Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

To define better the role of the fibrinogen receptor in platelet physiology and to characterize it biochemically, a murine monoclonal antibody that completely blocks the binding of fibrinogen to the platelet surface was produced by the hybridoma technique with the aid of a functional screening assay. Purified F(ab')2 fragments and/or intact antibody completely blocked aggregation induced by ADP, thrombin, or epinephrine and the binding of radiolabeled fibrinogen to platelets induced by ADP. The antibody did not block agglutination of formaldehyde-fixed platelets by ristocetin or shape change induced by either ADP or thrombin. ADP- and epinephrine-induced release of ATP was completely inhibited by the antibody, but inhibition of release induced by collagen and thrombin was dose dependent and partial. The antibody also dramatically inhibited platelet retention in glass-bead columns, platelet adhesion to glass, and clot retraction. Thus, the antibody induced a thrombasthenic-like state. Immunofluorescent studies confirmed the specificity of the antibody for normal platelets and megakaryocytes and suggested that there is a marked decrease in detectable antigen in thrombasthenic platelets. Radiolabeled antibody bound to an average of approximately 40,000 sites on normal platelets but it bound to less than 2,000 sites on the platelets of a patient with thrombasthenia. The antibody immunoprecipitated both glycoproteins IIb and IIIa, and both glycoproteins bound to an affinity column of the antibody. These studies indicate that there is probably a single anatomic site that is crucial to the binding of all fibrinogen molecules and that this site is most likely on the glycoprotein IIb/IIIa complex. It also suggests that the thrombasthenic phenotype can be completely accounted for on the basis of the inhibition of fibrinogen binding to platelets.
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PMID:A murine monoclonal antibody that completely blocks the binding of fibrinogen to platelets produces a thrombasthenic-like state in normal platelets and binds to glycoproteins IIb and/or IIIa. 630 50

The mechanisms involved in platelet deaggregation are unclear. Washed platelets from rabbits or humans aggregated by ADP can be deaggregated by EDTA or PGI2 if the release reaction has not occurred; during deaggregation 125I-fibrinogen dissociates from the platelets. Human platelets suspended in a medium without calcium undergo the release reaction during ADP-induced aggregation; EDTA, PGE1 or PGI2 do not deaggregate these platelets although EDTA displaces much of the 125I-fibrinogen that associates with them during aggregation. Rabbit platelets aggregated by low concentrations of release-inducing stimuli (sodium arachidonate, collagen or thrombin) can be deaggregated by EDTA, PGI2 or PGE1 and 125I-fibrinogen dissociates from them; with high concentrations of collagen or thrombin, deaggregation and dissociation of 125I-fibrinogen is slower. Human platelets that have undergone the release reaction in response to thrombin, collagen or a combination of sodium arachidonate and ADP are not readily deaggregated by EDTA or PGE1. Since aggregation and fibrinogen binding involving the glycoprotein IIb/IIIa complex are readily reversed by EDTA, and since Ca2+ is required for thrombospondin binding to activated platelets, there may be a third type of platelet-platelet adherence that is not disrupted by EDTA; this type of binding plays a greater role with human than with rabbit platelets.
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PMID:Factors influencing the deaggregation of human and rabbit platelets. 630 46

Activation of washed platelets in the presence of EDTA with either 1 U/ml of alpha-thrombin or 2 microM calcium ionophore (A23187) caused the release of one-third to one-half of the platelet factor VIII/von Willebrand factor (FVIII/vWF) into the supernatant. When calcium was present in excess, only 10% of the platelet FVIII/vWF was detected free in the supernatant, regardless of whether calcium was present before stimulation or added to the platelets after thrombin activation. Release of [14C]serotonin and beta-thromboglobulin were not affected by divalent cations indicating that reduced supernatant levels of FVIII/vWF in the presence of calcium were not due to differential release, but were probably due to a calcium-dependent association of released FVIII/vWF with the platelet surface. The presence or absence of intact glycoprotein Ib on the platelet surface made no significant difference to the observed FVIII/vWF partition. Platelets from a patient with Glanzmann's thrombasthenia, however, failed to show a calcium effect with respect to released FVIII/vWF. The combined results suggest that as well as the ristocetin-dependent, divalent cation-independent binding of FVIII/vWF to glycoprotein Ib, there is a divalent cation-dependent binding of FVIII/vWF to the activated platelet surface which is mediated via the glycoprotein IIb/IIIa complex.
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PMID:Characterization of calcium-dependent binding of endogenous factor VIII/von Willebrand factor to surface activated platelets. 643 80

The topographic relationships of platelet membrane glycoprotein IIb and glycoprotein IIIa have been studied in stimulated and unstimulated human platelets using immunoelectron microscopy. An indirect approach with ferritin-conjugated goat anti-rabbit gamma-globulin was used to localize the rabbit antibody to glycoprotein IIIa. The second ultrastructural label was keyhole limpet hemocyanin conjugated directly to antibody to glycoprotein IIb. Using the double labels, it was demonstrated that glycoprotein IIb and glycoprotein IIIa were distributed randomly in the unstimulated platelet membrane. After platelet stimulation with thrombin, large clusters of glycoprotein IIb-glycoprotein IIIa complexes were formed. No complex formation between glycoprotein Ib and glycoprotein IIb was observed in control experiments. These observations suggest that thrombin stimulation initiates the specific glycoprotein IIb-glycoprotein IIIa macromolecular complex formation on the platelet surface, which may act as the active fibrinogen-binding site required for normal platelet aggregation.
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PMID:Thrombin-induced platelet membrane glycoprotein IIb and IIIa complex formation. An electron microscope study. 645 76

Two recently developed membrane-impermeant cross-linkers, 3,3'-dithiobis(sulfosuccinimidyl propionate) (DTSSP) and bis(sulfosuccinimidyl) suberate (BS3), have been used to examine the interaction of human platelets with collagen. Reaction of human platelets with either of the two cross-linking reagents at micromolar concentrations completely inhibited platelet aggregation in response to collagen but not in response to thrombin. Platelet adhesion to collagen was, however, not affected by these reagents. Inhibition of collagen-induced platelet aggregation by DTSSP or BS3 appears to be due to cross-linking and not simply to the chemical modification of membrane proteins, since the homologous monofunctional reagent sulfosuccinimidyl propionate had no effect on platelet aggregation. Inhibition of platelet aggregation by BS3 was accompanied by a decrease in the intensity of glycoprotein bands IIb, IIIa, and IV when analyzed on sodium dodecyl sulfate (NaDodSO4)-polyacrylamide gels. In order to determine if collagen is directly interacting with a specific platelet membrane glycoprotein, 3H-labeled platelets were allowed to adhere to collagen and then cross-linked with various concentrations of DTSSP. Proteins which remain associated with collagen after lysis and washing were analyzed on NaDodSO4 gels. At concentrations of 16-50 microM DTSSP, glycoproteins IIb and IIIa appeared to be specifically cross-linked to collagen. These results suggest that the glycoprotein IIb-IIIa complex, which has previously been implicated as the fibrinogen receptor in activated platelets, may also be directly involved in collagen-induced platelet aggregation.
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PMID:Interaction of specific platelet membrane proteins with collagen: evidence from chemical cross-linking. 646 33

We recently described a monoclonal antibody, 10E5 , that completely blocks adenosine diphosphate (ADP) induced fibrinogen binding to platelets and aggregation induced by ADP, epinephrine, and thrombin. Multiple lines of evidence indicate that 10E5 binds to platelet membrane glycoproteins IIb and/or IIIa. Because it has been reported that platelets treated with chymotrypsin aggregate when fibrinogen is added, we tested the effect of 10E5 antibody on chymotrypsin-induced fibrinogen binding and platelet aggregation. Aspirin-treated human platelets were washed in modified Tyrode's buffer (pH 7.5), incubated for 5 minutes at 22 degrees C with 300 micrograms/mL chymotrypsin, and washed again. The amount of 10E5 antibody bound to these platelets (37,232 +/- 2,928 molecules/platelet; mean +/- SEM, N=9) was similar to that bound to unstimulated control platelets (36,910 +/- 2,669) and did not differ significantly from the amount of antibody bound to ADP-treated platelets (P less than .01, N = 5). The amount of 10E5 bound to chymotrypsin-treated platelets correlated directly with the amount of fibrinogen bound to separate aliquots of the same platelet samples (r = .876, P less than .001). The 10E5 antibody caused virtually complete inhibition of both the binding of fibrinogen to chymotrypsin-treated platelets and the aggregation induced by exogenous fibrinogen. Immunoprecipitation studies of 125I-labeled chymotrypsin-treated platelets revealed that the 10E5 antibody bound proteins with molecular weights characteristic of glycoproteins IIb and IIIa. These data suggest that the fibrinogen receptor on chymotrypsin-treated platelets is identical to that on ADP-treated platelets and that this receptor is either near to, or on, the glycoprotein IIb/IIIa complex.
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PMID:A murine monoclonal antibody that blocks fibrinogen binding to normal platelets also inhibits fibrinogen interactions with chymotrypsin-treated platelets. 673 83

Rearrangements of membrane glycoproteins are believed to occur during platelet activation, but these changes have not been well defined. We have developed a monoclonal antibody, named S12, which demonstrates dramatically enhanced binding to platelets after thrombin activation. Unstimulated gel-filtered platelets from 12 normal individuals bound only 800 +/- 470 (S.D.) 125I-S12 molecules/cell, while platelets stimulated with 0.5 unit/ml of thrombin bound 9,600 +/- 2,600 molecules/cell (KD = 1.5 nM). Increasing thrombin concentrations produced similar increases in platelet 125I-S12 binding and [14C]serotonin secretion. S12 binding was not dependent on divalent cations. ADP and epinephrine, which caused no [14C]serotonin secretion, had little or no effect on S12 binding. We isolated the S12 binding protein by affinity chromatography of Lubrol PX-solubilized human platelet membranes on S12-agarose. When analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the isolated protein stains with both periodic acid-Schiff and Coomassie Blue and has an apparent molecular weight of 138,000 (unreduced) and 148,000 (reduced). After radioiodination of intact platelets the protein was also labeled, with apparently equal intensity in both control and thrombin-stimulated cells. The protein's staining, radiolabeling properties, and mobility on sodium dodecyl sulfate gels relative to glycoprotein IIb-IIIa fit previously defined criteria for membrane glycoprotein IIa. Our studies provide further evidence for alterations in membrane glycoproteins after platelet stimulation and suggest that S12 may serve as a useful probe of in vivo platelet activation.
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PMID:A monoclonal antibody to a membrane glycoprotein binds only to activated platelets. 674 67

Crossed immunoelectrophoresis of platelets against antiplatelet antibodies has proved to be a valuable tool in the study of platelet proteins (1-8). The advantage of this separation system is that the proteins are separated under nondenaturating conditions and thus to some extent would be expected to maintain their functional properties. Previously, the binding of several proteins to immobilized thrombin (5) and immobilized heparin (9) during crossed immunoelectrophoresis of platelet proteins solubilized in a Triton X-loo-containing buffer has been described. Furthermore, it has been demonstrated that fibrinogen is able to bind to immunoprecipitates containing the glycoprotein IIb-IIIa-complex (7). These studies indicate that the proteins contained in the immunoprecipitates represent biologically active entities. In the present study we provide direct evidence for this by demonstrating enzymatic activity associated with the immunoprecipitate containing Factor XIII in immunoplates obtained after crossed immunoelectrophoresis of solubilized platelets against anti-platelet antibodies.
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PMID:Platelet factor XIII is an active enzyme after solubilization and crossed immunoelectrophoresis. 684 78

The release of secretory phospholipase A2 (sPLA2) into the mammalian circulation may contribute to the development of hemorrhagic and inflammatory diseases. sPLA2 has previously been shown to alter the behavior of platelets, leukocytes, and endothelial cells, although the molecular basis for these cellular effects has not been established. Our studies indicate that the inhibition of platelet aggregation by snake, bee venom, and pancreatic sPLA2 is dependent on a plasma cofactor. This cofactor resides within the lipoprotein fraction of plasma, with 54%, 31%, and 11% of the activity present in the high-density lipoprotein (HDL), low-density lipoprotein (LDL), and very low density lipoprotein (VLDL) fractions, respectively. Delipidation of HDL and LDL was associated with the complete loss of platelet-inhibitory activity. Incubation of purified sPLA2 with the HDL fraction of plasma resulted in the time-dependent generation of lysophosphatidylcholine (lysoPC). The formation of lysoPC correlated with the inhibition of platelet aggregation. Purified lysoPC (10 to 100 micrograms/mL) inhibited platelet aggregation and dense granule release induced by thrombin (0.05 U/mL), collagen (1 micrograms/mL), ionophore A23187 (2 mumol/L), ADP (12.5 mumol/L), and adrenaline (3.2 mumol/L). The inhibition of platelet aggregation by lysoPC was dose-dependent and correlated with decreased fibrinogen binding to glycoprotein IIb-IIIa. Our studies indicate that the enzymatic generation of lysoPC from plasma lipoproteins is essential for the sPLA2-mediated inhibition of platelet activation in the presence of albumin. These results raise the possibility that the toxic effects of circulating sPLA2 may be due in part to the generation of the bioactive lysophospholipid, lysoPC.
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PMID:An essential role for lysophosphatidylcholine in the inhibition of platelet aggregation by secretory phospholipase A2. 749 74

Soluble fibrinogen binding to agonist-stimulated blood platelets is the essential physiologic function of the glycoprotein IIb-IIIa (GPIIb-IIIa) receptor. We describe a method of quantifying this receptor-ligand interaction by using flow cytometry to detect the binding of fluorescein-labeled fibrinogen to activated platelets. Fibrinogen conjugated with fluorescein isothiocyanate (FITC-FGN) was structurally and functionally indistinguishable from native fibrinogen when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, thrombin clottability, and receptor affinity studies. Platelet samples, at a concentration of 2 x 10(7) ml, were incubated with FITC-FGN and activated with adenosine diphosphate (ADP) before cytometric acquisition of fluorescence and scatter data. ADP-induced binding of soluble FITC-FGN to platelet GPIIb-IIIa was specific, time dependent, and saturable. Cytometric analysis of FITC calibration beads allowed generation of standard curves relating bead fluorescence intensity to the number of fluorescein equivalents per bead. With this information, platelet fluorescence intensity was converted into the number of FITC-FGN molecules bound per platelet. Such quantitative analysis of fibrinogen binding yielded a dissociation constant of 2.48 +/- 0.5 x 10(-7) mol/L and a maximum fibrinogen binding capacity of 42, 124 +/- 5, 628 molecules per platelet (mean +/- SEM), which are comparable to published results with radioligand assays. The simplicity, sensitivity, and quantifiability of this method may make it a useful technique for basic and clinical research involving GPIIb-IIIa function.
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PMID:Quantitation of soluble fibrinogen binding to platelets by fluorescence-activated flow cytometry. 751 93


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