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:3.4.21.7 (plasmin)
9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the presence of an excess of streptokinase (SK) the amidolytic activity of the plasminogen-SK complex on chromogenic substrates is 12% lower in serum than in the corresponding plasma. However, in subjects in whom venous stasis lead to a shortening of the euglobulin lysis time to less than 60 min (high responders), the amidolytic activity of the plasminogen-SK complex in serum was 60% higher than in the corresponding plasma. Attempts to find alterations of the plasminogen molecule itself which would account for the enhanced activity in high responder serum were negative. No free plasmin was present and the plasminogens isolated from plasma and serum before and after venous stasis had the same amidolytic activity as gluplasminogen in the presence of an excess of SK. N-terminal analysis of these four plasminogens revealed in each instance glutamic acid. The enhancement of the amidolytic activity of the SK-plasminogen complex in serum of high responders (potentiator activity) could be reproduced by adding purified tissue plasminogen activator (TA) to native blood before clotting, but not if TA was added to plasma or to prestasis serum. Removal of fibrin degradation products from poststasis serum resulted in the disappearance of potentiator activity. These experiments suggest that fibrin degradation products, generated during clotting in the presence of vascular or tissular plasminogen activator act as a potentiator of the amidolytic activity of the plasminogen SK-complex.
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PMID:The amidolytic activity of the SK-plasminogen complex is enhanced by a potentiator which is generated in the presence of vascular plasminogen activator--role of fibrin degradation products. 705 7

A cDNA coding for the E isoform of alpha-1-antiproteinase (also called alpha-1-antitrypsin or alpha-1-proteinase inhibitor) was isolated by oligonucleotide hybridization following immunochemical screening of the rabbit liver cDNA library. The deduced amino acid sequence of the E isoform showed 96.4% identity in 413 residues of the F and S-1 isoforms of rabbit alpha-1-antiproteinase. The N-terminal half of the amino acid residues of the three isoforms was almost identical, but the putative reactive-site loop structure (P8-P'8) was significantly different in the various forms, the P1 site of the E form being glutamic acid. Interaction of the recombinant E form with the various proteinases was investigated by SDS/PAGE, followed by immunoblot analysis. The recombinant protein and trypsin formed a 62 kDa equimolar complex, which gradually became graded to the 37 kDa fragment through several intermediates. The E form also formed a complex of a similar size with elastase and became degraded to the 31 kDa fragment. Several proteinases which cleaved the E form without forming a detectable complex on SDS/PAGE are chymotrypsin, protease V8, pancreas kallikrein, thermolysin, papain and ficin. Other proteinases, with a stringent substrate specificity, such as thrombin, factor Xa, plasmin, plasma kallikrein and cathepsin G, did not attack the E form. Unlike the F and S-1 forms of rabbit plasma alpha-1-antiproteinase, the recombinant E form did not inhibit the amidolytic and proteolytic activities of trypsin. Neither elastase nor protease V8 was inhibited by the E form. Thus the change in the amino acid residues in the reactive-site loop, probably in the P1 site, is responsible for the loss of inhibitory activity of rabbit alpha-1-antiproteinase E. The novel character of the E form could provide a new insight into the interaction of serpin and proteinases.
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PMID:Rabbit alpha-1-antiproteinase E: a novel recombinant serpin which does not inhibit proteinases. 773 71

We have investigated the effects of diffusive and convective transport on fibrinolysis. Using a constant pressure drop (delta P/L) from 0 to 3.7 mmHg/cm-clot to drive fluid permeation, various regimes of lytic agents were delivered into fine and coarse fibrin gels (3 mg/ml) and whole blood clots. Using plasmin (1 microM) delivered into pure fibrin or urokinase (1 microM) delivered into glu-plasminogen (2.2 microM)-laden fibrin, the velocity at which a lysis front moved across fibrin was greatly enhanced by increasing delta P/L. Lysis of fine and coarse fibrin clots by 1 microM plasmin at delta P/L of 3.67 and 1.835 mmHg/cm-clot, respectively, led to a 12-fold and 16-fold enhancement of the lysis front velocity compared to lysis without pressure-driven permeation. For uPA-mediated lysis of coarse fibrin at delta P/L = 3.67 mmHg/cm-clot, the velocity of the lysis front was 25-fold faster than the lysis front velocity measured in the absence of permeation. Similar permeation-enhanced phenomenon was seen for the lysis of whole blood clots. Without permeation, the placement of a lytic agent adjacent to a clot boundary led to a reaction front that moved at a velocity dependent on the concentration of plasmin or uPA used. Overall, these studies suggest that transport phenomena within the clot can play a major role in determining the time needed for reperfusion during fibrinolysis.
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PMID:Transport phenomena and clot dissolving therapy: an experimental investigation of diffusion-controlled and permeation-enhanced fibrinolysis. 797 57

To examine the basis of enhanced thrombolytic effect of tissue-type plasminogen activator (t-PA) in the presence of lys- or glu-plasminogen, studies were performed with human platelet-rich plasma (PRP) and washed platelets (WP). t-PA inhibited platelet aggregation in PRP and this effect was potentiated by lys-plasminogen as well as glu-plasminogen. t-PA inhibited WP aggregation only in the presence of lys- or glu-plasminogen. The potentiation of the effects of t-PA was greater (P < 0.05) with lys-plasminogen than with glu-plasminogen. t-PA alone also decreased 14C-serotonin release from WP, and lys- as well as glu-plasminogen reversed this effect of low concentrations of t-PA in WP. Aggregation of WP was also inhibited by plasmin, a proteolytic product of plasminogen. Low, but not high concentrations, of plasmin increased the release of 14C-serotonin. Anti-aggregatory effects of plasmin and lys-plasminogen plus t-PA on platelets were attenuated by preincubation of PRP or WP suspension with aprotinin. These observations suggest enhanced inhibitory effect of t-PA on platelet function in the presence of lys-plasminogen as potential basis of salutary interaction in models of arterial thrombosis.
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PMID:Lys- and glu-plasminogen potentiate the inhibitory effect of recombinant tissue plasminogen activator on human platelet aggregation. 809 99

The 600 kDa neutrophil membrane neutral protease, which had been shown to generate bioactive peptides from the acute-phase reactant C-reactive protein, has now been shown to have fibrinogenolytic activity that is distinct from fibrinogenolysis by plasmin and neutrophil lysosomal enzymes. This protease gradually reduces the apparent molecular mass of fibrinogen (340 kDa) to non-clottable products and generates terminal products with apparent molecular mass values of 270 kDa, 200 kDa, 100 kDa and less than 40 kDa through cleavage of all three of the constituent chains. Characteristics of fibrinogenolysis by this neutrophil protease are cleavage of the bond between amino acids valine and glutamic acid at positions 21 and 22 respectively from the N-terminus of the A alpha chain to release an A alpha 1-21 peptide, digestion of the B beta chain at positions within the C-terminus, and proteolysis of the bond between amino acids isoleucine and glycine at positions 394 and 395 respectively from the N-terminus of the gamma chain. This generates products that lack anticoagulant activity. The thrombin clotting time of the product with an apparent molecular mass of 330 kDa was prolonged, although clot formation was still observed. Loss of coagulability and inability to clot was found with further degradation of fibrinogen to an apparent molecular mass of 290 kDa. Activity of this neutrophil membrane protease in vivo could be important for the regulation of fibrin deposition at sites of inflammation, and may contribute to the reported plasma levels of the A alpha 1-21 peptide.
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PMID:Fibrinogenolysis by a neutrophil membrane protease generates an A alpha 1-21 fragment. 814 84

Previous results have shown that the autoantibody eluted from the glomeruli of rats with active Heymann nephritis contain a population of antibodies not only to the putative autoantigen of the disease, gp330, but also to plasminogen. Since gp330 has been shown to serve as a receptor for plasminogen, we have analyzed the effects of autoantibody on plasminogen-binding to gp330 and activation of plasminogen to plasmin by urokinase. Autoantibody does not inhibit the binding of plasminogen to gp330. The binding of autoantibody to plasminogen was shown to be very specific for the compact conformation of glu-plasminogen. The change in the conformation of plasminogen when its lysine-binding sites are occupied or after conversion to plasmin results in a significant decrease in autoantibody-binding. The most significant effect of autoantibody on this system is the inhibition of plasminogen activation to plasmin by urokinase. The binding of autoantibody to plasminogen acts as a competitive inhibitor of the reaction by apparently blocking access of urokinase to plasminogen's activation site. These results indicate that autoantibody obtained from the immune deposits in the glomeruli of rats with active Heymann nephritis does not inhibit the binding of plasminogen to gp330 but does significantly alter the urokinase catalyzed activation of plasminogen to plasmin.
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PMID:Effect of the nephritogenic autoantibody of Heymann's nephritis on plasminogen-binding to gp330 and activation by urokinase. 824 Dec 86

A fibrinogen fragment obtained by limited-plasmin proteolysis has been isolated and purified to apparent homogeneity by gel filtrations. This fragment, denoted as 24-Kd fragment, has an apparent M(r) approximately 24,000 and contains an N-terminal sequence of met-glu-leu-glu-arg-pro-gly-gly-asn-glu-ile. The fragment contains a large number of acidic amino acid residues, and its amino acid composition is similar to several fibrinogen A alpha chains degradation fragments isolated previously. It corresponds to a peptide of the fibrinogen A alpha chains, the N-terminal of which starts at alpha Met-240. This peptide delays thrombin plasma clotting time. It does not bind calcium ions and does not inhibit thrombin's amidolytic activity. It binds to immobilized fibrin but not fibrinogen. It also inhibits the polymerization of desAA and desAABB fibrin monomers by simultaneously decreasing the maximum rate and the maximum level of the polymerization reaction. However, the initial lag period of this reaction is not affected by the fragment.
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PMID:Anticoagulant function of a 24-Kd fragment isolated from human fibrinogen A alpha chains. 850 65

Membrane binding of urokinase type plasminogen activator (u-PA) is thought to play a pivotal role in connective tissue remodeling and invasive processes. We compare the ability of different matrix-metalloproteinases involved in connective tissue turnover to cleave pro-urokinase type plasminogen activator between the catalytic domain and the receptor binding part to investigate a potential role for matrix-metalloproteinases in the regulation of membrane-associated proteolytic activity. We employed several forms of human stromelysin-1 (full length, C-truncated, and recombinant catalytic domain), rabbit C-truncated stromelysin-1, the human gelatinases A and B and the human catalytic domain of neutrophil collagenase. The gelatinases and the collagenase did not separate the receptor binding domain of pro-urokinase type plasminogen activator from the catalytic domain, whereas all stromelysin-1 forms cleaved the glutamic acid 143-leucine 144 bond of pro-urokinase type plasminogen activator. This reaction could be inhibited by specific inhibitors of matrix metalloproteinases and was not affected by inhibitors of serine proteinases. The M(r) 31000 cleavage product with leucine 144 as N-terminus displayed no proteolytic activity towards the pro-urokinase type plasminogen activator substrate pyroGlu-Gly-Arg-pNA-HCI (S2444), but it could be activated by an additional treatment with plasmin. Comparison between full length stromelysin-1 and its C-truncated forms, showed that both exhibited the same cleavage properties towards pro-urokinase type plasminogen activator. Thus, the cleavage of pro-urokinase type plasminogen activator by stromelysin-1 is not influenced by the presence or absence of the C-terminal domain. The recombinant catalytic domain of MMP-3 generated pro-urokinase type plasminogen activator, whereas incubation of pro-urokinase type plasminogen activator with the native forms of human or rabbit stromelysin-1 led to a moderate activation of pro-uPA due to an additional cleavage that is catalyzed by a serine proteinase.
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PMID:The cleavage of pro-urokinase type plasminogen activator by stromelysin-1. 980 93

Alpha-1-antiproteinase E, the fourth isoform of rabbit alpha-1-antiproteinase (alpha-1-antitrypsin) having a glutamic acid at the reactive center, has been purified from the plasma by sequential chromatography on hydroxyapatite and anion-exchange columns. The E form of alpha-1-antiproteinase formed a complex with trypsin, chymotrypsin, elastase, plasmin and pancreatic kallikrein as judged by SDS-PAGE. The E form inhibited elastase in a stoichiometric manner and chymotrypsin moderately, but the inhibition of trypsin was gradual. The F form inhibited trypsin most effectively followed by chymotrypsin and elastase. N-chlorosuccinimide reduced the elastase inhibitory activity of the E form, while the F form was more effectively inactivated by the oxidant.
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PMID:Isolation and characterization of rabbit plasma alpha-1-antiproteinase E. 986 11

Fetal mouse metatarsals are well-known models to study cartilage differentiation and osteoclastic resorption. We show here the outgrowth of PECAM-1 positive tubelike structures from the bone rudiments. This feature can be used to study angiogenesis in vitro. The area of outgrowth significantly increased with culture time, as shown by computerized image analysis of PECAM-1 positive tubelike structures. Treatment with recombinant human vascular endothelial growth factor (rhVEGF-A) stimulated the formation of tubelike structures. Treatment of explants with the angiogenesis inhibitor endostatin, the chemokine IP-10, and the thalidomide derivative phatolyl glutamic acid (PG-acid) resulted in an inhibition of the formation of PECAM-1 positive tubelike structures of 48.8% (+/- 4%), 50.2% (+/- 12%), and 80.8% (+/- 3%), respectively. Outgrowth of tubelike structures was partly dependent on endogenous VEGF-A because treatment with anti-mVEGF-A and truncated VEGF receptor 1 (soluble fms-like tyrosine kinase 1, sFIt1) strongly inhibited the formation of tubelike structures 74% (+/- 4%) and 38% (+/- 5%), respectively. Neither onset of tube formation nor total area of tubelike structures were changed when metatarsals were cultured on a fibrin gel or collagen type I gel. Tube formation required activation of matrix metalloproteinases because treatment of the bones with an inhibitor of matrix metalloproteinases completely inhibited migration and tube formation, whereas treatment with an inhibitor of plasmin had no effect. In conclusion, we describe a new in vitro model to study angiogenesis that can be used to test the angiogenic or antiangiogenic potential of novel test compounds that also combines the multicellularity of in vivo assays with the accessibility and flexibility of in vitro assays.
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PMID:Effect of angiogenic and antiangiogenic compounds on the outgrowth of capillary structures from fetal mouse bone explants. 1120 73


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