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)

Platelets from two patients with Glanzmann's thrombasthenia showed decreased iodination of surface glycoproteins GPIIb and GPIII. Despite these changes, the binding of [125I] alpha-thrombin to the thrombasthenic platelets was normal. Binding was linear up to a thrombin concentration of 0.1 to 0.2 U/ml, at which point a change in the slope of the binding curve was observed. At lower concentrations of thrombin, 1,000 to 2,000 molecules of thrombin were bound per platelet, with an apparent Kdiss of 0.1 to 0.3 U/ml. With high concentrations of thrombin, thrombasthenic platelets bound 30,000 to 65,000 molecules of thrombin per platelet at saturation, with an apparent Kdiss of 5 to 10 U/ml. The release of [14C]serotonin by thrombasthenic platelets as a function of thrombin concentration was also similar to release by normal platelets. These studies indicate that the receptor(s) for thrombin on the plasma membrane of platelets from patients with Glanzmann's disease are intact and that membrane glycoproteins GPIIb and GPIII play little or no role in either the initial binding of thrombin to platelets or the transmission of this surface stimulus to release-inducing mechanisms.
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PMID:Thrombin binding to thrombasthenic platelets. 61 92

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

Human platelets undergo a rapid, major reorganization of the cytoskeletal matrix upon exposure to thrombin, and accumulate 3-phosphorylated phosphoinositides in a protein kinase C (PKC)-dependent manner. These phosphoinositides have been suggested to be involved in actin polymerization/depolymerization. We reasoned that, if newly generated 3-phosphorylated phosphoinositide modulates cytoskeletal reorganization, a prerequisite for such action would be generation near cytoskeletal proteins. We have found that, after platelet activation, phosphatidylinositol 3-kinase and phosphatidylinositol(4)P 3-kinase activities, antibody-detectable phosphoinositide 3-kinase, and PKC become markedly and specifically enriched in a Triton X-100-insoluble cytoskeletal fraction that contains GPIIb/IIIa (integrin) and pp60c-src. The cytoskeletal fraction then accounts for up to 70% of total phosphoinositide 3-kinase activity, a function of recruited activated enzyme. These proteins are not occluded or directly associated with newly polymerized actin, since blockage by cytochalasin D of actin polymerization, and consequent inhibition of accumulation of about 40% of incremental protein and actin in this fraction, has no effect on its content of phosphoinositide 3-kinase, GPIIb/IIIa, pp60c-src, or PKC. Depolymerization of actin with DNase I, or inhibition of ligand binding to GPIIb/IIIa by RGDS, however, in combination with cytochalasin D, further depletes actin and significantly decreases sedimentability of GPIIb/IIIa as well as phosphoinositide 3-kinase, pp60c-src, and PKC, without inhibiting total 3-kinase activity. Our results suggest that, as a function of platelet activation, enzymes that regulate the synthesis of 3-phosphorylated phosphoinositides rapidly associate with the membrane skeleton and that skeletally associated phosphoinositide 3-kinase is more active than the Triton-soluble form.
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PMID:Activated phosphoinositide 3-kinase associates with membrane skeleton in thrombin-exposed platelets. 131 17

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

Differences in regulation of the accumulation of PtdIns(3,4)P2 versus that of PtdIns(3,4,5)P3 were noted in thrombin-stimulated human platelets. The rapid (within 20 s) response of PtdIns(3,4,5)P3 contrasted with a distinct lag in the accumulation of PtdIns(3,4)P2 that was followed by a pronounced increase by 90 s. The presence of 2.5 mM-CaCl2 further elevated PtdIns(3,4)P2 by 50-120%, but only at a late stage (after 90 s). Tetrapeptide RGDS (Arg-Gly-Asp-Ser), which blocks the interaction of ligands such as fibrinogen with platelet integrin alpha IIb beta 3 (GPIIb-IIIa), inhibited only the late-phase PtdIns(3,4)P2 accumulation that was associated with added Ca2+. Although stimulated tyrosine phosphorylation of platelet protein (total cell lysate) was altered by Ca2+ or RGDS, we could not identify any such proteins that were affected comparably to PtdIns(3,4)P2. In contrast to the PtdIns(3,4)P2 response, the accumulation of PtdIns(3,4,5)P3 was unaffected by Ca2+ or RGDS at any time.
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PMID:Accumulation of PtdIns(3,4)P2 and PtdIns(3,4,5)P3 in thrombin-stimulated platelets. Different sensitivities to Ca2+ or functional integrin. 132 44

This study characterizes a congenital hemorrhagic disorder caused by a platelet function defect with the following features: (1) severely impaired platelet aggregation and fibrinogen or von Willebrand factor (vWF) binding induced by adenosine diphosphate (ADP); (2) defective aggregation, release reaction, and fibrinogen or vWF binding induced by other agonists; (3) normal aggregation and release reaction induced by high concentrations of thrombin or collagen; (4) no further inhibition by ADP scavengers of aggregation, release reaction, and fibrinogen or vWF binding, comparable with those observed for normal platelets in the presence of ADP scavengers; (5) normal membrane glycoprotein (GP) composition and normal binding of the anti-GP IIb/IIIa monoclonal antibody 10E5; (6) no acceleration by ADP of binding of the anti-GP IIb/IIIa monoclonal antibody 7E3; (7) normal platelet-fibrin clot retraction if induced by thrombin or reptilase plus epinephrine, absent if induced by reptilase plus ADP; (8) no inhibition by ADP of the prostaglandin E1-induced increase in platelet cyclic adenosine monophosphate, but normal inhibition by epinephrine; (9) defective mobilization of cytoplasmic Ca2+ by ADP; (10) normal binding of 14C-ADP to fresh platelets, but defective binding of [2-3H]-ADP to formalin-fixed platelets. This congenital platelet function defect is characterized by selective impairment of platelet responses to ADP, caused by either decreased number of platelet ADP receptors or abnormalities of the signal-transduction pathway of platelet activation by ADP.
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PMID:Identification of a new congenital defect of platelet function characterized by severe impairment of platelet responses to adenosine diphosphate. 133 2

In this paper we show that the non-peptide anti-parasite agent pentamidine is a broad spectrum anti-platelet agent with an IC50 of 1.1 microM in ADP-induced platelet aggregation in human platelet rich plasma (PRP). It had similar activity when collagen, arachidonic acid, platelet activating factor, thrombin and epinephrine were used. It had no effect on platelet intracellular cAMP levels. It inhibited 125I-fibrinogen, 125I-fibronectin and 125I-von Willebrand factor binding to ADP-activated fixed platelets with IC50 values of 160, 160 and 60 nM respectively. Pentamidine showed a high degree of species selectivity with slightly less activity in monkey and dog PRP and little activity in guinea pig, rabbit, rat and mouse PRP compared with human. This was similar to the other RGD analogues tested. This species specificity was shown to be dependent on the species of platelets and independent of the species of fibrinogen. Thus, pentamidine is a potent non-peptide inhibitor of fibrinogen binding to GPIIb/IIIa.
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PMID:Pentamidine: a non-peptide GPIIb/IIIa antagonist--in vitro studies on platelets from humans and other species. 133 31

We have characterized a murine IgG monoclonal antibody, OP-G2, specific for platelet glycoprotein (GP) IIb-IIIa (alpha IIb beta 3). OP-G2 Fab fragments inhibit fibrinogen-mediated platelet aggregation and competitively inhibit adenosine diphosphate-induced binding of 125I-fibrinogen to washed platelets. OP-G2 binding to GPIIb-IIIa is specifically inhibited by RGD-containing peptides but not the fibrinogen gamma-chain carboxy-terminal peptide, and OP-G2 Fab fragments, like RGD-containing peptides, alter the conformation of GPIIb-IIIa resulting in the expression of a ligand-induced binding site (LIBS) recognized by PMI-1. OP-G2 fails to bind to the recombinant Cam variant of GPIIb-IIIa (alpha III beta 3Cam) wherein an Asp119 to Tyr119 substitution in GPIIIa abrogates the ability to recognize RGD. These data indicate that OP-G2 recognizes an epitope at or in very close proximity to the RGD recognition site of GPIIb-IIIa and that, in every aspect tested, OP-G2 behaves like a macromolecular RGD ligand. Interestingly, two-color flow cytometry shows that OP-G2 IgG can bind to nonactivated platelets. Quantitative binding assays indicate that nonactivated platelets bind approximately 50,000 125I-OP-G2 molecules/platelet. Furthermore, the affinity of OP-G2 for platelets activated with thrombin is roughly fivefold higher (nonactivated, kd = 24.8 nmol/L; activated, kd = 4.9 nmol/L). These results suggest that the RGD recognition site of GPIIb-IIIa is available to macromolecules that contain RGD even on nonactivated platelets, provided that the affinity of the ligand is adequate.
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PMID:The Arg-Gly-Asp (RGD) recognition site of platelet glycoprotein IIb-IIIa on nonactivated platelets is accessible to high-affinity macromolecules. 137 72

Binding of different antibodies to the GPIIb-IIIa complex in resting (AP2, EDU3, C17) or activated platelets (PAC1) was studied by flow cytometry in a patient with a platelet defect involving GPIIb-IIIa related functions. The patient has a mild history of bleeding. Aggregation induced by ADP and collagen were absent but normal response was obtained with ristocetin. Platelets from the patient do not bind fibrinogen. Perfusion studies with flowing blood showed that patient's platelets have a marked impairment in the process of spreading and aggregate formation on vascular subendothelium. Electrophoretic studies in SDS-polyacrylamide gels demonstrated the presence of normal amounts and normal mobility of GPIIb-IIIa. Fibrinogen was present in the patient's platelets (68-74% of controls). The binding of AP2 and EDU3 to patient's resting platelets was normal as assessed by flow cytometry. In contrast, a decreased presence of the C17 antigen (10 fold lower than control platelets) was detected in resting platelets and a markedly reduced binding of PAC1 was found in thrombin activated platelets. These studies suggest that C17 recognizes an epitope of the GPIIb-IIIa in resting platelets that is implicated in the regulation of adhesive and cohesive properties of GPIIb-IIIa. Studies on this patient might be helpful for the understanding of GPIIb-IIIa functions.
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PMID:A variant of Glanzmann's thrombasthenia which fails to express a GPIIb-IIIa related epitope that is recognized by a specific monoclonal antibody (C17). 138 48

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