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)

A variety of data suggest that fibrinogen binding is necessary but not sufficient for platelet aggregation: post fibrinogen binding events may play an important role. The present study compared fibrinogen binding and platelet aggregation in response to dithiothreitol (DTT) and ADP. DTT induced saturable and specific fibrinogen binding (Kd 0.07 + 0.02 microM, Bmax 15,000 + 3000 molecules/platelet) which supported complete platelet aggregation as determined by single platelet counting. The aggregates were small, however, and more readily dissociated by EDTA than their ADP-treated counterparts, despite quantitatively similar fibrinogen binding. Unlike fibrinogen bound to ADP-stimulated platelets, fibrinogen bound to DTT-treated platelets remained sensitive to dissociation by EDTA over a 3 h time course, retained its ability to support aggregation, even when aggregation was induced 60 min after the initial platelet exposure to fibrinogen, and remained accessible to polyclonal antibodies and plasmin. Confocal scanning laser microscopy showed only a surface clustering of fibrinogen bound to DTT-treated platelets over the 3 h time course compared to rapid fibrinogen clearing from the surface of ADP-stimulated platelets. These data suggest that post fibrinogen binding events involved in the stabilization of fibrinogen binding and/or the redistribution of bound fibrinogen may play important roles in regulating platelet aggregation.
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PMID:Regulation of platelet aggregation by post-fibrinogen binding events. Insights provided by dithiothreitol-treated platelets. 748 17

Although plasmin can trigger strong platelet responses such as shape change and exocytosis of internal granules, limited platelet aggregation is induced by this proteinase, owing to its capacity to rapidly proteolyse secreted adhesive proteins. In this context, we have investigated the state of activation of the fibrinogen receptor, the integrin alpha IIb beta 3, on platelets exposed to plasmin. Following incubation with plasmin at 37 degrees C, washing, and resuspension, platelets exhibit a moderate, low-velocity aggregation when stirred in the presence of fibrinogen. Optimum aggregability is observed when platelets have been exposed to plasmin activity of approximately 0.5 CU/ml for 20 min, and aggregation is insensitive to the presence of antagonists such as prostaglandin (PG) E1 and apyrase. Plasmin-induced platelet aggregability is associated with the expression of active fibrinogen receptors on the cell surface, which, using a 125I-fibrinogen binding assay, can be quantified to approximately 2,300 molecules per platelet. Exposure of active alpha IIb beta 3 receptors appears to depend partially, but not totally on a metabolic activation and granule exocytosis at the time of incubation with plasmin. In contrast with alpha-thrombin, plasmin-induced activation of alpha IIb beta 3 is sustained and cannot be reversed by exposure of platelets to PGE1. Immunoblotting analysis of the receptor subunits shows no extensive proteolytic modification of alpha IIb beta 3 by plasmin, and only reveals a limited proteolysis of the aminoterminal domain of the alpha IIb subunit. In addition to their capacity to aggregate in the presence of fibrinogen alone, plasmin-treated platelets also show a potentiated aggregability in response to low doses of ADP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Exposure of human platelets to plasmin results in the expression of irreversibly active fibrinogen receptors. 749 81

Previous studies have suggested that qualitative changes in platelet bound fibrinogen modulate platelet aggregation. The present study used confocal scanning laser microscopy to further evaluate post-ligand binding events over a 60-minute time course. When fluorescein isothiocyanate (FITC)-streptavidin was added to ADP-stimulated platelets 1 minute after biotinylated fibrinogen binding at 22 degrees C, bound fibrinogen was found in variously sized patches on the cell surface. When streptavidin was added 60 minutes later, bound fibrinogen had been cleared from the platelet surface and was observed in clusters penetrating into platelets to various extents. ADP-activated platelets did not stain with a monoclonal antibody against CD62 suggesting that platelets were not permeabilized during the experiment and had not released alpha-granules. Additional studies using either biotinylated fibrinogen that had been prelabeled with FITC-streptavidin or FITC-labeled fibrinogen revealed similar patterns of platelet-associated fibrinogen clearance and redistribution. Pretreatment of platelets with cytochalasin D prevented this redistribution. Dual labeling experiments using biotinylated fibrinogen and FITC-streptavidin as well as a monoclonal anti-GPIIIa antibody labeled with rhodamine-conjugated anti-mouse IgG demonstrated the co-localization of fibrinogen and GPIIIa. Similar observations were made with fibrinogen bound to thrombin-stimulated platelets. In contrast, fibronectin bound to thrombin-activated platelets retained a predominantly surface membrane distribution under identical experimental conditions. Since surface-cleared fibrinogen was accessible to exogenous FITC-streptavidin under conditions that did not lead to platelet permeabilization, the data suggest fibrinogen deposition in compartments that are accessible to the extracellular milieu. This is consistent with the ability of exogenous plasmin to completely remove cleared fibrinogen pools without detectable fibrinogen reexpression on the platelet surface or alpha-granule secretion. The data provide morphological evidence for the selective, GPIIb-IIIa mediated, actin-dependent clearance of bound fibrinogen from the activated platelet surface, suggesting a mechanism for preventing and limiting thrombus development.
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PMID:Bound fibrinogen distribution on stimulated platelets. Examination by confocal scanning laser microscopy. 767 79

Tyrosine phosphorylation of multiple platelet proteins is stimulated by thrombin and other agonists that cause platelet aggregation and secretion. The phosphorylation of a subset of these proteins, including a protein tyrosine kinase, pp125FAK, is dependent on the platelet aggregation that follows fibrinogen binding to integrin alpha IIb beta 3. In this report, we examined whether fibrinogen binding, per se, triggers a process of tyrosine phosphorylation in the absence of exogenous agonists. Binding of soluble fibrinogen was induced with Fab fragments of an anti-beta 3 antibody (anti-LIBS6) that directly exposes the fibrinogen binding site in alpha IIb beta3. Proteins of 50-68 KD and 140 kD became phosphorylated on tyrosine residues in a fibrinogen-dependent manner. This response did not require prostaglandin synthesis, an increase in cytosolic free calcium, platelet aggregation or granule secretion, nor was it associated with tyrosine phosphorylation of pp125FAK. Tyrosine phosphorylation of the 50-68-kD and 140-kD proteins was also observed when (a) fibrinogen binding was stimulated by agonists such as epinephrine, ADP, or thrombin instead of by anti-LIBS6; (b) fragment X, a dimeric plasmin-derived fragment of fibrinogen was used instead of fibrinogen; or (c) alpha IIb beta 3 complexes were cross-linked by antibodies, even in the absence of fibrinogen. In contrast, no tyrosine phosphorylation was observed when the ligand consisted of monomeric cell recognition peptides derived from fibrinogen (RGDS or gamma 400-411). Fibrinogen-dependent tyrosine phosphorylation was inhibited by cytochalasin D. These studies demonstrate that fibrinogen binding to alpha IIb beta 3 initiates a process of tyrosine phosphorylation that precedes platelet aggregation and the phosphorylation of pp125FAK. This reaction may depend on the oligomerization of integrin receptors and on the state of actin polymerization, organizational processes that may juxtapose tyrosine kinases with their substrates.
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PMID:Adhesive ligand binding to integrin alpha IIb beta 3 stimulates tyrosine phosphorylation of novel protein substrates before phosphorylation of pp125FAK. 768 53

The aim of this study was to synthesize and investigate hybrid peptides which contain the RGD (Arg-Gly-Asp) sequence coupled with lysine residues in special arrangements (antiplasmin carboxyterminal peptide) in an effort to simultaneously inhibit platelet aggregation and promote fibrinolysis. The in vitro haemostatic modifying properties of the synthesized peptides were tested by ADP-induced platelet aggregation, plasmin-generation tests and fibrin-clot lysis assays. The hybrid peptide RGDFAP, composed of RGDF (Arg-Gly-Asp-Phe) coupled to a synthetic peptide residue of the carboxyterminal part of antiplasmin (AP26) inhibited platelet activation and increased plasmin generation and in vitro fibrin-clot lysis.
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PMID:Hybrid peptide containing RGDF (Arg-Gly-Asp-Phe) coupled with the carboxy terminal part of alpha 2-antiplasmin capable of inhibiting platelet aggregation and promoting fibrinolysis. 779 48

We studied the effect of antiplatelet therapy not only on the secondary prevention of stroke but also on the suppression of vascular damages in patients with cerebral thrombosis at the chronic phase. We measured von Willebrand factor (vWF) as a marker for the endothelial system, and coagulation and fibrinolytic parameters in addition to platelet functions. The platelet aggregation and markers for platelet activation were monitored for the adequate inhibition of platelets. Twenty-one patients were treated with 200 mg ticlopidine. 9 patients with 100 mg ticlopidine and 60-150 mg acetylsalicylic acid, and 18 patients with 200 mg cilostazol daily. The mean duration of follow up was 8.4 +/- 3.0 months. A patient was attacked by a recurrent stroke, but no fatal vascular events occurred during the period. A significant decrease was observed in the collagen- and ADP-induced platelet aggregation and markers for platelet activation such as platelet factor 4 (PF4) and beta-thromboglobulin (beta TG) by the antiplatelet therapy. In addition, the activities of coagulation factor VIII (FVIII) and vWF, markers for vascular damages, showed a significant decrease. The results suggest that the antiplatelet therapy could ameliorate the vascular damage through the inhibition of platelet function. Moreover, thrombin-antithrombin III complex (TAT) and alpha 2-plasmin inhibitor-plasmin complex (PIC), markers for the activation of coagulation and fibrinolytic systems, decreased significantly, suggesting that the treatment inhibits the activation of coagulation and fibrinolytic systems induced by the platelet activation. The activities of FVIII and vWF decreased significantly when the level of beta TG or that of PF4 lowered sufficiently by the treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Antiplatelet therapy in patients with cerebral thrombosis at the chronic phase--assessment of its effect on coagulation and fibrinolytic parameters]. 799 82

Plasminogen and tissue-type plasminogen activator bind to the platelet surface, and as a result, the catalytic efficiency of plasminogen activation is significantly enhanced. The plasmin that is generated on or near the platelet is known to affect a number of platelet surface events. For this reason, we examined the effect of plasmin on platelet-surface plasminogen activation and its determinants. Specifically, we measured the effects of plasmin treatment of platelets (1 caseinolytic unit/mL for 1 h at 37 degrees C) on plasminogen, tissue-type plasminogen activator, and plasmin binding to the unactivated and ADP-activated platelet surface; and on the kinetics of plasminogen activation on the platelet surface. Following plasmin treatment, the number of plasminogen binding sites on unactivated platelets increased by 78% (from 46,000 +/- 4000 to 88,000 +/- 9000 sites/platelet), while the number of tissue-type plasminogen activator sites did not change, and the number of diisopropyl fluorophosphate (DFP)-inactivated plasmin (DFP-plasmin) binding sites decreased by 31% (from 92,000 +/- 11,000 to 65,000 +/- 7000 sites/platelet); the dissociation constants (Kds) for each of these binding processes did not change significantly following treatment. On ADP-activated platelets, plasmin treatment increased the number of plasminogen binding sites by 41% (from 188,000 +/- 17,000 to 265,000 +/- 25,000 sites/platelet), decreased the number of plasmin binding sites by 28% (from 219,000 +/- 41,000 to 157,000 +/- 24,000 sites/platelet), and did not affect the number of tissue-type plasminogen activator sites; again, the Kds for each of these binding processes did not change significantly following treatment.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetics and mechanism of platelet-surface plasminogen activation by tissue-type plasminogen activator. 813 Feb 11

The experiments reported here were carried out to define in greater detail actin's stimulation of plasmin generation by t-PA. Actin did not alter t-PA's hydrolysis of a synthetic substrate, and thus is unlikely to have a direct effect upon t-PA's proteolytic activity. When studied in a single-stage assay, actin accelerated t-PA-mediated plasmin generation from both Glu-plasminogen and Lys-plasminogen, indicating the central role of ternary complex formation. Although actin does not appear to bind two-chain urokinase (tcu-PA), it stimulates tcu-PA's cleavage of Glu-plasminogen. This finding suggests that actin alters the conformation of Glu-plasminogen to an open form. The failure of actin to increased plasmin generation by tcu-PA acting on Lys-plasminogen, which is in an open configuration, is consistent with this interpretation. Immunoglobin G, which shares with actin the property of binding to Glu-plasminogen after nicking by plasmin, did not stimulate tcu-PA's cleavage of Glu-plasminogen, indicating the uniqueness of actin's effects and suggesting interactions between actin and plasminogen at multiple binding sites. Unlike fibrin and heparin, whose stimulation of t-PA is related to polymer length actin is able to stimulate t-PA when presented in either a monomeric or polymeric form. Denaturation of actin by exposure to urea and guanidine increased its ability to stimulate plasmin generation by t-PA. Because actin's structure is maintained by a noncovalently bound adenine nucleotide (ATP or ADP), exposure to ATP/ADPases found in plasma and on cell membranes might also result in its denaturation. Actin treated with an enzyme functionally similar to such ecto-ATP/ADPases, potato apyrase, was more potent than native actin in stimulating plasmin generation by t-PA. The effects of apyrase were blocked by the addition of the plasma actin-binding proteins, gelsolin and the vitamin D-binding protein (DBP). Thus, denaturation of actin may occur in under physiologic conditions, with potential biological consequences. Actin thus appears to be unique with regard to its interactions with the fibrinolytic system and plasma actin-binding proteins may serve to protect the host from the effects of denatured actin.
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PMID:Actin stimulates plasmin generation by tissue and urokinase-type plasminogen activators. 823 51

The use of first generation plasminogen activators, urokinase, streptokinase and tissue plasminogen activator has revolutionized thrombolytic therapy for myocardial infarction and ischaemia, and potentially stroke. However, thrombolytic therapy employing these activators is limited by reocclusion of the very arteries being opened, which follows in a small but significant number of patients. The development of second generation plasminogen activators, e.g. staphylokinase and anisoylated plasminogen streptokinase activator complex, has not alleviated the problems encountered with classical plasminogen activators. It is now widely recognized that aberrant platelet aggregation induced primarily by thrombin, rather than plasmin, is one of the major causes of recurrent thrombosis following pharmacologic thrombolysis. Agents that (a) inhibit enzymatic and/or coagulant activity of thrombin, (b) block binding of thrombin to its receptor, and (c) interfere with the generation of thrombin by the prothrombinase complex may compromise haemostasis resulting in haemorrhage. We recently demonstrated that thrombin-induced platelet aggregation is accompanied by cleavage of aggregin, a putative ADP-receptor on the platelet surface, and that these events are indirectly mediated by intracellularly activated calpain expressed on the surface. In this review, we discuss the known mechanisms of thrombin-induced platelet aggregation and suggest relative advantages of potential pharmacological agents, being developed in our laboratory, over those that have been previously developed and tested. These inhibitors selectively prevent aggregation of platelets induced by thrombin by inhibiting calpain expressed on the surface. Moreover, one of these inhibitors which blocks thrombin-induced platelet aggregation does not interfere with other platelet responses mediated by thrombin or platelet aggregation induced by other agonists, such as, ADP, collagen, phorbol myristate acetate and thromboxane A2 mimetics. This selectivity could reduce the chances of perturbing the formation of a haemostatic plug.
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PMID:Reocclusion after thrombolytic therapy: strategies for inhibiting thrombin-induced platelet aggregation. 832 74

Infusion of the thrombolytic agents streptokinase (SK, 666 units/kg per minute for 60 minutes) and tissue-type plasminogen activator (t-PA, 10 micrograms/kg per minute for 15 minutes) in rabbits induced a significant hypotension and decrease in platelet count that were completely prevented by treatment with platelet-activating factor (PAF) receptor antagonists SDZ 63-675 and WEB 2170. PAF synthesis by vascular tissue was suggested by its extraction from blood-free heart and aorta of rabbits treated in vivo with SK or t-PA but not of control rabbits. In contrast, PAF was not detected in peripheral blood. Ex vivo studies on platelet aggregation response to ADP and PAF performed on platelet-rich plasma obtained before and after SK and t-PA infusion demonstrated an early hyperaggregable phase, abrogated by PAF receptor antagonists and followed by reduced sensitivity of platelets to PAF. The ED50 values for the aggregation of washed rabbit platelets induced by PAF but not thrombin were significantly increased at 60 and 120 minutes after SK and t-PA infusion, suggesting a specific desensitization of platelets to PAF. In contrast to PAF receptor antagonists, aspirin did not significantly modify the hypotension and the platelet hyperaggregability induced by SK or t-PA or the platelet hypoaggregability induced by t-PA. Thrombocytopenia induced by t-PA, but not by SK, was partially prevented by aspirin. The effect of SK, t-PA, and plasmin on the aggregation of washed platelets from untreated rabbits and from humans was also studied. Whereas SK and t-PA were inactive, plasmin induced dose-dependent platelet aggregation that was inhibited by platelet pretreatment with PAF receptor antagonists. In conclusion, the effect of PAF receptor antagonists observed in the present experimental model suggests that the hypotension and activation of platelets induced by SK and t-PA infusion are mediated by PAF.
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PMID:Role of platelet-activating factor in hypotension and platelet activation induced by infusion of thrombolytic agents in rabbits. 838 25


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