EC:3.4.21.5 - FACTA Search

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)

We have previously reported the purification of a 37 kDa platelet agglutinating protein (PAP p37) from the plasma of a patient with thrombotic thrombocytopenic purpura (TTP) that was shown to be present in a subset of TTP patients. To gain further insight into the interaction between PAP p37 and platelets, we have studied the properties of PAP p37 binding to platelets. Washed human platelets from two normal donors and two TTP patients after recovery were used for the experiments. The PAP p37 binding to platelets was specific, concentration dependent and saturable. Scatchard analysis demonstrated about 20,564-27,090 PAP p37 binding sites per platelet. Stimulation of platelets with thrombin or ADP did not have any significant effect on its binding. Thiol- and serine-specific protease inhibitors did not inhibit PAP p37 binding to the platelets. Sugars such as glucose, fructose, mannose, and sialic acid, at 40 mM, inhibited its binding to platelets by 44%, 73%, 79%, and 91% respectively, but galactose and amino sugars did not have any significant effect. At 250 micrograms/ml, Concanavalin-A inhibited 42% of binding, but other lectins, such as phytohemagglutinin-P, potato lectin and helix pomatia lectin (snail), did not. Pre-incubation of 125I-PAP p37 with the adult human IgG, decreased its binding to the platelets. The monoclonal antibodies to GP Ib (6D1) and GP IIb-IIIa complex (10E5) did not inhibit the binding of 125I-PAP p37 to platelets. Fibrinogen and von Willebrand factor did not affect the binding either. These results suggest that PAP p37 binds to platelets on the sites other than GP Ib or GP IIb-IIIa complex.
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PMID:Binding of platelet agglutinating protein p37 from the plasma of a patient with thrombotic thrombocytopenic purpura to human platelets. 202 44

The role of glycoprotein (GP) IIb-IIIa complexes and of adhesive proteins in mediating platelet aggregation is now well defined. However, less is known of the changes that occur once aggregation has begun. We report immunogold staining of thin sections of platelets or platelet aggregates, embedded in Lowicryl K4M, after the use of polyclonal antibodies to GP IIb or GP IIIa, fibrinogen (Fg), von Willebrand factor (vWF), and thrombospondin (TSP). Bound immunoglobulin G (IgG) was located by species-specific anti-IgG coupled to 5-nm gold particles and by electron microscopy. Initial experiments with platelet-rich plasma confirmed the feasibility of visualizing adhesive proteins between platelets in aggregates. Experiments then continued, using stirred suspensions of washed platelets incubated with alpha-thrombin. After 20 seconds, platelets were in contact without detectable release, although giant secretory vesicles containing adhesive proteins were seen. Internal pools of GP IIb-IIIa were progressively externalized within the aggregate. Secreted Fg was readily detected between platelets at 40 seconds. After 3 minutes, when most of the secretion had occurred, Fg had a patchwork-like distribution within the aggregate. After 6 minutes, zones with closely interspaced surface membranes, usually representing pseudopods, were dominant and Fg free. Results for vWF and TSP were similar to those for Fg. Nonetheless, GP IIb-IIIa complexes continued to be located between adjacent surface membranes throughout the aggregate. Thrombin-induced platelet aggregates were isolated, and sodium dodecyl sulfate-soluble extracts were obtained. Western blot experiments showed that, although fibrinopeptide A had been cleaved, degradation of adhesive proteins by platelet proteases had not occurred. These results emphasize that a platelet aggregate is a dynamic structure and suggest that not all surface-contact interactions are mediated by Fg or the other adhesive proteins tested in this study.
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PMID:Thrombin-induced platelet aggregates have a dynamic structure. Time-dependent redistribution of glycoprotein IIb-IIIa complexes and secreted adhesive proteins. 202 7

We have obtained evidence that the ligand-recognition region of the integrin beta-subunit, platelet glycoprotein IIIa (GPIIIa), is discontinuous. Receptor function can be localized to residues near the N-terminus and to the central region of the polypeptide chain. The epitope recognized by our monoclonal antibody, CS-1, which substantially inhibits fibrin(ogen) binding to ADP- and thrombin-stimulated platelets [Ramsamooj, Doellgast & Hantgan (1990) Thromb. Res. 58, 577-592], is contained within residues 349-422 of GPIIIa. This sequence is adjacent to a proteinase-resistant domain of GPIIIa which is linked by disulphide bond(s) to an N-terminal segment near to the putative Arg-Gly-Asp recognition site [D'Souza, Ginsberg, Burke, Lam & Plow (1988) Science 242, 91-93]. Limited trypsin digestion of purified platelet GPIIIa yielded a mixture of two-chain molecules comprised of an N-terminal fragment disulphide-bonded to one of four fragments, which began at residues 299, 303, 353 or 423. Tryptic cleavage of the 300-422 segment correlated with loss of immunoreactivity with anti-GPIIIa monoclonal antibody, CS-1. Chymotrypsin cleavage of GPIIIa resulted in an N-terminal 19 kDa fragment joined by at least one intrachain cystine residue to a 46 kDa polypeptide beginning at residue 349. Partial reduction with dithiothreitol released the larger chymotryptic fragment with its epitope for CS-1 intact. These results have enabled us to localize the epitope recognized by our inhibitory monoclonal antibody, CS-1, to residues 349-422 of GPIIIa. Our data are consistent with a structure in which both the N-terminal and central regions of GPIIIa, which may be in close proximity in the functional GPIIb-IIIa complex, participate in ligand binding.
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PMID:Evidence that the central region of glycoprotein IIIa participates in integrin receptor function. 206 10

The glycoprotein IIb-IIIa complex (GP IIb-IIIa) is a multifunctional transmembrane protein on platelets. Its most completely described function is as a fibrinogen receptor that mediates platelet aggregation, but it is also involved in clot retraction, signal transduction, calcium transport, and other events. However, the mechanisms that regulate the functions of GP IIb-IIIa during platelet activation are largely unknown. One possible mechanism is phosphorylation, since several other receptors are regulated by this process. We found that GP IIIa, but not GP IIb, was phosphorylated in 32P-labeled platelets, predominantly on threonine residues. Furthermore, GP IIIa phosphorylation increased four-fold in platelets activated with thrombin or phorbol 12-myristate 13-acetate, but not at all in platelets treated with prostacyclin, an inhibitor of platelet activation. The thrombin-induced increase in phosphorylation was inhibited by pretreating platelets with prostacyclin or with staurosporin, a specific protein kinase C inhibitor. Thus, there is an increase in the level or turnover of phosphate on GP IIIa during platelet activation, most likely involving protein kinase C. This phosphorylation may regulate some aspect(s) of GP IIb-IIIa function.
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PMID:Glycoprotein IIIa is phosphorylated in intact human platelets. 211 11

We have previously found that stimulation of aequorin-loaded platelets by thrombin produced a two-peaked increase in intracellular free calcium concentration ([Ca2+]i), and the development of the second peak of [Ca2+]i was closely related with the aggregation. In this report, we studied the interrelationship between the GPIIb/IIIa complex, aggregation, cytoskeletons and [Ca2+]i of platelets. The pretreatment of the platelets with dihydrocytochalasin B (4 microM), an actin polymerization inhibitor, did not inhibit aggregation and TXB2 production, but did inhibit both actin polymerization and the second peak of [Ca2+]i increase induced by thrombin, suggesting that actin polymerization and the second peak of [Ca2+]i are interrelated. GRGDSP (100 microM), a synthetic anti-adhesive peptide, has already been reported to inhibit platelet aggregation and the second peak of [Ca2+]i induced by thrombin. It also inhibited actin polymerization and TXB2 production, suggesting that aggregation was important for not only the generation of the second peak of [Ca2+]i but also for actin polymerization and TXB2 production. PGI2 (5 nM) did not abolish but only delayed aggregation, TXB2 production, actin polymerization and the second peak of [Ca2+]i increase. These findings suggest that the secondary signals are caused by aggregation (fibrinogen-binding to the GPIIb/IIIa) in thrombin-aggregated platelets, which results in the TXA2 production and the secondary peak of [Ca2+]i increase, and the latter was dependent on actin polymerization.
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PMID:Secondary signals mediated by GPIIb/IIIa in thrombin-activated platelets. 211 9

Calcium changes in normal and thrombasthenic platelets were recorded using the PICA-apparatus. Aequorin was loaded in the presence of DMSO, EGTA and PGE1. Platelets of three patients with type I thrombasthenia stimulated with A-23, 187, thrombin, PMA in the presence 1 mM Ca++ and 1 mM Mg++ were able to normally raise their calcium concentrations. The maximal values could be found below the normal range with collagen, ADP and PAF-acether. Calcium mobilization from internal stores in response to thrombin was normal. There were two calcium peaks in normal platelets stimulated with ADP. The second one was suppressed by omitting fibrinogen, stirring, or by adding aspirin, and was absent in thrombasthenic platelets. Thus the GP IIb-IIIa complex is not a prerequisite for calcium fluxes but is involved, when weak agonists such ADP are used, through an aggregation-dependent reinforcement of platelet activation.
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PMID:Aequorin-detected calcium changes in stimulated thrombasthenic platelets. Aggregation-dependent calcium movement in response to ADP. 211 6

The ultrastructural characteristics of platelets and the quantitative analysis of membrane glycoprotein (GP) IIb/IIIa quick-release reaction induced by high shear stress (HSS) were studied with transmission electron microscope and immunocolloidal gold staining. The results showed that platelets were activated and aggregated by HSS (50 dynes/cm2 or 100 dynes/cm2). Besides, HSS also caused a special platelet quick-release reaction which was called granule-membrane-fused lytic release (GFLR). GFLR differed from releases I and II which were induced by ADP and thrombin respectively. Granules were released quickly and lysis occurred when all granules had been discharged in GFLR. GFLR is a special form of platelet quick release induced by HSS and is called release III by the authors. In the process of platelet activation and lysis, the gold particles of GPIIb/IIIa were increasingly condensed. The possible reasons of increased surface expression of GPIIb/IIIa stimulated by HSS are also discussed.
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PMID:Studies of human platelet ultrastructure and quantitative analyses of membrane glycoprotein IIB/IIIA in shear stress-induced platelet quick release reaction. 211 33

Clinical, experimental and ultrastructural studies strongly suggest a role for platelets in metastatic dissemination. Several mechanisms have been proposed to explain the potential contribution of blood platelets to the metastatic cascade. Experimentally, many tumour cells of either animal or human origin have the capacity to activate platelets, although the mechanisms by which malignant cells exert this effect is not yet fully understood. Possible mechanisms include: (1) generation of thrombin; (2) activation by ADP; (3) release of cathepsin B; (4) eicosanoid metabolism. A number of observations also indicated that tumour-cell-induced platelet aggregation required specific receptor sites. We have shown that platelet glycoprotein GPIb and the complex GPIIb/IIIa are necessary for tumour-cell-induced platelet aggregation. We and others reported the isolation of a microparticulate aggregating material from different types of tumour cell lines. This material has been identified as a sialolipoprotein complex which possesses tissue-factor-like activity. The role of sialic acid in the metastatic potential of cells is also believed to be important and may partly modulate their interactions with platelets. In vivo, rheological factors may also regulate the interactions of tumour cells with blood and vascular structures and an alternative approach to the evaluation of platelet-tumour-cell interaction under dynamic conditions has been the use of perfusion systems. Thus, we have established the crucial role of Ca2+ in supporting tumour-cell-platelet activation and subsequent thrombus formation. More recently we investigated the patterns of adhesion of a highly metastatic human adenocarcinoma of the lung to exposed extracellular matrix generated by human vascular endothelial cells in culture.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The role of platelets in cancer metastasis. 213 51

IgG-containing immune complexes may play a role in the immune destruction of human platelets by interacting with an Fc gamma receptor on the platelet surface. We studied the platelet Fc gamma receptor and characterized its interaction with IgG ligand and anti-Fc gamma receptor monoclonal antibodies. Oligomers of IgG, but not monomeric IgG, bound to platelets and the number of binding sites was significantly increased at low ionic strength. Ligand-binding studies indicated that normal human platelets express a single Fc gamma receptor (Fc gamma RII) with 8559 +/- 852 sites per cell, Kd = 12.5 +/- 1.7 X 10(-8) M using trimeric IgG. Results of studies with bivalent and Fab monoclonal anti-Fc gamma RII were consistent with each Fc gamma receptor expressing two epitopes recognized by the antibody. The number of Fc gamma binding sites and affinity of binding were unchanged by the presence of 2.0 mM Mg2+ or 10 micrograms/ml cytochalasin B. Platelet stimulation with thrombin or ADP in the presence of fibrinogen also did not alter the number of Fc gamma binding sites or the affinity of binding. However, platelets preincubated with 5 microM dexamethasone expressed a decreased number of Fc gamma binding sites as well as decreased IgG-dependent platelet aggregation. Platelets from patients with Glanzmann's thrombasthenia and from patients with the Bernard Soulier syndrome expressed a normal number and affinity of Fc gamma binding sites. The data suggest that platelet Fc gamma RII binding of trimeric IgG occurs independent of actin filament interaction, Mg2+, ADP, or thrombin and does not require GPIIb/IIIa or GPIIb/IIIa-fibrinogen interaction. Furthermore, this receptor appears to be normally expressed on GPIb-deficient platelets and susceptible to modulation by glucocorticoids. Finally, the Fc gamma-binding protein was isolated from whole platelets as a 220-kDa protein which upon reduction dissociates into 50,000 Mr subunits.
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PMID:Characterization of the Fc gamma receptor on human platelets. 214 49

This article highlights the increasing knowledge of the biochemistry, pathology, and cell and molecular biology of platelet receptors. A receptor for ADP has been identified using the affinity label FSBA as aggregin, a 100-kd membrane protein, responsible for shape change, aggregation, and exposure of fibrinogen binding sites. A variety of putative receptors for collagen have been described with GP Ia and GP IV receiving the most attention recently. A thromboxane A2 receptor has been identified using receptor antagonists and photoaffinity labels. The alpha 2-adrenergic receptor has been cloned and expressed. The platelet thrombin receptor has been identified as GP Ib. Following binding of thrombin to this receptor, activation of calpain occurs with cleavage of aggregin leading to exposure of GP IIb/IIIa and platelet aggregation. Isolation, expression, or both of the ADP, collagen, and thrombin receptors as single gene products of the human platelet responsible for activation, and more complete understanding of stimulus-response coupling should allow for greater specificity of drugs with selective therapeutic actions.
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PMID:Platelet receptors. 215 4

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