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)

Previous studies have suggested that the platelet glycoprotein complex GPIIb-IIIa, which is the putative fibrinogen receptor, regulates Ca2+ influx into platelets, possibly operating as a Ca2+ channel. We have used RGD-peptides (peptides containing the sequence Arg-Gly-Asp; disintegrins), isolated from snake venoms, that have a high affinity and specificity for the fibrinogen-binding site of GPIIb-IIIa to address the question of whether blocking this site inhibits Ca2+ movement from the extracellular medium to the cytosol. Using fura-2-loaded human platelets, we found that neither disintegrins nor a monoclonal antibody (M148) to the GPIIb-IIIa complex altered the level of cytosolic Ca2+ obtained when the cells were stimulated with various agonists in the presence of either nominal or 1 mM extracellular Ca2+. In the presence of Mn2+, an ion that quenches fura-2 fluorescence, fura-2-loaded platelets were stimulated with thrombin or ADP. Neither disintegrins nor the monoclonal antibody altered the kinetics or the amount of quenching of fura-2 fluorescence by Mn2+. These data indicate that the binding of ligands to the fibrinogen receptor is not associated with an inhibition of Ca2+ movement through a receptor-operated channel. Furthermore, the disintegrins have no effect on platelet cyclic AMP metabolism in either the presence or the absence of phosphodiesterase inhibitors.
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PMID:Ligands to the platelet fibrinogen receptor glycoprotein IIb-IIIa do not affect agonist-induced second messengers Ca2+ or cyclic AMP. 216

After oral administration, ticlopidine specifically inhibits ADP-induced platelet aggregation, prolongs the bleeding time and prevents thrombosis in man. Its mechanism of action is not well known. Ticlopidine inhibits ADP-induced binding of fibrinogen to platelet glycoprotein GP IIb-IIIa but not shape change and increases deaggregation. Ticlopidine has no direct effect on the GP IIb-IIIa complex. We studied the effects of ticlopidine (500 mg/day for 8 days) in four healthy male volunteers on washed platelet aggregation induced by 5 microM ADP or thrombin (0.1 units/mL) and potentiated by 1 microM adrenaline (Adr), on basal and 1 microM PGE1-stimulated cAMP levels and on elevation of cytosolic free Ca2+ concentration ([Ca2+]i). We found that: (i) ticlopidine inhibits aggregation by ADP but not the potentiation by Adr of ADP-induced aggregation; (ii) ADP, Adr or thrombin decreases cAMP levels raised by PGE1, an effect inhibited by ticlopidine only for ADP and not for Adr or thrombin; and (iii) Ca2+ influx and Ca2+ mobilization from internal stores were not affected. These results suggested that ticlopidine or a metabolite impairs the coupling mechanism of the ADP aggregation pathway at an unknown level.
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PMID:The thienopyridine ticlopidine selectively prevents the inhibitory effects of ADP but not of adrenaline on cAMP levels raised by stimulation of the adenylate cyclase of human platelets by PGE1. 217 8

Previous studies have shown a decreased binding of monoclonal antibodies (MoAbs) to glycoprotein (GP) Ib-IX complexes on thrombin-stimulated platelets, but the reason for this is poorly understood. We have used (1) immunofluorescence procedures and flow cytometry, and (2) immunogold staining and electron microscopy to investigate this phenomenon. Washed platelets were incubated with alpha-thrombin, adenosine diphosphate, or ionophore A23187 for increasing lengths of time. For alpha-thrombin, but not the other agonists, flow cytometry confirmed a dose- and time-dependent decrease in the binding of MoAbs specific for GP Ib alpha (AP-1, Bx-1), GP IX (FMC 25), or to the complex itself (SZ 1). Immunoglold staining performed using standard transmission or scanning electron microscopy high-lighted surface areas devoid of bound antibody. However, a quantitatively normal immunofluorescence was restored if paraformaldehyde-fixed, thrombin-stimulated platelets were permeabilized with Triton X-100 (Sigma Chemical Co, St Louis, MO) before MoAb addition, while immunogold staining was now seen to be concentrated within the interior of the platelet. Glutaraldehyde-fixed samples were then embedded in the resin Lowicryl K4M (Taab Laboratories Equipment Ltd, Aldermaston, England) and immunogold staining performed on thin sections using a polyclonal antibody to glycocalicin. An increased presence of GP Ib-IX complexes within surface-connected membrane systems of the thrombin-stimulated platelets was confirmed. Interestingly, GP Ib-IX movement was opposite to the thrombin-induced externalization of internal pools of GP IIb-IIIa complexes and of the alpha-granule membrane GP, GMP-140.
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PMID:Thrombin induces a rapid redistribution of glycoprotein Ib-IX complexes within the membrane systems of activated human platelets. 220 26

We have investigated two major questions related to the molecular basis of interactions between the three-dimensional fibrin network and thrombin-stimulated human platelets. First, what are the roles played by glycoproteins (GP) Ib and IIb:IIIa in linking the fibrin clot tightly to the platelet surface? Second, does von Willebrand factor (vWF) modulate the extent of platelet-fibrin interactions? Quantitative fluorescence microscopy (microfluorimetry) has been used to determine the quantity of fluorescein-labeled fibrin bound to the surface of thrombin-stimulated, gel-filtered platelets (the supernatants of which contained small quantities of vWF) in the presence/absence of receptor-specific and vWF-specific monoclonal antibodies (MoAbs), as well as exogenous vWF. A MoAb specific for the GPIIb:IIIa complex exhibited a concentration-dependent inhibition of fibrin binding, whereas a MoAb specific for GPIb was ineffective in this regard. Similarly, a MoAb that recognizes the N-terminal region of vWF involved in GPIb binding did not influence fibrin binding. In contrast, a MoAb that binds to a C-terminal region of vWF involved in GPIIb:IIIa recognition caused a specific, concentration-dependent increase in the quantity of platelet-bound fibrin. We also found that exogenous vWF caused a concentration-dependent decrease in fibrin binding. These results support the hypothesis that vWF and fibrin, both of which are multimeric adhesive ligands, compete for occupancy of the GPIIb:IIIa complex on thrombin-stimulated platelets.
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PMID:von Willebrand factor competes with fibrin for occupancy of GPIIb:IIIa on thrombin-stimulated platelets. 230 58

Using an immunogold staining technique and electron microscopy, we investigated the localization of the alpha-granule pool of glycoprotein (GP) IIb-IIIa in normal platelets and maturing megakaryocytes (MK), in pathologic platelets from a patient with type I Glanzmann's thrombasthenia (GT), and from three patients with the gray platelet syndrome (GPS). In normal resting platelets, GPIIb-IIIa was observed on the plasmatic side of the plasma membrane, the open canicular system (OCS) membranes, and along the internal face of the alpha-granule membrane. This location was found with three monospecific polyclonal antibodies: one anti-GPIIb-IIIa antibody, the second specific for GPIIb, and the third specific for GPIIIa. After thrombin stimulation, the alpha-granule labeling disappeared whereas membrane labeling increased. Platelets from GT did not display labeling on plasma membranes, OCS membranes, or alpha-granule membranes. Platelets from the three patients with GPS displayed intense labeling of the plasma membrane and the OCS membrane, as well as the abnormal small alpha-granules and along the inside of large vacuoles (which contain the granule membrane protein [GMP]-140). In cultured immature MK from normal progenitors, both peptide components of GPIIb-IIIa appeared in the Golgi saccules and vesicles, and in the small precursors of alpha-granules, labeling both their membranes and their matrix. It was then observed only on the membrane of the mature MK alpha-granules, although labeling was less consistent than on the platelet granules. The MK plasma membrane and demarcation membrane system also displayed GPIIb-IIIa labeling. In conclusion, this study demonstrates that GPIIb-IIIa is present on the internal face of the alpha-granule membranes of platelets (where it appears early during MK maturation) as well as in the abnormal alpha-granules of gray platelets; it is absent from GT type I platelets.
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PMID:Alpha-granule pool of glycoprotein IIb-IIIa in normal and pathologic platelets and megakaryocytes. 231 Aug 22

In the present report we describe the platelet-binding characteristics of applaggin and echistatin, potent inhibitors of fibrinogen-dependent platelet aggregation derived from Agkistrodon piscivorus piscivorus and Echis carinatus snake venoms, respectively. Both molecules bound to unstimulated platelets in a specific and saturable manner. At saturation there were 37,100 +/- 3,150 (mean, +/- S.D.) molecules of applaggin and 27,200 +/- 2,816 molecules of echistatin bound/platelet, with dissociation constants (Kd) of 1.4 +/- 0.6 x 10(-7) M and 4.9 +/- 1.2 x 10(-7) M, respectively. Stimulation of platelets with ADP (10 microM) + epinephrine (2 microM) resulted in an increase in the number of molecules bound at saturation to 42,300 +/- 2,105 for applaggin and 32,185 +/- 3,180 for echistatin, with a Kd of 5.6 +/- 0.3 x 10(-8) M and 1.8 +/- 0.6 x 10(-7) M, respectively. The synthetic peptide (Arg)8-Gly-Asp-Val was a competitive antagonist of applaggin and echistatin binding to unstimulated platelets (Ki = 25 and 36 microM, respectively). Applaggin and echistatin inhibited the binding of fibrinogen to stimulated platelets in a dose-dependent manner, with an IC50 of 9 and 25 nM, respectively. In concert with inhibition of platelet aggregation, applaggin and echistatin inhibited platelet secretion and synthesis of thromboxane A2 induced by ADP, collagen, and human gamma-thrombin. The monclonal antibody, LJ-CP3, which inhibits the binding of Arg-Gly-Asp containing ligands to platelet GPIIb.IIIa, also inhibited applaggin binding to unstimulated platelets in a competitive manner (Ki = 4.5 microM). Thus, applaggin and echistatin bind to the platelet GPIIb.IIIa complex, and the Arg-Gly-Asp sequence plays a central role in mediating this interaction.
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PMID:Binding of the snake venom-derived proteins applaggin and echistatin to the arginine-glycine-aspartic acid recognition site(s) on platelet glycoprotein IIb.IIIa complex inhibits receptor function. 236 98

The thienopyridines, ticlopidine and PCR 4099, inhibit ex vivo aggregation in response to ADP and other agonists. It has been shown that ticlopidine induces a functional defect in the binding of fibrinogen to its platelet membrane receptor. We have studied the effects on platelet functions of PCR 4099 in rat and in man. The aim of the study was to check the possibility of a direct modification of the fibrinogen binding site on the GP IIb-IIIa complex. Washed platelet suspensions were used for aggregation and fibrinogen binding studies. Platelet lysates were submitted to SDS-polyacrylamide gel electrophoresis, crossed immunoelectrophoresis and immunoprecipitation. We found that administration of PCR 4099 inhibited selectively and irreversibly ADP-induced aggregation. Although the effect of ADP on aggregation was blocked, PCR 4099 did not modify ADP-induced shape change. Only the effects of low concentrations of thrombin on platelet aggregation were inhibited. Fibrinogen binding was dramatically inhibited in rat and in man when platelets were stimulated with ADP and low concentrations of thrombin. At high concentration of thrombin there still remained a part of fibrinogen binding inhibition although aggregation was not impaired. Electrophoretic and immunoelectrophoretic studies showed no difference before and after treatment by PCR 4099. In particular, the GP IIb-IIIa-complex was not dissociated, its electrophoretic mobility was not changed and three monoclonal anticomplex antibodies recognized it in the same manner before and after treatment. We conclude that PCR 4099 selectively inhibits the ADP aggregation pathway and that the inhibition of fibrinogen binding is probably not due to a direct modification of the GP IIb-IIIa complex.
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PMID:The thienopyridine PCR 4099 selectively inhibits ADP-induced platelet aggregation and fibrinogen binding without modifying the membrane glycoprotein IIb-IIIa complex in rat and in man. 237 65

We have purified the integrin GPIIb:IIIa from the membrane fraction of human blood platelets by lentil lectin affinity chromatography followed by gel filtration chromatography. With purified GPIIb:IIIa as an antigen, we have produced monoclonal antibody CS-1, which immunoblotting demonstrates to be specific for native GPIIIa; disulfide bond reduction of GPIIIa resulted in loss of immunoreactivity. Radiolabelled ligand binding studies revealed that CS-1 recognized approximately 55,000 sites per platelet and bound with a Kd in the nanomolar range, independent of the state of platelet activation. Binding of CS-1 or its Fab fragment to ADP- and thrombin-stimulated gel filtered platelets caused a 2-3 fold inhibition of binding the soluble ligands fibrinogen and fibrin protofibrils. CS-1 also inhibited aggregation of ADP- and thrombin-stimulated platelets by 2- and 4-fold, respectively. Since CS-1 inhibits fibrin(ogen) interactions with GPIIb:IIIa, we propose that the conformationally dependent epitope on GPIIIa recognized by CS-1 constitutes a region of the receptor which is involved in fibrin(ogen) binding.
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PMID:Inhibition of fibrin(ogen) binding to stimulated platelets by a monoclonal antibody specific for a conformational determinant of GPIIIa. 238 28

We have studied the interaction of the congenitally abnormal type IIA and IIB von Willebrand factor (vWF) molecules, both lacking the larger multimeric forms, with the two vWF binding sites on platelets, the glycoprotein (GP) Ib-IX and GP IIb-IIIa complexes. Variant as well as normal (N) vWF were purified from plasma. Estimates for binding of subunit molecules per platelet at saturation (Bmax) and dissociation constant in moles/liter (Kd), respectively, were obtained from binding isotherms of 125I-labeled vWF, with the following results. In the presence of ristocetin (binding to GP Ib-IX): N, 25,693 and 0.5 x 10(-8); IIA, both parameters not measurable; IIB, 17,708 and 0.87 x 10(-8). After thrombin stimulation (binding to GP IIb-IIIa): N, 17,059 and 1.12 x 10(-8); IIA, 23,751 and 4.87 x 10(-8); IIB, 19,890 and 2.52 x 10(-8). Distinct experiments based on measuring the ability of the variant species (from the same patients and one additional IIB patient) to inhibit the binding of normal 125I-vWF to platelets gave results in agreement with those reported above. Other studies showed that only IIB vWF bound to platelets in the absence of any mediating substance (Kd = 5.21 x 10(-8) mol/liter and Bmax = 9,599 subunits per platelet) and induced aggregation at a concentration of 10 micrograms/ml (3.6 x 10(-8) M). Thus, IIB vWF binds to GP Ib-IX with high affinity and induces platelet aggregation, whether with or without ristocetin, in spite of the absence of larger multimers. In contrast, the binding of IIA vWF to GP Ib-IX occurs with very decreased affinity, and this defective function may result from specific structural abnormalities rather than just being a reflection of the absence of larger multimeric forms. Both IIA and IIB vWF exhibit decreased affinity for GP IIb-IIIa. In this case, the extent of the defect correlates with the absence of larger multimers.
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PMID:Distinct abnormalities in the interaction of purified types IIA and IIB von Willebrand factor with the two platelet binding sites, glycoprotein complexes Ib-IX and IIb-IIIa. 239 30

The author used immunofluorescence and digital image processing to investigate the dynamic distribution of GPIIb/IIIa in living platelets. Resting cells were incubated with AP-2, a complex-specific, monoclonal, anti-GPIIb/IIIa antibody. Examination of intact cells demonstrated a rim pattern for GPIIb/IIIa consistent with a surface localization. Permeabilization revealed a time-dependent increase in the labeling of apparent intracellular vacuoles. This pattern is distinct from the "patch-cap" pattern observed when unfixed platelets were incubated with fluoresceinated concanavalin A. Additionally, labeling of this vacuolar pool of GPIIb/IIIa was inhibited by treatment with 2% sodium azide or by incubation at 4 degrees C. Identical staining patterns were obtained with Fab fragments of AP-2. Ultrastructural examination confirmed the presence of labeled intracellular vacuolar structures. Parallel studies performed with AP-1, a monoclonal anti-GPIb antibody, failed to demonstrate internalization of GPIb. Finally, thrombin stimulation of resting platelets, which had been preincubated with AP-2, resulted in the clearing of this newly internalized pool of GPIIb/IIIa; presumably via translocation to the surface. These data suggest the presence of an actively cycling pool of GPIIb/IIIa that has not been described previously. The dynamic distribution of this pool may be important in the regulation of platelet adhesiveness.
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PMID:Plasma membrane GPIIb/IIIa. Evidence for a cycling receptor pool. 240 19

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