Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thrombin, a potent platelet activating agent, has previously been found to increase intracellular calcium levels and/or thromboxane A2 synthesis in leukemic cell lines exhibiting specific markers of the megakaryocyte/platelet lineage. However, its functional role on these cells has not been defined. As thrombin is implicated in the regulation of cellular proliferation or differentiation in various other cell types, we investigated the functional effects of thrombin on the megakaryoblastic MEG-01 cell line, and further explored its receptor coupling mechanisms on these cells. We observed that thrombin caused in 1% serum containing culture medium, a reduction in the proliferation of MEG-01 cells, without affecting their differentiation stage as determined by the expression of platelet glycoproteins GPIIb/IIIa and GPIb, FVIII-related-antigen and cell-size measurement, which are specific markers for megakaryocyte maturation. In addition, incubation of MEG-01 cells with thrombin resulted in dose-dependent increases in cAMP levels, and in inositol-trisphosphate formation and intracellular Ca2+ levels. All these responses required thrombin proteolytic activity. The lipoxygenase inhibitor, nordihydroguaiaretic acid, blunted thrombin-induced calcium increase without affecting thrombin-induced increase in cAMP levels, suggesting different thrombin coupling mechanisms with these two second messenger pathways. In addition, the inhibitory effect of thrombin on MEG-01 cell growth was mimicked by cAMP level enhancing agents such as forskolin, prostaglandin E1 and Bt2cAMP. These results suggest the involvement of a cAMP-dependent mechanism in the thrombin-induced reduction in MEG-01 cell growth.
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PMID:Thrombin inhibits proliferation of the human megakaryoblastic MEG-01 cell line: a possible involvement of a cyclic-AMP dependent mechanism. 130 28

The authors used an immunogold labeling procedure to investigate the redistribution of platelet receptors and their ligands on the surface of contact-activated adherent platelets before and after thrombin stimulation. During the initial stage of platelet adhesion, a typical segregation of receptors occurred. Gold particles identifying glycoprotein (GP) Ib (CD42b) and GPIIb-IIIa (CD41a) remained distributed over the entire platelet surface, whereas gold particles identifying GPIa-IIa (CDw 49b) and GPIV (CD36) were found essentially overlying the granulomere; p24 (CD9) was present at the peripheral platelet rim and over the cell body. An increased labeling of GPIIb-IIIa, GPIV and p24 was also observed on pseudopods, with GPIIb-IIIa and GPIV concentrated at the enlarged extremities and at sites of contact between two platelets, whereas GPIb was absent from pseudopods. After thrombin stimulation of adherent platelets, GPIb underwent a relocation to the cell center, in contrast to GPIIb-IIIa which still remained randomly distributed over the cell body. To investigate whether ligand distribution paralleled this receptor segregation, platelet released von Willebrand factor (vWF), fibrinogen (Fg) and thrombospondin (TSP) were visualized. During the early stages of platelet activation, surface labeling for all three adhesive proteins was minimal and almost undetectable. Occasionally, intragranular Fg and vWF was accessible to gold-coupled antibodies, with vWF exhibiting the typical eccentric alpha-granular localization. At later stages of activation and especially after thrombin stimulation, no surface labeling for vWF was observed, whereas immunogold particles identifying vWF were still present inside enlarged clear vacuoles. In contrast, labeling of Fg and TSP was increased over the granulomere and extended to the cell periphery and the pseudopods, but was absent from the hyalomere, despite the presence of GPIIb-IIIa molecules. Double labeling experiments showed colocalization of Fg and TSP, GPIV and TSP, as well as Fg and GPIIb-IIIa, although no typical coclustering of GPIIb-IIIa and GPIV or GPIIb-IIIa and p24 was apparent. Our results further suggest that 1) on surface activated adherent platelets, not all GPIIb-IIIa molecules become competent to bind Fg, 2) GPIa-IIa is not anchored to the platelet membrane skeleton, and 3) during the early stage of platelet activation, a communication exists between the alpha granules and the platelet surface.
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PMID:Dynamic redistribution of major platelet surface receptors after contact-induced platelet activation and spreading. An immunoelectron microscopy study. 130 61

Platelets provide for primary hemostasis by forming a hemostatic plug at sites of vascular damage. They also provide a surface for the assembly of the coagulation protein complexes that generate thrombin, serve as a nidus for fibrin clots, and secrete factors involved in wound repair. Normal platelet function can be divided into four phases: adhesion, aggregation, secretion, and expression of procoagulant activity. Platelet adhesion initiates plug formation as platelets adhere to the connective tissue at the edges of a wound within seconds after vascular damage. When damage occurs in regions of slow blood flow, platelets adhere to subendothelial collagen, fibronectin, and laminin. However, when damage occurs in regions of rapid flow, platelet adhesion requires the presence of subendothelial von Willebrand factor (vWf) and a specific platelet receptor, the glycoprotein Ib/IX (GPIb/IX) complex. Following initial adhesion, platelets aggregate to complete the formation of a hemostatic plug. Platelet aggregation requires active platelet metabolism, platelet stimulation by agonists such as ADP, thrombin, collagen, or epinephrine; the presence of calcium or magnesium ions and specific plasma proteins such as fibrinogen or vWf; and a platelet receptor, the glycoprotein IIb/IIIa (GPIIb/IIIa) complex. Thus, platelet stimulation results in the generation of intracellular second messengers that transmit the stimulus back to the platelet surface, exposing protein binding sites on GPIIb/IIIa. Fibrinogen (or vWf) then binds to GPIIb/IIIa and crosslinks adjacent platelets to produce platelet aggregates. Platelet stimulation also results in platelet secretion and the elaboration of platelet procoagulant activity. During secretion, substances are released to propagate the aggregation response and to promote wound healing; the expression of procoagulant activity localizes thrombin generation to the site of vascular damage. Disorders of platelet function can be divided into those of congenital and those of acquired origin. Although congenital disorders are uncommon, acquired disorders are encountered frequently in clinical practice. Congenital absence of GPIb/IX and GPIIb/IIIa results in the Bernard-Soulier syndrome (BSS) and Glanzmann thrombasthenia (GT), respectively. Each is an autosomal recessive bleeding disorder in which absence of a protein complex renders the affected platelets incapable of undergoing either vWf-mediated adhesion (BSS) or fibrinogen-mediated aggregation (GT).(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Disorders of platelet function. 132 9

Porcine von Willebrand factor (PvWF) induces platelet aggregation which is thought to be responsible for the thrombocytopenia that occurs in haemophilic patients treated with commercial preparations of porcine factor VIII. This study demonstrates that such aggregation can be completely inhibited by a monoclonal antibody against human platelet glycoprotein GPIb and partially inhibited by an antibody directed against platelet GPIIb/IIIa. The interaction of PvWF with GPIb is also demonstrated by the inhibitory effect of purified glycocalycin on aggregation. The binding site of PvWF to GPIb is very close to that of human vWF, since a recombinant peptide blocks the binding of both molecules to GPIb. When platelets are incubated with PvWF, the GPIIb/IIIa receptor is activated and binds fibrinogen. PvWF also binds to GPIIb/IIIa when platelets are stimulated with thrombin, suggesting that the molecule has the same RGD sequence as other adhesive proteins (human vWF, fibrinogen, fibronectin and vitronectin). These findings identify the dual mechanisms responsible for in vivo platelet aggregation induced by PvWF, i.e. binding to GPIb and activation of the GPIIb/IIIa receptor.
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PMID:Interaction of porcine von Willebrand factor with the platelet glycoproteins Ib and IIb/IIIa complex. 141 6

We describe here the alteration of thrombin specificity induced by its interaction with glycocalicin. Glycocalicin is the external part of platelet glycoprotein Ib alpha (GPIb alpha) and contains binding sites for von Willebrand factor and thrombin. Taking advantage of its solubility, we have used glycocalicin in competition assays on various thrombin activities. Glycocalicin did not inhibit chromogenic substrate hydrolysis nor diisopropylfluorophosphate iPr2 (PF) incorporation, indicating that thrombin binding to GPIb does not alter access to or the conformation of the thrombin catalytic site. Glycocalicin competitively inhibited thrombin binding to fibrin (Ki = 0.1 mumol/L) and blocked fibrinogen clotting activity of thrombin. Glycocalicin also inhibited thrombin binding to thrombomodulin in a competitive manner (Ki = 3 to 5 mumol/L), but failed to prevent thrombin interaction with protein C in the absence of thrombomodulin. Previous results have indicated that GPIb binds to thrombin within the anion binding exosite masked by the carboxy-terminal hirudin peptide 54-65. The present results confirm the implication of the anion binding exosite in GPIb recognition, and further indicate that the thrombin binding site for GPIb overlaps with the thrombin binding sites for fibrin and thrombomodulin, whereas it is distinct from the thrombin binding site for protein C. Some of the structural requirements for thrombin binding to GPIb appear to be very similar to those reported for binding to its platelet receptor. However, thrombin-GPIb interaction does not appear to compete with receptor hydrolysis but rather increases the sensitivity and the rate of platelet responses elicited by the receptor.
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PMID:Thrombin interaction with platelet glycoprotein Ib: effect of glycocalicin on thrombin specificity. 145 Apr 5

Glycoprotein (GP) IIb and IIIa are major constituents of the platelet membrane which are involved in forming the fibrinogen receptor on activated platelets. We used flow cytometry to study the effects of ethylene-diamine tetraacetic acid (EDTA) on the membrane GPIIb/IIIa complexes of platelets and microparticles, and to study the effects of cations on dissociated GP complexes. Microparticles were detected by both the volume signal and by fluorescence using an FITC-conjugated anti-GPIb antibody (NNKY5-5). When platelets were stimulated with ADP, calcium ionophore A23187, or thrombin, fibrinogen binding to the platelet surface increased markedly. However, fibrinogen binding to microparticles showed little increase in response to such agonists. Microparticle GPIIb/IIIa complexes were dissociated by incubation with EDTA at 37 degrees C but did not reassociate after treatment with divalent cations (Ca2+, Mg2+, and Mn2+) in contrast to platelet GPIIb/IIIa complexes. These results suggest that some interaction of GPIIb/IIIa and linked structures like the platelet cytoskeleton may be involved in the reassociation of dissociated GPIIb and GPIIIa, perhaps explaining the failure of reassociation of microparticle GPIIb/IIIa (i.e., the fibrinogen binding to microparticles).
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PMID:Differences between platelet and microparticle glycoprotein IIb/IIIa. 145 94

In previous studies, Yersinia pestis YopM has been shown through mutational analysis to be necessary for virulence in mice and found to have homology with the thrombin-binding domain of the platelet receptor GPIb alpha. In this study, YopM was purified and shown by dot blot and chemical cross-linking tests to bind to human alpha-thrombin. No cross-linked product could be detected when human prothrombin was incubated with YopM. As a functional test of thrombin binding, it was shown that native but not boiled YopM inhibits thrombin-induced aggregation of human platelets. Control tests showed that YopM did not inactivate the platelets themselves, nor was its effect a nonspecific consequence of its very acidic isoelectric point. Microsequencing of YopM revealed an intact N terminus, indicating that functional YopM is not processed at the N terminus or secreted by a mechanism involving a cleavable signal sequence. Further characterization was made of an interesting effect on yopM expression that had been noticed in a previous study. A 1.5-kb HaeIII subclone overexpressed YopM in both Y. pestis and Escherichia coli compared with a larger clone containing the 5.3-kb HindIII-F fragment. To search for a possible regulator of YopM expression, the HindIII-F fragment was sequenced, revealing several open reading frames and three large repeated sequences. Deletional analysis showed that these were not involved in regulation of yopM. The data implicated a DNA structure 5' to yopM in moderating yopM expression.
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PMID:Yersinia pestis YopM: thrombin binding and overexpression. 145 57

Factor IX plays a central role in blood coagulation, since it can be activated by either XIa (intrinsic pathway) or tissue factor-VIIa (extrinsic pathway). Activated factor IX (IXa), in a surface-bound complex with factor VIIIa, then activates factor X. Platelets provide the catalytic surface upon which this Xase complex is assembled in vivo. We have used flow cytometry to examine binding of factor IXa to thrombin-activated platelets in the absence of added VIIIa. Platelet-bound IXa and platelet protein GPIb were detected by indirect immunofluorescence staining followed by two-color flow cytometric analysis. Microparticles were identified by their light scattering characteristics. Two binding sites for factor IXa were detected. The high affinity binding site saturated at about 10 nM, with a Kd of 1.6 nM. A second binding curve, with a Kd of about 100 nM, was observed at higher concentrations of IXa. The high affinity factor IXa binding sites comprise about 7% of the total factor IXa binding. Binding to both sites was dependent on the presence of calcium. Thus, we conclude that factor IXa, in addition to its high affinity binding, has a calcium-dependent low affinity association with activated platelets and microparticles. Sims et al, have shown that binding sites for a different coagulation factor, factor Va, are concentrated on microparticles relative to platelet membrane proteins, such as GPIb. GPIb is distributed on platelets and microparticle in proportion to plasma membrane surface.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coagulation factor IXa binding to activated platelets and platelet-derived microparticles: a flow cytometric study. 151 77

We recently reported that after activation of human platelets by thrombin, glycoprotein (GP) Ib-IX complexes are translocated to the surface-connected canalicular system (SCCS) (Blood 76:1503, 1990). As GPIb is a major receptor for von Willebrand factor (vWF) in platelet adhesion, we have now examined the consequences of thrombin activation on the organization of vWF bound to GPIb on the platelet surface. Studies were performed using monoclonal or polyclonal antibodies in either immunogold staining and electron microscopy (Au-EM) or in flow cytometry. When unstirred platelet-rich plasma was incubated with ristocetin, bound vWF was located by Au-EM as discrete masses regularly distributed over the cell surface. Platelets from a patient with Glanzmann's thrombasthenia, lacking GPIIb-IIIa complexes, gave a similar pattern, confirming that this represented binding to GPIb. That ristocetin was not precipitating vWF before their binding to the platelets was shown by the detection of similar masses on the surface of platelets of a patient with type IIB von Willebrand disease. Experiments were continued using washed normal platelets incubated in Tyrode-EDTA, the purpose of the EDTA being to limit the surface expression of endogenous vWF after platelet stimulation. Under these conditions, platelets were treated with ristocetin for 5 minutes at 37 degrees C in the presence of increasing amounts of purified vWF. This was followed by incubation with thrombin (0.5 U/mL) for periods of up to 10 minutes. Flow cytometry showed a time-dependent loss in the surface expression of vWF bound to GPIb and these changes were confirmed by Au-EM. In particular, immunogold staining performed on ultrathin sections showed that the bulk of the vWF was being cleared to internal membrane systems. Surface clearance of vWF during thrombin-induced platelet activation is a potential mechanism for regulating platelet adhesivity.
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PMID:von Willebrand factor bound to glycoprotein Ib is cleared from the platelet surface after platelet activation by thrombin. 156 27

This review 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-kDa membrane protein responsible for shape change, aggregation, and exposure of fibrinogen binding sites. A variety of putative receptors for collagen have been described, with GPIa/IIa and GPIV 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 tentatively identified as GPIb. Following binding of thrombin to this receptor, activation of calpain occurs, with cleavage of aggregin leading to exposure of GPIIb/III alpha 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:Receptors that activate platelets. 164 41


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