Measurement of platelet activation by fluorescence-activated flow cytometry.

Platelet activation is postulated to play a critical role in the pathogenesis of thrombotic and hemorrhagic disorders. Previous assays for detection of activated platelets were cumbersome and provided only nonspecific information with limited sensitivity. The recent introduction of fluorescence-activated flow cytometric techniques for platelet analysis used in combination with monoclonal antibodies for detection of specific platelet-activation antigens has introduced the possibility of improved assays to detect activated platelets. The monoclonal antibody S12, directed against the unique platelet-activation antigen GMP-140, has been used to develop a fluorescence-activated flow cytometric assay. Patient samples for this assay can be easily prepared and maintained until analyzed in batch mode. Peripheral blood obtained from normal subjects exhibited low levels of activated platelets, and the assay had sufficient sensitivity to detect as few as 2% to 3% activated platelets among normal platelets. Patients undergoing cardiopulmonary bypass had transiently increased numbers of circulating activated platelets. Evaluation of standard blood bank platelet concentrates has shown the presence of significant numbers of activated platelets. Other studies have suggested that the degree of platelet activation correlated with poor posttransfusion increments and survival. Thus, this assay may also be useful for quality control of platelet concentrates. Future development of the GMP-140 and other platelet-activation antigen assays should improve detection of disorders characterized by inappropriate platelet activation.     

Platelet activation as a marker for in vivo prothrombotic activity: detection by flow cytometry

Circulating platelets play a pivotal role in hemostasis. The platelet hemostatic function involves the direct interaction with damaged vessel walls, and circulating coagulation factors, primarily thrombin resulting in platelet activation, aggregation and formation of hemostatic plug. Flow cytometry is a useful technique for the study of platelet activation in circulating blood. Platelet activation markers for ex vivo analysis may include a) activation-dependent epitopes of the membrane glycoprotein (GP) IIb/IIIa (CD41a) receptor, as demonstrated by the binding of activation-specific monoclonal antibodies (MoAbs) PAC1, anti-LIBS1 and anti-RIBS); b) the expression of P-selectin (CD62p), the alpha-granule GP translocated to the platelet surface following release reaction; and c) platelet procoagulant activity, as demonstrated by the binding of i) annexin V protein to the prothrombinase-complex (prothrombin, activated factor X (Xa) and V (Va)) binding sites on the surface of activated platelets, and of ii) MoAbs against activated coagulation factors V and X bound to the surface of activated platelets. Using this method, platelet activation as a marker for in vivo prothrombotic activity can be demonstrated in various clinical conditions including coronary angioplasty, orthostatic challenge in primary depression, sickle cell disease in clinical remission and during pain episode, and in pregnancy-related hypertension with marked increase during preeclampsia. The finding of platelet procoagulant activity is corroborated by increased levels of plasma markers for thrombin generation and fibrinolytic activity.     

Conformational responses of an arachidonate- and U46619-binding haemoprotein in relation to platelet activation

Antibodies were raised, in rabbits, against an arachidonate- and U46619-binding protein purified from calf platelets. Spectral measurements and immunodiffusion experiments were employed to follow conformational responses of the protein in relation to platelet activation. Upon treatment with the platelet agonists, arachidonate and PGH2, as well as the common haem ligands, imidazole and CN-, the purified protein had its Soret band red-shifted, with hypochromicity, but the protein saturated with the agonists, not with the haem ligands, showed altered antigenic properties in immunodiffusion experiments. In an analogous manner activation of gel-filtered calf platelets with high concentrations of ADP and A23187, as well as by cold, had Soret bands of extracts of sonicated platelets red-shifted, with hypochromicity; concomitantly, antigenically different conformations of the protein appeared in Triton X-100 extracts of the activated platelets. A protein immunologically related to the platelet protein was detected in Triton X-100 extracts of calf neutrophils. It is suggested that conformational changes of the protein induced by arachidonate or prostaglandin endoperoxides or H2O2 formed in different compartments during platelet activation by different stimuli may be a biochemical mechanism of stimulus-response coupling and that similar mechanisms might operate in other cell types.     

Dietary soy isoflavones inhibit activation of rat platelets

Isoflavones (isoflavonoids) have been proposed to be the active compounds that contribute to decreased mortality from chronic diseases in populations that consume large amounts of soy products. Diets containing soy protein with and without isoflavones were fed to rats to determine if these compounds could exert in vivo effects on physiologic markers of platelet activation. Three methods were employed to monitor platelet activation: measurement of electronic mean platelet volume, which is an indicator of shape change; monitoring of collagen-induced production of reactive oxygen signals (hydrogen peroxide); and determination of increases in phosphorylation of protein tyrosine residues after collagen stimulation. Apparent volumes were significantly smaller for platelets from rats fed isoflavones, suggesting that these platelets were in a more disc-like, quiescent state compared with platelets from rats fed the isoflavone-reduced diet (means +/- SEM, 5.37 +/- 0.08 vs. 5.70 +/- 0.06 fL, n = 6/group, P < 0.008). Results from the other functional tests were consistent with this finding. Platelet production of hydrogen peroxide was found be significantly lower 1, 3, and 5 minutes after addition of collagen for rats fed isoflavones versus rats fed the isoflavone-reduced diet (n = 6/group, P < 0.004). Phosphorylated tyrosine residues in platelet proteins after stimulation also were shown to be significantly lower in the platelets exposed to dietary isoflavones (n = 5/group, P < 0.047). These combined results indicate that soy isoflavones can alter early-event signaling networks that result in less activated platelets and may partially explain the beneficial effects of dietary soy against human heart disease.     

Flow cytometric analysis of circadian changes in platelet activation using anti-GMP-140 monoclonal antibody.

The hemostatic activity of blood shows a circadian variation with a higher frequency of acute coronary events in the morning. The thrombotic tendency of blood is influenced by many factors, including platelets. Diurnal changes of in vivo platelet activation were investigated by whole blood flow cytometry in 10 young healthy male volunteers using anti-GMP-140 (anti-alpha-granule membrane protein 140 kD) monoclonal antibody at 3h intervals from 06:00 to 24:00. We also studied circulating platelet aggregates to investigate whether there exists a similarity between the results of these methods. Results of flow cytometric analysis indicate that there is an increase in platelet activation during the period from 06:00 to 09:00. Platelet activation then decreases gradually during the period from noon to midnight. These changes are accompanied by a similar trend in circulating platelet aggregates. This suggests that GMP-140 expression on platelets is synchronized with or followed by platelet aggregate formation in vivo, and increased platelet activation may predispose individuals to thrombosis at this time.     

Activation of platelet concentrate during preparation and storage.

This review will discuss how stored platelets become activated and will examine their ability to function and survive in vivo, posttransfusion. Experimental methods which have been shown to alter platelets during storage will be detailed. Using beta-thromboglobulin (beta-TG) and surface adhesion receptors as markers, investigators have examined the activation changes in platelet concentrates during preparation and storage. Resuspension of the platelet pellet after isolation of platelet-rich plasma appears to play a major role in producing platelet activation and beta-TG release during preparation. However, there is a significant amount of interdonor variability in platelet activation even at this early stage of storage. Over 5 days of storage, platelets release approximately 50% of their beta-TG contents. Furthermore, between 40% and 60% of the platelets express the alpha-granule membrane protein, P-selectin (GMP-140), during storage, which is also indicative of platelet activation. These activation changes correlate to some degree with platelet recovery posttransfusion but clearly do not explain the full lesion of platelet storage. The surface density of two platelet membrane receptors, glycoproteins (GP) Ib and IIb/IIIa, also change with activation, although in opposite directions. Platelet surface GPIb decreases initially with storage and then recovers, perhaps due to its relocation to the platelet surface from an intracellular pool. In contrast to GPIb, mean platelet surface GPIIb/IIIa increases slightly during storage, probably as a consequence of platelet activation and release of alpha-granule GPIIb/IIIa to the surface. Some hypotheses are offered regarding how these activated platelets can continue to circulate after transfusion. Further exploration of the platelet storage lesion will hopefully provide needed answers and thus permit better treatment of hemostatic disorders in the future.     

Platelet activation induces increased Fc gamma receptor expression

Platelet contain Fc gamma RII. However, little is known about how the expression of these receptors is regulated. Inasmuch as platelet activation by a variety of agonists increases the expression of several proteins on the platelet surface, we used flow cytometry to study the effect of platelet activation on the expression of platelet Fc gamma R by measuring the binding of fluorescein-labeled oligomeric IgG (FITC-IgG oligomer) and fluorescein-labeled mAb IV.3 (FITC-IV.3), a mAb that recognizes Fc gamma RII, to platelets. The number of Fc gamma R per platelet was determined by relating the binding to platelets of FITC-IV.3, measured by flow cytometry, to the binding of 125I-labeled IV.3, measured using a standard filtration assay. Nonactivated, gel-filtered platelets from nine healthy donors expressed a mean of 891 Fc gamma R per platelet, whereas platelets activated at 25 degrees C by thrombin or PMA expressed a mean of 1382 Fc gamma R an average increase of 55% (p less than 0.001). Binding of FITC-IgG oligomer increased to a similar extent when platelets were stimulated by these agonists. A smaller increase in the number of Fc gamma R expressed on the platelet surface was measured when platelets were stimulated with ADP, though no increase was observed with epinephrine. The agonist-dependent increase in Fc gamma R expression did not occur when platelets were studied at 4 degrees C or in the presence of agents that elevate intracellular levels of cAMP, suggesting that platelet activation was required for this process. Agonist-stimulated Fc gamma R expression did not depend on dense-granule secretion, because it was observed at low agonist concentrations in the absence of 14C-serotonin release. These studies demonstrate that the number of Fc gamma R expressed on the platelet surface increases when platelets are activated by several agonists, perhaps as a result of the exposure of Fc gamma R located along the surface-connected open canalicular system, or the fusion of platelet alpha-granule and plasma membranes during the activation process. Increased Fc gamma R expression may promote the clearance of IgG-containing immune complexes from the circulation, and contribute to the development of immune complex-mediated thrombocytopenia.     

G13 is an essential mediator of platelet activation in hemostasis and thrombosis

Platelet activation at sites of vascular injury is essential for primary hemostasis, but also underlies arterial thrombosis leading to myocardial infarction or stroke. Platelet activators such as adenosine diphosphate, thrombin or thromboxane A(2) (TXA(2)) activate receptors that are coupled to heterotrimeric G proteins. Activation of platelets through these receptors involves signaling through G(q), G(i) and G(z) (refs. 4-6). However, the role and relative importance of G(12) and G(13), which are activated by various platelet stimuli, are unclear. Here we show that lack of Galpha(13), but not Galpha(12), severely reduced the potency of thrombin, TXA(2) and collagen to induce platelet shape changes and aggregation in vitro. These defects were accompanied by reduced activation of RhoA and inability to form stable platelet thrombi under high shear stress ex vivo. Galpha(13) deficiency in platelets resulted in a severe defect in primary hemostasis and complete protection against arterial thrombosis in vivo. We conclude that G(13)-mediated signaling processes are required for normal hemostasis and thrombosis and may serve as a new target for antiplatelet drugs.     

Anti-citrullinated protein antibodies contribute to platelet activation in rheumatoid arthritis

IntroductionAlthough the role of platelets in rheumatoid arthritis (RA) is relatively unexplored, recent studies point towards a contribution of platelets in arthritis. We set out to determine platelet phenotype in RA and studied whether this could be influenced by the presence of anti-citrullinated protein antibodies (ACPA).MethodsPlatelets from healthy controls were incubated in the presence of plasma of patients with RA or age- and sex-matched healthy controls and plasma from ACPA^neg or ACPA^pos patients or in the presence of plate-bound ACPA. Characteristics of platelets isolated from patients with RA were correlated to disease activity.ResultsPlatelets isolated from healthy controls displayed markers of platelet activation in the presence of plasma derived from RA patients, as determined by P-selectin expression, formation of aggregates and secretion of soluble CD40 ligand (sCD40L). Furthermore, levels of P-selectin expression and sCD40L release correlated with high ACPA titres. In accordance with these findings, enhanced platelet activation was observed after incubation with ACPA^pos plasma versus ACPA^neg plasma. Pre-incubation of platelets with blocking antibodies directed against low-affinity immunoglobulin G receptor (FcγRIIa) completely inhibited the ACPA-mediated activation. In addition, expression of P-selectin measured as number of platelets correlated with Disease Activity Score in 44 joints, C-reactive protein level, ACPA status and ACPA level.ConclusionsWe show for the first time that ACPA can mediate an FcγRIIa-dependent activation of platelets. As ACPA can be detected several years before RA disease onset and activated platelets contribute to vascular permeability, these data implicate a possible role for ACPA-mediated activation of platelets in arthritis onset.

Electronic supplementary material

The online version of this article (doi:10.1186/s13075-015-0665-7) contains supplementary material, which is available to authorized users.     

Increase in GP IIb-IIIa and P2Y12 receptors in activated platelets as the possible indicator of de novo protein synthesis

Although platelets lack nuclei, they are capable of de novo protein synthesis. We speculate that key platelet receptors are involved in the regulation of this process, and the changes in their number indicate the de novo protein synthesis in platelets. The object of our study was native platelets obtained from healthy donors. Using flow cytometry and Western blot, we determined the number of GP IIb-IIIa receptors (fibrinogen receptor) and P2Y12 receptors (ADP receptor) on the surface of platelets upon their activation with ADP and collagen. To verify the approaches and techniques used, we studied IL-1β protein, which was previously shown to be synthesized de novo in activated platelets. GP IIb-IIIa receptor numbers correlate with the number of P2Y12 receptors on the cell surface (R = 0.45, p = 0.03). It was demonstrated that the platelet receptor numbers are higher on the surface of the cells with high functional activity. According to the data obtained by Western blot, upon the cell activation with ADP, the number of GP IIb-IIIa and P2Y12 receptors increases, which may serve as evidence of these proteins being synthesized in the activated platelets. It was observed that the level of P2Y12 and IL-1β was lower in the samples where GP IIb-IIIa receptor was blocked by the selective inhibitor, i.e., the Fab fragment of the antibodies that specifically recognizes the GP IIb-IIIa complex. This suggests the important role of GP IIb-IIIa receptor in the regulation of protein synthesis.     

Physical proximity and functional association of glycoprotein 1balpha and protein-disulfide isomerase on the platelet plasma membrane

Platelet function is influenced by the platelet thiol-disulfide balance. Platelet activation resulted in 440% increase in surface protein thiol groups. Two proteins that presented free thiol(s) on the activated platelet surface were protein-disulfide isomerase (PDI) and glycoprotein 1balpha (GP1balpha). PDI contains two active site dithiols/disulfides. The active sites of 26% of the PDI on resting platelets was in the dithiol form, compared with 81% in the dithiol form on activated platelets. Similarly, GP1balpha presented one or more free thiols on the activated platelet surface but not on resting platelets. Anti-PDI antibodies increased the dissociation constant for binding of vWF to platelets by approximately 50% and PDI and GP1balpha were sufficiently close on the platelet surface to allow fluorescence resonance energy transfer between chromophores attached to PDI and GP1balpha. Incubation of resting platelets with anti-PDI antibodies followed by activation with thrombin enhanced labeling and binding of monoclonal antibodies to the N-terminal region of GP1balpha on the activated platelet surface. These observations indicated that platelet activation triggered reduction of the active site disulfides of PDI and a conformational change in GP1balpha that resulted in exposure of a free thiol(s).     

Interaction with damaged vessel wall in vivo in humans induces platelets to express CD40L resulting in endothelial activation with no effect of aspirin intake

Activated platelets express CD40L on their plasma membrane and release the soluble fragment sCD40L. The interaction between platelet surface CD40L and endothelial cell CD40 leads to the activation of endothelium contributing to atherothrombosis. Few studies have directly demonstrated an increased expression of platelet CD40L in conditions of in vivo platelet activation in humans, and no data are available on its relevance for endothelial activation. We aimed to assess whether platelets activated in vivo at a localized site of vascular injury in humans express CD40L and release sCD40L, whether the level of platelet CD40L expression attained in vivo is sufficient to induce endothelial activation, and whether platelet CD40L expression is inhibited by aspirin intake. We used the skin-bleeding-time test as a model to study the interaction between platelets and a damaged vessel wall by measuring CD40L in the blood emerging from a skin wound in vivo in healthy volunteers. In some experiments, shed blood was analyzed before and 1 h after the intake of 500 mg of aspirin. Platelets from the bleeding-time blood express CD40L and release soluble sCD40L, in a time-dependent way. In vivo platelet CD40L expression was mild but sufficient to induce VCAM-1 expression and IL-8 secretion in coincubation experiments with cultured human endothelial cells. Moreover, platelets recovered from the bleeding-time blood activated endothelial cells; an anti-CD40L antibody blocked this effect. On the contrary, the amount of sCD40L released by activated platelets at a localized site of vascular injury did not reach the concentrations required to induce endothelial cell activation. Soluble monocyte chemoattractant protein-1, a marker of endothelium activation, was increased in shed blood and correlated with platelet CD40L expression. Aspirin intake did not inhibit CD40L expression by platelets in vivo. We concluded that CD40L expressed by platelets in vivo in humans upon contact with a damaged vessel wall activates endothelium; aspirin treatment does not inhibit this mechanism.     

Activated human platelets induce factor XIIa-mediated contact activation

Earlier studies have shown that isolated platelets in buffer systems can promote activation of FXII or amplify contact activation, in the presence of a negatively charge substance or material. Still proof is lacking that FXII is activated by platelets in a more physiological environment. In this study we investigate if activated platelets can induce FXII-mediated contact activation and whether this activation affects clot formation in human blood.Human platelets were activated with a thrombin receptor-activating peptide, SFLLRN-amide, in platelet-rich plasma or in whole blood. FXIIa and FXIa in complex with preferentially antithrombin (AT) and to some extent C1-inhibitor (C1INH) were generated in response to TRAP stimulation. This contact activation was independent of surface-mediated contact activation, tissue factor pathway or thrombin. In clotting whole blood FXIIa-AT and FXIa-AT complexes were specifically formed, demonstrating that AT is a potent inhibitor of FXIIa and FXIa generated by platelet activation. Contact activation proteins were analyzed by flow cytometry and FXII, FXI, high-molecular weight kininogen, and prekallikrein were detected on activated platelets. Using chromogenic assays, enzymatic activity of platelet-associated FXIIa, FXIa, and kallikrein were demonstrated. Inhibition of FXIIa in non-anticoagulated blood also prolonged the clotting time.We conclude that platelet activation triggers FXII-mediated contact activation on the surface and in the vicinity of activated platelets. This leads specifically to generation of FXIIa-AT and FXIa-AT complexes, and contributes to clot formation. Activated platelets may thereby constitute an intravascular locus for contact activation, which may explain the recently reported importance of FXII in thrombus formation.     

Assessment of the influence of the inflammatory process on the activation of blood platelets and morphological parameters in patients with ulcerative colitis (colitis ulcerosa)

Ulcerative colitis (colitis ulcerosa) is a non-specific inflammatory bowel disease of unknown etiology. The symptoms which are observed in the course of ulcerative colitis are: an increase in the number of leukocytes and blood platelets, an increase in the concentration of IL-6 and anemia. Blood platelets are the key element, linking the processes of hemostasis, inflammation and the repair of damaged tissues. Activation of blood platelets is connected with changes in their shape and the occurrence of the reaction of release. P-selectin appears on the surfaces of activated blood platelets and the concentration level of soluble P-selectin increases in the blood plasma. The aim of this study was to define whether the increased number of blood platelets in patients with ulcerative colitis accompanies changes in their activation and morphology. A total of 16 subjects with ulcerative colitis and 32 healthy subjects were studied. Mean platelet count, morphological parameters of platelets and MPC were measured using an ADVIA 120 hematology analyzer. Concentrations of sP-selectin and IL-6 in serum were marked by immunoassay (ELISA). MPC, concentration of sP-selectin and IL-6 were significantly higher in subjects with ulcerative colitis compared to those in the healthy group. There was a decrease of MPV in patients with ulcerative colitis, which is statistically significant. Chronic inflammation in patients with ulcerative colitis causes an increase in the number of blood platelets, a change in their morphology and activation. Decreased MPV value reflects activation and the role blood platelets play in the inflammatory process of the mucous membrane of the colon. A high concentration of sP-selectin, which is a marker of blood platelet activation, demonstrates their part in the inflammatory process. The increase in the concentration of sP-selectin correlated positively with the increase in concentration of IL-6. This is why it may be a useful marker of the activity of colitis ulcerosa.     

Circulating platelet activation in healthy subjects and in some pathological conditions. Method of study and results

Current clinical methods for evaluating platelet function are artful tests which study the effects of various stimuli on platelets, whereas the clinician is much more interested in methods evaluating the activation of circulating platelets. The hallmark of activation of platelets is their shape change, i.e. the transformation of the platelets from smooth disks into spiny spheres; the aggregation begins when 30% of platelets are activated. In 1138 subjects (384 healthy individuals and 854 patients with various pathological conditions with high thrombotic risk) we have investigated circulating platelet activation and circulating platelet aggregates by fixation of blood cells in a glutaraldehyde mixture and by evaluation of platelet shape change and aggregates on a phase-contrast microscope. The method is precise, accurate and suitable for clinical purposes.     

Platelet activation by a relapsing fever spirochaete results in enhanced bacterium-platelet interaction via integrin alphaIIbbeta3 activation

Borrelia hermsii, a spirochaete responsible for relapsing fever in humans, grows to high density in the bloodstream and causes thrombocytopenia. We show here that B. hermsii binds to human platelets. Extended culture in bacteriological medium resulted in both diminished infectivity in vivo and diminished platelet binding in vitro. Platelet binding was promoted by the platelet integrin alphaIIbbeta3: the bacterium bound to purified integrin alphaIIbbeta3, and bacterial binding to platelets was diminished by alphaIIbbeta3 antagonists or by a genetic defect in this integrin. Integrin alphaIIbbeta3 undergoes a conformational change upon platelet activation, and bacteria bound more efficiently to activated rather than resting platelets. Nevertheless, B. hermsii bound at detectable levels to preparations of resting platelets. The bacterium did not recognize a point mutant of alphaIIbbeta3 that cannot acquire an active conformation. Rather, B. hermsii was capable of triggering platelet and integrin alphaIIbbeta3 activation, as indicated by the expression of the platelet activation marker P-selectin and integrin alphaIIbbeta3 in its active conformation. The degree of platelet activation varied depending upon bacterial strain and growth conditions. Prostacyclin I2, an inhibitor of platelet activation, diminished bacterial attachment, indicating that activation enhanced bacterial binding. Thus, B. hermsii signals the host cell to activate a critical receptor for the bacterium, thereby promoting high-level bacterial attachment.     

Activation of Fc gamma RII induces tyrosine phosphorylation of multiple proteins including Fc gamma RII.

Platelets provide a useful system for studying Fc gamma receptor-mediated signaling events because these cells express only a single class of Fc gamma receptors and because platelet aggregation and secretion can be activated through Fc gamma receptor stimulation. We report here that stimulation of platelets by cross-linking antibodies to Fc gamma RII or by treatment with an anti-CD9 monoclonal antibody, which acts through Fc gamma RII, causes an induction of tyrosine phosphorylation of multiple platelet proteins. Although the profile of tyrosine-phosphorylated proteins induced by stimulation of this Fc receptor was similar to that induced by thrombin, an additional 40-kDa phosphorylated protein was also detected. This protein co-migrated with Fc gamma RII and was immunoprecipitated with a monoclonal antibody to Fc gamma RII. In addition, after the cross-linking of Fc gamma RII in HEL cells or in COS-1 cells transfected with Fc gamma RII cDNA, the 40-kDa protein immunoprecipitated with anti-Fc gamma RII was also phosphorylated on tyrosine. These data strongly suggest that Fc gamma RII itself is a substrate for a tyrosine kinase(s) activated when Fc gamma RII is stimulated. Fc gamma RII was phosphorylated by the Src protein in vitro, suggesting that this kinase may be responsible for phosphorylation of Fc gamma RII in vivo. These studies establish that activation of platelets and human erythroleukemia cells through Fc gamma RII and CD9 involves an induction of tyrosine phosphorylation of multiple proteins including Fc gamma RII itself and suggest that these phosphorylation events may be involved in Fc gamma RII-mediated cell signaling.     

Identification by monoclonal antibodies and characterization of human platelet caldesmon

Actin-based gels were prepared from clarified high-salt extracts of human platelets by dialysis against physiological salt buffers. The gel was partially solubilized with 0.3 M KCl. Mice were immunized with the 0.3 M KCl extract of the actin gel, and hybridomas were produced by fusion of spleen cells with myeloma cells. Three hybridomas were generated that secrete antibodies against an 80-kD protein. These monoclonal antibodies stained stress fibers in cultured cells and cross-reacted with proteins in several tissue types, including smooth muscle. The cross-reacting protein in chicken gizzard smooth muscle had an apparent molecular weight of 140,000 and was demonstrated to be caldesmon, a calmodulin and actin-binding protein (Sobue, K., Y. Muramoto, M. Fujita, and S. Kakiuchi, Proc. Natl. Acad. Sci. USA, 78:5652-5655). No proteins of molecular weight greater than 80 kD were detectable in platelets by immunoblotting using the monoclonal antibodies. The 80-kD protein is heat stable and was purified using modifications of the procedure reported by Bretscher for the rapid purification of smooth muscle caldesmon (Bretscher, A., 1985, J. Biol. Chem., 259:12873-12880). The 80-kD protein bound to calmodulin-Sepharose in a Ca++-dependent manner and sedimented with actin filaments, but did not greatly increase the viscosity of F-actin solutions. The actin-binding activity was inhibited by calmodulin in the presence of calcium. Except for the molecular weight difference, the 80-kD platelet protein appears functionally similar to 140-kD smooth muscle caldesmon. We propose that the 80-kD protein is platelet caldesmon.     

Involvement of platelet glycoprotein Ib in platelet microparticle mediated neutrophil activation

Summary Platelet microparticles (MPs) are membrane vesicles shed by platelets after activation, and carry antigens characteristic of intact platelets, such as glycoprotein (GP) IIb/IIIa, GPIb and P-selectin. Elevated platelet MPs have been observed in many disorders in which platelet activation is documented. Recently, platelet GPIb has been implicated in the mediation of platelet–leukocyte interaction via binding to its ligand Mac-1 on leukocyte. The role of GPIb for mediating adhesion-activation interactions between platelet MPs and leukocytes has not been clarified. In this study we investigate the role of GPIb in the interplay between platelet MPs and neutrophils. Platelet MPs were obtained from collagen-stimulated platelet-rich plasma (PRP). In a study model of neutrophil aggregation, platelet MPs can serve a bridge to support neutrophil aggregation under venous level shear stress, suggesting that platelet MPs may enhance leukocyte aggregation, which would bear clinical relevance in diseases where the platelet MPs are elevated. The level of aggregation can be reduced by GPIb blocking antibodies, AP1 and SZ2, but not by anti-CD18 mAb. The GPIb blocking antibodies also decreased platelet MP-mediated neutrophil activation, including β2 integrin expression, adherence-dependent superoxide release and platelet MP-mediated neutrophil adherence to immobilized fibrinogen. Our data provide the evidence for the involvement of GPIb–Mac-1 interaction in the cross-talk between platelet MPs and neutrophils.     

The occupancy of glycoprotein IIb-IIIa complex modulates thrombin activation of human platelets

Platelet membrane glycoprotein (GP IIb-IIIa), besides its activity as adhesive protein receptor, displays a number of properties supporting its involvement in the mechanisms of transduction of the activation signal. Recently we have observed that GP IIb-IIIa ligands, mostly fibrinogen, inhibit Ca2+ movement and cytoskeleton reorganization caused by mild platelet activation. These findings led us to investigate the effect of GP IIb-IIIa ligands on agonist-induced platelet responses, with particular attention to the two major messenger generating systems, involving the activation of phospholipase C and the inhibition of cAMP production. In this paper we demonstrate that the occupancy of the major adhesive protein receptor on the platelet surface modulates the phosphatidylinositol cycle decreasing the amount of IP3, IP2 and IP produced after mild platelet activation as well as the pattern of protein phosphorylation. The platelet cAMP content of activated platelets was also affected and kept higher when evaluated under the same experimental conditions. Our data provide evidence for a role of fibrinogen binding in regulating the degree of activation of circulating platelets.