereby angiotensin II contributes to glomerular dysfunction.
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PMID:Effect of angiotensin II on plasminogen activator inhibitor-1 production by cultured human mesangial cells. 934 87

The plasminogen activator (PA)-plasmin proteolytic system has recently received considerable attention because of its participation in a wide variety of biological activities and in pathological conditions involving tissue destruction. We examined the effects of interleukin-6 (IL-6) on PA activity and the gene expressions of tissue type (t) PA and PA inhibitor-1 (PAI-1) in human dental pulp (HDP) cells. IL-6 treatment induced significantly high PA activity in the HDP cells in a time- and dose-dependent manner, compared with nontreated controls. Western-blot analysis showed that tPA protein in the conditioned medium was stimulated by IL-6, compared with the control. The tPA and PAI-1 mRNA levels were increased in HDP cells treated with IL-6, as shown by reverse transcriptase-polymerase chain reaction. These results suggest that IL-6 stimulated PA activity through an enhancement of tPA gene expression and may be involved in extracellular matrix degradation through the stimulation of the PA-plasmin system of HDP cells.
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PMID:Stimulatory effect of interleukin-6 on plasminogen activator activity from human dental pulp cells. 964 Nov 8

Retinoic acid (RA) induces the activation of latent transforming growth factor-beta (TGF-beta) in bovine aortic endothelial cells (BAECs) via enhancement of cellular plasminogen activator (PA)/plasmin levels. The resultant TGF-beta suppresses the excessive fibrinolytic activity by decreasing PA expression and stimulating expression of the PA inhibitor, PA inhibitor-1 (PAI-1), and inhibits cell proliferation. Here, we report that, in this regulatory system, RA simultaneously up-regulates the expression of TGF-beta receptor types I and II, resulting in enhancement of TGF-beta activity in the cells. RA increased the numbers of high- and low-affinity binding sites for 125I-TGF-beta1 2.1-fold and 1.5-fold, respectively, without alteration of their Kd values. Affinity labeling and Western and Northern blotting studies showed that, following RA treatment, surface levels of both type I and type II receptors increased due to augmentation in their mRNA levels. The effect was dose- and time-dependent. Treatment with 1 microM RA for 15 hr increased mRNA levels of type I and II receptor threefold and eightfold, respectively. Pretreatment of BAECs with either RA or retinol lowered the concentration of TGF-beta1 required to suppress PA levels, to enhance PAI-1 levels, and to inhibit cell proliferation. Thus, retinoids may regulate cellular functions of BAECs not only by inducing the formation of active TGF-beta but also by stimulating TGF-beta receptor expression. This regulatory mechanism may sustain TGF-beta-mediated regulation of EC function at a focal site where RA is acting.
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PMID:Retinoids potentiate transforming growth factor-beta activity in bovine endothelial cells through up-regulating the expression of transforming growth factor-beta receptors. 969 9

Plasminogen activator inhibitor-1 (PAI-1) is a specific inhibitor of plasminogen activators and may be the principal regulator of plasminogen activation in vivo. Abnormal expression of PAI-1 has been reported in various types of human disorders and in animal models for the diseases in relation to thrombosis. For example, plasma PAI-1 activity was elevated in patients with endotoxemia, and a dramatic induction of PAI-1 mRNA was observed in tissues of endotoxin-treated animals, resulting in tissue microthrombosis. It has also been demonstrated that PAI-1 expression levels are increased in the kidneys of mice with glomerulonephritis, in the adipose tissue of obese subjects or mice, and in human atherosclerotic arteries. This PAI-1 induction may be relevant to pathological processes in these diseases because PAI-1 not only regulated fibrin dissolution in vivo but also inhibited degradation of extracellular matrix by reducing plasmin generation. The responsible cells for abnormal expression of PAI-1 have been identified in each tissue under pathological conditions and PAI-1 synthesis appears to be regulated in a tissue-specific manner. These observations suggest that PAI-1 could play an important role in the progression of tissue pathologies in a variety of human diseases by controlling the rate of plasmin formation.
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PMID:A pathological role of increased expression of plasminogen activator inhibitor-1 in human or animal disorders. 988 37

Recent studies have suggested that angiotensin II may inhibit fibrinolysis. In order to further test this hypothesis, we investigated the acute effects of angiotensin II (intravenous infusion of 10 ng/kg per min over 15-20 min) on fibrinolytic function in 18 healthy men. Time-controls (n=11) and control experiments with a placebo infusion (n = 13) were also performed. The activities of plasmin activator inhibitor-1 (PAI-1) and tissue-type plasminogen activator (t-PA), as well as t-PA antigen levels, were determined in plasma before, during and 60 min after the infusion of angiotensin II. Angiotensin II caused a clear-cut elevation in blood pressure; heart rate and plasma noradrenaline levels tended to decrease during the infusion but increased afterwards, indicating reflexogenic adjustments. Plasma t-PA activity and antigen levels increased by 81+/-11 and 14+/-3%, respectively, during angiotensin II infusion (both P < 0.001), whereas t-PA activity was unchanged and t-PA antigen decreased (P < 0.05) in placebo experiments. PAI-1 activity decreased similarly in time-controls and during angiotensin infusion (P < 0.001). Thus, short-term infusion of angiotensin II enhances fibrinolysis by elevating plasma t-PA. It is not clear whether this is a direct angiotensin-receptor-mediated effect or if it is related to the hemodynamic effects of the infusion.
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PMID:Acute effects of angiotensin II on fibrinolysis in healthy volunteers. 1007 Aug 31


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