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)

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

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

The monoclonal antibody, OKM5, recognizes an 88-Kd monocyte membrane protein and also binds to the platelet membrane protein, GPIV (GPIIIb, CD36). In this study, we have found that the OKM5 target epitope is present at approximately 12,000 copies per platelet and that interaction with the antibody has both stimulatory and inhibitory effects on platelet function. In the absence of other stimuli, OKM5 induced platelet aggregation, secretion, and expression of fibrinogen receptors. These stimulatory responses required intact antibody as F(ab')2 fragments were not active but blocked the stimulatory activity of the intact antibody. In contrast, exposure of platelets to OKM5 followed by another strong stimulus such as thrombin resulted in a marked suppression of fibrinogen, fibronectin, and von Willebrand factor binding to the cells. This effect was not noted when a weak stimulus, adenosine diphosphate, was the second agonist. At OKM5 concentrations that interfered with fibrinogen binding to thrombin-stimulated platelets by 80% to 90%, platelet binding of exogenous thrombospondin, or surface expression of endogenous thrombospondin was not affected. The inhibitory effect of OKM5 on fibrinogen binding to thrombin-stimulated platelets was related to the formation of massive platelet aggregates in the samples. These results show that interaction of OKM5 with its target antigen on platelets can elicit diverse functional responses from the cells.
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PMID:Effects of OKM5, a monoclonal antibody to glycoprotein IV, on platelet aggregation and thrombospondin surface expression. 171 17

In washed platelet systems, thrombin has been demonstrated to downregulate the platelet surface expression of glycoprotein (GP) Ib and GPIX. In the present study, we addressed the question as to whether, in the more physiologic milieu of whole blood, downregulation of platelet surface GPIb and GPIX can be induced by thrombin, adenosine diphosphate (ADP), and/or by an in vivo wound. Thrombin-induced downregulation of GPIb and GPIX on the surface of individual platelets in whole blood was demonstrated by the use of flow cytometry, a panel of monoclonal antibodies (MoAbs) and, to inhibit fibrin polymerization, the peptide glycyl-L-prolyl-L-arginyl-L-proline. Platelets were identified in whole blood by a GPIV-specific MoAb and exclusion of monocytes by light scattering properties. Flow cytometric analysis of whole blood emerging from a standardized bleeding-time wound established that downregulation of platelet surface GPIb and GPIX can occur in vivo. A GPIb-IX complex-specific antibody indicated that the GPIb and GPIX remaining on the surface of platelets activated in vivo or in vitro were fully complexed. Simultaneous analysis of individual platelets by two fluorophores demonstrated that thrombin-induced platelet surface exposure of GMP-140 (degranulation) was nearly complete at the time that downregulation of platelet surface GPIb-IX was initiated. However, degranulation was not a prerequisite because ADP downregulated platelet surface GPIb-IX without exposing GMP-140 on the platelet surface. Inhibitory effects of cytochalasins demonstrated that the activation-induced downregulation of both GPIX and GPIb are dependent on actin polymerization. In summary, downregulation of the platelet surface GPIb-IX complex occurs in whole blood stimulated by thrombin, ADP, or an in vivo wound, and is independent of alpha granule secretion.
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PMID:Downregulation of the platelet surface glycoprotein Ib-IX complex in whole blood stimulated by thrombin, adenosine diphosphate, or an in vivo wound. 844 98

Activation of platelets with thrombin and other agonists causes a rapid increase in the phosphorylation of multiple proteins on tyrosine. To identify candidate protein-tyrosine kinases (PTKs; EC 2.7.1.112) that may be responsible for these phosphorylation events, we analyzed the expression of seven Src-family PTKs and examined the association of these kinases with known platelet membrane glycoproteins. Five Src-related PTKs were detected in platelets: pp60SRC, pp60FYN, pp62YES, pp61HCK, and two LYN products of Mr 54,000 and 58,000. The Fgr and Lck PTKs were not detected. Although strict comparative quantification of protein levels was not possible, pp60SRC was detected at higher levels than any of the other kinases. In addition, glycoprotein IV (GPIV, CD36), one of the major platelet membrane glycoproteins, was associated in a complex with the Fyn, Yes, and Lyn proteins in platelet lysates. Similar complexes were also found in two GPIV-expressing cell lines, C32 melanoma cells and HEL cells. Since PTKs appear to be involved in stimulus-response coupling at the plasma membrane, these results suggest that ligand interaction with GPIV may activate signaling pathways that are triggered by tyrosine phosphorylation.
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PMID:Membrane glycoprotein IV (CD36) is physically associated with the Fyn, Lyn, and Yes protein-tyrosine kinases in human platelets. 171 82

A microtitre adhesion assay has been developed to define parameters affecting the adherence of washed platelets to laminin. Adherence was optimally supported by Mg2+ and was inhibited by Ca2+ and by anti-laminin Fab fragments, but significant adhesion (75-90% of control) was found both in heparinized plasma containing physiological levels of bivalent cations and in plasma anti-coagulated with EGTA. Adherence was unaffected by platelet activation with ADP but was decreased by 50% by treatment with alpha-thrombin (1 unit/ml, 5 min). Adherence was unaffected by monospecific polyclonal antibodies to glycoprotein (GP) Ib and GPIV, and was normal with platelets from two patients with Glanzmann's thrombasthaenia, indicating that GPIb, the GPIIb/IIIa complex and GPIV are not involved in platelet-laminin interaction. Affinity chromatography of Triton-solubilized membranes on laminin-Sepharose followed by elution with 0.2 M-glycine/HCl (pH 2.85) identified a major band with a molecular mass of 67 kDa in the reduced and of 53 kDa in the unreduced form. This protein gave a positive reaction on Western blotting with a monospecific polyclonal antibody raised against the high-affinity laminin receptor isolated from human breast carcinoma tissue. The adhesion of platelets to laminin was inhibited by two monoclonal IgM antibodies specific to the LR-1 domain of the 67 kDa receptor. The binding protein was surface-oriented, as shown by flow cytofluorimetry and by the fact that it could be iodinated in intact platelets, but it was not labelled by the periodate-borotritide procedure, suggesting that it did not contain terminal sialic acid. The laminin-derived peptides Tyr-Ile-Gly-Ser-Arg and Cys-Asp-Pro-Gly-Tyr-Ile-Gly-Ser-Arg-NH2, which constitute a complementary binding domain in laminin for the 67 kDa receptor, themselves supported platelet adhesion, bound to the receptor and inhibited the adhesion of platelets to laminin. In addition, Fab fragments of anti-Tyr-Ile-Gly-Ser-Arg antibody inhibited platelet adhesion to laminin. These results demonstrate that the high-affinity 67 kDa laminin receptor previously identified in a range of normal and transformed cells and its complementary Tyr-Ile-Gly-Ser-Arg binding domain play an important role in the interaction of platelets with laminin.
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PMID:Interaction of human platelets with laminin and identification of the 67 kDa laminin receptor on platelets. 182 81

A rat monoclonal IgG2a antibody, 5G11, was raised against native human platelet thrombospondin (TSP). Western blot analysis revealed that 5G11 bound (i) to TSP before and after disulfide reduction, and (ii) to a 15-kDa fragment released after prolonged trypsin digestion. Crossed immunoelectrophoresis confirmed that the binding epitope was expressed in the presence of Ca2+ and after treatment of TSP with EDTA. Since 5G11 had no effect on platelet aggregation, the antibody was used to immunoprecipitate Ca2+-dependent and Ca2+-independent TSP-binding molecules on the surface of thrombin-activated surface-labeled 125I-platelets. The experimental basis was that ligand-receptor interactions are of high affinity and that anti-ligand antibodies should precipitate the ligand-receptor complex. With platelets activated in the presence of EDTA, 5G11 predominantly precipitated a 125I-labeled band of Mr 88,000, identified as glycoprotein (GP) IV. In contrast, in the presence of 2 mM Ca2+ and 1 mM Mg2+, 5G11 precipitated a complex of five radiolabeled proteins, among which GPIIb, GPIIIa and GPIV were the most prominent.
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PMID:Identification of platelet membrane thrombospondin binding molecules using an anti-thrombospondin antibody. 246 42

The Naka isoantigen is expressed on glycoprotein (GP) IV (CD36), a platelet membrane GP that has been identified as having a role in platelet interactions with collagen and thrombospondin and in binding Plasmodium falciparum-infected erythrocytes to endothelial cells and melanoma cells. We have studied normal platelets and Naka- platelets from two Japanese donors that have 1% of GPIV by concentration-dependent antibody binding and flow cytometry. We studied the adherence of normal and Naka- platelets to types I, III, and IV collagen in static and to type I collagen in flowing systems at high shear force. We have also studied aggregation of normal and Naka- platelets to type I collagen. Naka- platelets showed normal or increased aggregation to type I collagen and normal adhesion to types I, III, and IV collagen in the presence of Mg++ or EDTA. Platelet aggregation and adhesion were inhibited by the anti-alpha 2 beta 1 antibody 176D7 to the same extent in Naka- as in normal platelets. We also studied endogenous thrombospondin surface expression and found that thrombin-stimulated Naka- platelets expressed the same amount of thrombospondin as did normal platelets. From our studies with Naka- platelets, we cannot identify a definitive role for GPIV in platelet aggregation, in adhesion to types I, III, and IV collagen, or in endogenous thrombospondin binding to platelets.
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PMID:Platelet adhesion to collagen in individuals lacking glycoprotein IV. 751 49

To investigate the possibility that thrombin and/or other platelet activators change the platelet surface expression of glycoprotein IV (GPIV, CD36), we used a panel of five GPIV-specific monoclonal antibodies (OKM5, 5F1, FA6-152, 8A6, and F13) directed against different epitopes. All these antibodies bound to resting platelets in a concentration-dependent and saturable manner, as determined by flow cytometry of washed platelets. Thrombin (1 U/mL) induced an approximately twofold increase in the platelet surface binding of each of these monoclonal antibodies. Immunofluorescence microscopy demonstrated an internal pool of GPIV that, after thrombin stimulation, redistributed to the platelet surface. In a whole-blood flow-cytometric assay, alpha-thrombin and the thromboxane A2 analogue U46619 each resulted in an approximately twofold increase in the platelet surface binding of OKM5, whereas ADP had a more modest effect, and collagen and epinephrine had little effect. The activation-induced up-regulation of the platelet OKM5 epitope occurred in vivo as demonstrated by flow cytometric analysis of whole blood emerging from a standardized skin puncture site. In summary, both in vitro and in vivo platelet activation results in increased platelet surface expression of GPIV, as a result of a redistribution of GPIV from an internal pool.
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PMID:Platelet activation results in a redistribution of glycoprotein IV (CD36). 751 84

Platelet activation and aggregation induced by agonists such as thrombin are accompanied by the phosphorylation of several proteins on tyrosine. Such tyrosine phosphorylation is dependent upon activation and ligand engagement of the major integrin receptor on the surface of platelets, glycoprotein (GP) IIb-IIIa (alpha IIb beta 3), but how this is accomplished is not known. The only platelet membrane GP known to associated with non receptor tyrosine kinases is CD36 (GPIV) which forms associations with pp60Fyn, pp62Yes, and pp54/58Lyn, and antibodies directed against CD36 activate platelets in a process dependent upon GPIIb-IIIa. These and other data suggest a physical association between the two membrane GPs, IIb-IIIa and CD36. By the use of immunoprecipitation of lysates of platelets that have been surface labeled and chemically crosslinked we show here that CD36 and GPIIb-IIIa are spatially associated on the surface of resting platelets.
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PMID:CD36 is spatially associated with glycoprotein IIb-IIIa (alpha IIb beta 3) on the surface of resting platelets. 856 98

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