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)

A high molecular weight glycoprotein consisting of three disulfide-linked 142,000 molecular weight chains has been isolated from human blood platelets. The glycoprotein, designated thrombospondin, is released by platelets in response to thrombin treatment and is proteolyzed when left in the presence of platelets after liberation. It is relatively insensitive to degradation by thrombin. Thrombospondin is a filamentous protein of dimensions approximately 7 X 70 nm and contains 1.9% neutral sugars, 1.4% amino sugars, 0.7% sialic acid, and no hexuronic acid. Amino acid analysis reveals that the level of cysteine is approximately 260 residues per molecule. Thrombospondin binds to immobilized heparin but is released by 0.45 M sodium chloride. A single band is obtained by isoelectric focusing, indicating a pI of 4.7 as well as a relatively high degree of purity. Degradation of the intact molecule with trypsin yields a stable core particle of molecular weight 210,000 comprised of three 70,000 chains.
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PMID:Isolation and characterization of a high molecular weight glycoprotein from human blood platelets. 10 49

In an attempt to obtain a biological marker for the enigmatic and fatal neurologic disorder, amyotrophic lateral sclerosis (ALS), several laboratories have explored alterations in various extracellular matrix components in both skeletal muscle and skin. We have studied the distribution of fibronectin, laminin, heparan sulfate proteoglycan (HSPG) and collagen types I, III and IV, along with the platelet alpha-granule glycoprotein, thrombospondin (TSP), by immunofluorescence in frozen sections of muscle from control denervating conditions and ALS patients. In ALS and control muscle, types I and III collagen were localized to the endomysium and the perimysium. Type IV collagen and laminin precisely delineated each muscle fiber (endomysium or basement membrane) but did not stain the perimysium. We found no marked quantitative or qualitative differences in the distribution of collagen types I, III and IV, laminin, fibronectin or HSPG in ALS patients compared to controls. However, when polyclonal antisera for TSP was used we found a marked increase in the deposition of this multi-domain glycoprotein in ALS patients' muscle compared to control muscle. Quantitative analysis of soluble extracts from control and ALS patients' muscle by ELISA also indicated that TSP was increased in ALS. TSP is released from platelet alpha-granules in response to thrombin stimulation. TSP elevation implies coagulation activity via the extravascular thrombolytic system in ALS and may correlate with regeneration. Other studies have indicated decreased circulating protease inhibitors and increased serine proteases in this disorder.
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PMID:Thrombospondin, a platelet alpha-granule and matrix glycoprotein, is increased in muscle basement membrane of patients with amyotrophic lateral sclerosis. 128 72

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

Recently, we described a platelet antibody against a putative collagen receptor (P62), which was found in a patient with idiopathic thrombocytopenic purpura (ITP) (Blood 69:1712). We now report a deficiency of the P62 receptor in a young man whose platelets showed defective collagen-induced platelet aggregation. He had a mild bleeding tendency and slight thrombocytopenia. The results of coagulation and fibrinolysis studies were normal. The patient's platelets were partially unresponsive to collagen, although aggregation in response to ADP, thrombin, ristocetin, and calcium ionophore (A23187) was almost normal. Adhesion of his platelets to bovine collagen was markedly reduced. Addition of collagen caused no synthesis of thromboxane (TX)B2 in platelet rich plasma (PRP) from this patient. Furthermore, collagen produced no rise of cytosolic free calcium ([Ca2+]i) in fura2-loaded platelets. In contrast, thrombin caused TXB2 formation and an increase of [Ca2+]i in his platelets. These results suggest defective interaction between the platelets and collagen. The IgG from the ITP-patient induced irreversible aggregation in normal PRP, but caused no aggregation of the young man's platelets. Immunoblot studies showed that normal platelets had antigens with a molecular weight of 62 KDa under reducing conditions and of 57 KDa under nonreducing conditions. In contrast, the young man's platelets had no P62 band, although GPIa/IIa and thrombospondin were normally present. These results indicate that impaired collagen-induced aggregation in the patient's platelets was due to a deficiency of P62 and confirm that P62 may play a crucial role as a collagen receptor in platelet activation.
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PMID:Deficiency of P62, a putative collagen receptor, in platelets from a patient with defective collagen-induced platelet aggregation. 131 Nov 44

Since glycoprotein IV (GPIV) has been shown to play an important role in the interaction of platelets with collagen and thrombospondin, the aggregation and secretion of GPIV-deficient platelets were examined. Using a binding assay with monoclonal 125I-OKM5 antibody against CD36 antigen and crossed immunoelectrophoresis of the solubilized platelets against anti-GPIV antibody, the platelets from seven (4.1%) out of 170 healthy Japanese donors were found to be deficient in GPIV. The GPIV-deficient platelets showed normal aggregations in response to collagen as well as ADP, epinephrine, arachidonic acid and thrombin in comparison with GPIV-positive platelets. Polyclonal anti-GPIV antibody aggregated GPIV-positive platelets but not the GPIV-negative ones. The F(ab')2 fragments of the anti-GPIV antibody competitively inhibited the anti-GPIV-induced aggregation, but did not affect the collagen-induced aggregation of GPIV-positive platelets. These results suggest that the deficiency of GPIV does not affect platelet aggregability.
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PMID:Normal aggregations of glycoprotein IV (CD36)-deficient platelets from seven healthy Japanese donors. 138 10

Activated platelets release proteins that form stable complexes with thrombin (J. J. Miller, P. C. Browne, and T. C. Detwiler, Biochem. Biophys. Res. Commun. 151, 9-15, 1988). A working model for the reaction (P. C. Browne, J. J. Miller, and T. C. Detwiler, Arch. Biochem. Biophys. 265, 534-538, 1988) includes a dissociable complex of thrombin with released platelet protease nexin, leading to formation of a nondissociable thrombin-nexin complex that then becomes disulfide linked to thrombospondin. This disulfide-linked complex is converted back to the thrombin-nexin complex by reduction of disulfide bonds. Results that allow elaboration on this model are presented. After longer periods of incubation or after incubation with higher concentrations of thrombin, the amount of thrombin complexed with thrombospondin exceeded the amount of thrombin-nexin complex recovered after reduction of disulfide bonds. When the reaction mixture included inhibitors of formation of the thrombin-nexin complex, a slow formation of the thrombin-thrombospondin complex was observed. It was concluded that there is a nexin-independent as well as the faster nexin-dependent disulfide linkage of thrombin to thrombospondin. Addition of thrombin-antithrombin III complexes to the supernatant solution of activated platelets also led to complexes with thrombospondin, demonstrating that serpins other than platelet protease nexin facilitate incorporation of thrombin into complexes with thrombospondin. By heparin affinity chromatography, it was shown that thrombin-nexin complexes dissociably associate with thrombospondin prior to formation of disulfide-linked complexes. These observations are incorporated into a more detailed model of the reaction.
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PMID:Reactions of thrombin-serpin complexes with thrombospondin. 144 41

Heparin in combination with endothelial cell growth factor (ECGF) affects physiological responses and growth of human umbilical vein endothelial cells (HUVEC). We have examined the effect of heparin, crude ECGF (endothelial cell growth supplement [ECGS]), or both on the basal and thrombin challenged output of metabolites by HUVEC. The supernatant and/or cell lysate was assayed for released prostacyclin, von Willebrand factor, tissue plasminogen activator, plasminogen activator inhibitor and thrombospondin. Heparin modified release of all these metabolites when in combination with ECGS, and in general these responses were the opposite of those generated by inflammatory mediators such as interleukin-1. It has been postulated that heparin acts by potentiating the effect of ECGF, but heparin inhibited thrombospondin release and enhanced that of von Willebrand factor in the absence of ECGS, while ECGS alone inhibited release of plasminogen activator inhibitor. Thus, under our experimental conditions it would appear that heparin and crude ECGF can affect HUVEC independently of one another.
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PMID:Effects of heparin and endothelial cell growth supplement on haemostatic functions of vascular endothelium. 150 15

Platelets undergo biochemical and morphologic changes when stimulated that greatly alter their function and contribute to their role in thrombosis and hemostasis. We recently identified and cloned the cDNA for a platelet surface glycoprotein expressed on activated, not resting cells. We found that this protein, lysome-associated membrane protein-1 (LAMP-1), is an integral membrane protein of the lysosome that translocated to the surface membrane when platelets were stimulated by a strong agonist. We now show with immunofluorescence flow cytometry that LAMP-2, a lysosomal membrane protein that shares approximately 30% homology with LAMP-1, is also expressed preferentially on the surface of activated platelets. Equilibrium binding studies with 125I-anti-LAMP-2 IgG showed approximately 1,100 binding sites per thrombin-stimulated platelet and less than 50 per resting platelet. Sucrose gradient ultracentrifugation fractionation of resting platelet sonicates showed that LAMP-2 colocalized with LAMP-1 and with lysosomal enzymes, and not with thrombospondin or serotonin, which are markers of the two other platelet granule compartments, alpha-granules and dense granules. LAMP-2 surface expression was minimal in response to platelet stimulation by weak agonists such as epinephrine and ADP. These data show that LAMP-2, like LAMP-1, translocates from the lysosomal membrane compartment to the surface membrane when platelets are activated. Regulated surface expression of these heavily glycosylated proteins may play a role in the adhesive, prothrombotic phenotype of these cells.
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PMID:Identification of lysosome-associated membrane protein-2 as an activation-dependent platelet surface glycoprotein. 152 Aug 73

Thrombospondin is a multifunctional glycoprotein of platelet alpha-granules and a variety of growing cells. We demonstrate that thrombospondin is a slow tight-binding inhibitor of plasmin as determined by loss of amidolytic activity, loss of ability to cleave fibrinogen, and decreased lysis zones in fibrin plate assays. Stoichiometric titrations indicate that approximately 1 mol of plasmin interacts with 1 mol of thrombospondin, an unexpected result considering the trimeric nature of thrombospondin. Plasmin in a complex with streptokinase or bound to epsilon-aminocaproic acid is protected from inhibition by thrombospondin, thereby implicating the lysine-binding kringle domains of plasmin in the inhibition process. Thrombospondin also inhibits urokinase plasminogen activator, but more slowly than plasmin, stimulates the amidolytic activity of tissue plasminogen activator, and has no effect on the amidolytic activity of alpha-thrombin or factor Xa. These results, therefore, identify thrombospondin as a new type of serine proteinase inhibitor and potentially important regulator of fibrinolysis.
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PMID:Thrombospondin is a slow tight-binding inhibitor of plasmin. 153 Oct 22

We have investigated the molecular requirements for thrombospondin (TSP) to bind to the platelet surface and to support the subsequent secretion-dependent platelet aggregation. For this, we used two distinct murine monoclonal antibodies (MoAbs), designated MAI and MAII, raised against human platelet TSP, and three polyclonal antibodies, designated R3, R6, and R5, directed against fusion proteins containing the type 1 (Gly 385-Ile 522), type 2 (Pro 559-Ile 669), and type 3 (Asp 784-Val 932) repeating sequences, respectively. Among them, R5 and R6, but not R3, inhibited thrombin-induced aggregation of washed platelets and the concomitant secretion of serotonin. These antibodies, however, did not inhibit the expression of TSP on thrombin-activated platelets, as measured by the binding of a radiolabeled MoAb to TSP, suggesting that they may inhibit platelet aggregation by interfering with a physiologic event subsequent to TSP binding. In contrast, MoAb MAII, which reacts with an epitope located within the heparin-binding domain of TSP, inhibited both TSP surface expression and platelet aggregation/secretion induced by thrombin. In addition, this MoAb inhibited in a dose-dependent manner (IC50 approximately 0.5 mumol/L) the interaction of 125I-TSP with immobilized fibrinogen and platelet glycoprotein IV, both potential physiologic receptors for TSP on thrombin-activated platelets. These results indicate that the interaction of TSP with the surface of activated platelets can be modulated at the level of a specific epitope located within the amino terminal heparin-binding domain of the molecule. Thus, selective inhibition of the platelet/TSP interaction may represent an alternative approach to the inhibition of platelet aggregation.
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PMID:Molecular requirements for the interaction of thrombospondin with thrombin-activated human platelets: modulation of platelet aggregation. 156 25

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