Human platelet antigen-2 and -3 genotyping by PCR-SSP

SUMMARY. Allele-specific PCR using sequence specific primers (PCR-SSP) is a simple and reliable technique to detect point mutations in genes. We have developed a PCR-SSP to enable the detection of a C-T mutation at position 482 of the GPIb gene and a T-G mutation at position 13962 in exon 26 of the GPIIb gene. These point mutations are at the basis of the HPA alloantigens 2a, 2b and 3a, 3b respectively. One primer of each primer set has a 3' nucleotide complementary to the DNA sequence coding for one allele. PCR product is only produced when the corresponding DNA is present and thus the genotype is determined by the presence or absence of a band in agarose electrophoresis of PCR products. A second set of primers in the same reaction yields a product regardless of the HPA genotype to control the efficiency of the PCR amplification. The HPA-2 and -3 genotypes determined in this way were in strict concordance with those established by conventional genotyping using PCR followed by restriction enzyme digestion (PCR-ASRA). PCR-SSP is a rapid and reliable technique that can be used for the determination of alleles which code for platelet alloantigens.     

Human neutrophils increase expression of C3bi as well as C3b receptors upon activation.

We used monoclonal antibodies and flow cytometry to study the expression of the receptors for the complement fragments C3bi (CR3) and C3b (CR1) on human polymorphonuclear neutrophil leukocytes (PMN). Expression of both receptors was minimal on cells stained in anticoagulated whole blood incubated at 0 degree or 37 degrees C. PMN isolated with Percoll density gradients and held at 0 degree C also had only minimal expression of both receptors. With the isolated cells, however, a spontaneous increase in expression of both receptors occurred upon warming to 37 degrees C. This did not represent complete expression of either receptor since additional increments in surface expression could be induced upon stimulation with N-formyl-methionyl-leucyl-phenylalanine or Raji cell supernatant. The increases in complement receptor (CR) expression appeared to be specific since there were no changes in expression of the Fc gamma receptor or beta-2-microglobulin under any of these conditions. The increased CR expression seems to involve translocation from an intracellular pool since it is complete within minutes and is not blocked by puromycin or cycloheximide. These results demonstrate that both CR3 and CR1 expression increase rapidly upon activation of PMN and that isolated cells can be used to study this phenomenon, which may be a critical part of neutrophil function in vivo.     

Blockade of C5a and C5b-9 generation inhibits leukocyte and platelet activation during extracorporeal circulation.

Complement activation contributes to the systemic inflammatory response induced by cardiopulmonary bypass. At the cellular level, cardiopulmonary bypass activates leukocytes and platelets; however the contribution of early (3a) versus late (C5a, soluble C5b-9) complement components to this activation is unclear. We used a model of simulated extracorporeal circulation that activates complement (C3a, C5a, and C5b-9 formation), platelets (increased percentages of P-selectin-positive platelets and leukocyte-platelet conjugates), and neutrophils (upregulated CD11b expression). to specifically target complement activation in this model, we added a blocking mAb directed at the human C5 complement component and assessed its effect on complement and cellular activation. Compared with a control mAB, the anti-human C5 mAb profoundly inhibited C5a and soluble C5b-9 generation and serum complement hemolytic activity but had no effect on C3a generation. Additionally, the anti-human C5 mAb significantly inhibited neutrophil CD11b upregulation and abolished the increase in P-selectin-positive platelets and leukocyte-platelet conjugate formation compared to experiments performed with the control mAb. This suggests that the terminal components C5a and C5b-9, but not C3a, directly contribute to platelet and neutrophil activation during extracorporeal circulation. Furthermore, these data identify the C5 component as a site for therapeutic intervention in cardiopulmonary bypass.     

Markers of platelet activation and apoptosis in platelet concentrates collected by apheresis.

BACKGROUND: A product with well-preserved haemostatic function of platelets is the ultimate goal of platelet concentrate production. However, platelet activation and apoptosis are induced by both collection and storage of platelet concentrates. AIM OF STUDY: Platelet concentrates obtained either by two blood separators with different technology of apheresis (Haemonetics MCS+, Haemonetics Corp. Braintree, USA and Trima Accel, Gambro BCT Inc., Lakewood, USA, respectively) or derived from buffy-coat were compared using evaluation of pH, LDH, lactate, glucose, annexin V, and sP-selectin levels immediately after collecting and at the end of expiration to estimate the differences in the activation and apoptosis of platelets in these products. RESULTS: The lowest degree of platelet activation was found in products obtained by Haemonetics MCS+ apparatus at the time of collection. Platelet concentrates obtained by apheresis revealed higher rise of LDH, annexin V and sP-selectin compared to buffy-coat derived platelets. Products from Haemonetics MCS+ showed higher rise of annexin V in comparison with products from Trima separator. Increase of LDH and sP-selectin in both apheresis products was comparable. CONCLUSIONS: On the basis of changes of sP-selectin and annexin V levels it could be concluded that initial platelet activation, which is induced by apheresis, is very likely without any further impact on quality of platelets during storage. Development of platelet storage lesions is influenced especially by storage conditions and platelet concentration in products.     

Inhibition of human and rabbit platelet activation by Ketotifen

The effects of Ketotifen and disodium cromoglycate were investigated on human and rabbit platelet activation. Ketotifen inhibited dose-dependently human and rabbit platelet aggregation. The paf-acether pathway was the most markedly influenced by Ketotifen in human and rabbit platelets (IC50 = 38.8 +/- 7.7 microM and 7.2 +/- 4.5 microM respectively) as compared to adenosine diphosphate (IC50 greater than 100 microM and 79 +/- 19 microM) and to arachidonic acid (IC50 greater than 100 microM and 98 +/- 28 microM). Similar concentrations of Ketotifen inhibited the ATP release from human platelets induced by paf-acether. Disodium cromoglycate up to 5 x 10(-4) M did not inhibit platelet aggregation induced by paf-acether, adenosine diphosphate and arachidonic acid.     

The phospholipase C inhibitor U73122 inhibits phorbol ester-induced platelet activation

Activation of phospholipase C (PLC) is a central component of the signal transduction process in numerous cells, including platelets. U73122 has been widely used as a selective PLC inhibitor. In the present study, the effects of U73122 on platelet function have been further examined. Platelets were stimulated with collagen (via PLC-gamma), the stable thromboxane mimetic U46619 (via PLC-beta), or phorbol myristate acetate (PMA) via protein kinase C (PKC). Consistent with inhibition of PLC, U73122 inhibited platelet aggregation and [3H]-serotonin release in response to collagen and U46619 in a concentration-dependent manner. Similarly, U73122 blocked collagen-induced release of thromboxane A2. U73122 also inhibited U46619-induced [32P]phosphatidic acid production and phosphorylation of the major PKC substrate, pleckstrin. U73122 had no effect on PMA-induced pleckstrin phosphorylation, [3H]-serotonin release, or intracellular vacuole formation. However, U73122 did inhibit PMA-induced platelet aggregation and fibrinogen binding. Overall, these results suggest that U73122, in addition to its inhibition of PLC, also affects PKC-independent events that interfere with platelet aggregation.     

Abnormal platelet function in C3-deficient mice

Summary.  Background and Objectives:  The complement system is a biochemical cascade composed of several plasma proteins that can interact with endothelial cells and blood cells, including platelets. In order to investigate the effect of the complement system on platelets, we studied platelet function in C3-deficient mice that lack complement activity. Method and Results:  Tail-cut bleeding time was prolonged and platelet aggregation in response to protease-activated receptor-4 (PAR4) peptide was decreased in C3-deficient mice as compared with wild-type littermates. Platelet aggregation in response to other agonists (ADP and collagen) was similar between C3-deficient mice and their normal littermates. Isolated platelets from wild-type mice aggregate less in C3-deficient plasma than in normal plasma, and, conversely, addition of plasma from wild-type mice or plasma-purified C3 improved aggregation of C3-deficient platelets. We also monitored the formation of murine arteriole or venule thrombi in an intravital microscopy thrombosis model. We found that C3-deficient mice had a significantly delayed thrombotic response in arterioles as compared with their wild-type littermates. Furthermore, thrombi in C3-deficient mice were less stable and embolized more frequently than those in wild-type mice. Conclusions:  Platelets of C3-deficient mice have subnormal function, resulting in a prolonged tail-cut bleeding time and delayed thrombosis after vessel wall injury.     

Glycoprotein IIb/IIIa inhibition attenuates platelet-activating factor-induced platelet activation by reducing protein kinase C activity

Summary.  Glycoprotein (GP)IIb/IIIa inhibition may abolish activated leukocyte-induced platelet activation, in which leukocyte-released platelet-activating factor (PAF) is a major mediator. The present study thus investigated if and how GPIIb/IIIa inhibitors interfere with PAF-induced platelet activation. Platelet and leukocyte activation were monitored by flow cytometry and immunoblotting. GPIIb/IIIa inhibitors (c7E3, non-peptide SR121566, and MAb RFGP56) attenuated PAF-induced, but not adenosine diphosphate (ADP)- or thrombin receptor activating peptide ( TRAP)-induced platelet P-selectin expression in whole blood. GPIIb/IIIa blockade enhanced ADP- or TRAP-induced leukocyte CD11b expression, but not the response to PAF. GPIIb/IIIa blockade attenuated PAF-induced, but enhanced ADP- or TRAP-induced platelet–leukocyte aggregation. Under the present experimental conditions, thromboxane A₂ receptor antagonism did not significantly influence PAF-induced platelet activation, and GPIIb/IIIa inhibition did not interfere with calcium mobilization/influx in platelets. Protein kinase C (PKC) blockade inhibited PAF-induced platelet P-selectin expression, and PAF-induced PKC activity was reduced by GPIIb/IIIa inhibition. PAF (=1 µ m ) did not induce MEK 1/2 or ERK 1/2 phosphorylation, whilst thrombin induced marked responses, which were enhanced by GPIIb/IIIa blockade. Thus, GPIIb/IIIa inhibition attenuates PAF-induced platelet activation via inhibiting PKC activity. GPIIb/IIIa blockade enhances thrombin-induced platelet MEK 1/2 and ERK 1/2 activation, and augments ADP- and TRAP-induced leukocyte activation by enhancing platelet–leukocyte aggregation.     

c-Cbl negatively regulates platelet activation by glycoprotein VI

Summary.  Background : The adapter protein c-Cbl has emerged as having a potential role in negative regulation of immune receptor signaling. The major platelet-signaling receptor for collagen, glycoprotein VI (GpVI), is associated with the Fc receptor (FcR) γ-chain, and signals through a similar pathway to immune receptors. c-Cbl is tyrosine-phosphorylated in response to stimulation of GpVI, whereas phosphorylation of c-Cbl in thrombin-activated platelets is dependent on fibrinogen binding to the integrin GpIIb/IIIa. Objective : To investigate the role of c-Cbl in platelet signaling. Methods : Murine platelets lacking functional c-Cbl or Src family kinases were analyzed. Results : Phosphorylation of c-Cbl through GpVI is reduced in murine platelets deficient in the Src-family kinases Fyn and Lyn, demonstrating that they lie upstream of c-Cbl phosphorylation. Phosphorylation of several proteins of the GpVI-signaling pathway, including the FcR γ-chain, Syk and phospholipase Cγ2 (PLCγ2), is increased in the absence of c-Cbl. In line with this, aggregation is potentiated in response to the GpVI-specific collagen-related peptide (CRP) after a slight delay. A delay in potentiation is also seen in response to stimulation by thrombin. Conclusions : These observations demonstrate that c-Cbl negatively regulates platelet responses to GpVI agonists and to thrombin, with the latter effect possibly being mediated downstream of GpIIb/IIIa. c-Cbl may play a physiological role in helping to prevent unwanted platelet activation in vivo .     

Hemostatic parameters and platelet activation by flow-cytometry in normal pregnancy: a longitudinal study

Summary Nineteen pregnant women with uncomplicated pregnancies were studied during the first, second, and third trimesters. We measured the following hemostatic parameters: prothrombin time, activated partial thromboplastin time, fibrinogen, antithrombin III, protein C, protein S, platelet number and volume. Platelet function was examined by a cytofluorimetric method, using an anti-GPM-140 antibody which is directed against a platelet α granule membrane protein. Activated platelets were expressed as a percentage of the GMP-140-positive platelets over total platelets. Fibrinogen levels showed a steady increase during pregnancy; conversely prothrombin time, activated partial thromboplastin time, protein C, and antithrombin III showed no significant modifications and remained within the reference range. There was a decrease of protein S activity throughout pregnancy, although protein S antigen did not follow this trend. The decrease occurred early in pregnancy and persisted during the second and third trimesters, reaching a stable plateau. We observed no platelet volume change or activation: the percentage of activated platelets was within the normal reference range, even in late pregnancy.     

Integrins in platelet activation

Summary.  Heterodimeric receptors of the β1 and β3 integrin families mediate platelet adhesion and aggregation in hemostasis and thrombosis. In resting platelets, integrins are expressed in a low-affinity state but they shift to a high-affinity state and efficiently bind their ligands in response to cellular activation. This review summarizes recent advances in understanding the functional regulation and (patho-) physiological significance of individual platelet integrins with a special focus on studies in genetically modified mice. It is now recognized that β1 and β3 integrins have partially redundant roles in the adhesion process and that their activation is regulated by similar mechanisms, involving Ca²⁺-dependent and -independent signaling events and essential functions of talin-1 and kindlin-3 in the terminal activation step.     

Human C3 mutation reveals a mechanism of dense deposit disease pathogenesis and provides insights into complement activation and regulation

Dense deposit disease (DDD) is a severe renal disease characterized by accumulation of electron-dense material in the mesangium and glomerular basement membrane. Previously, DDD has been associated with deficiency of factor H (fH), a plasma regulator of the alternative pathway (AP) of complement activation, and studies in animal models have linked pathogenesis to the massive complement factor 3 (C3) activation caused by this deficiency. Here, we identified a unique DDD pedigree that associates disease with a mutation in the C3 gene. Mutant C3_923ΔDG, which lacks 2 amino acids, could not be cleaved to C3b by the AP C3-convertase and was therefore the predominant circulating C3 protein in the patients. However, upon activation to C3b by proteases, or to C3(H₂O) by spontaneous thioester hydrolysis, C3_923ΔDG generated an active AP C3-convertase that was regulated normally by decay accelerating factor (DAF) but was resistant to decay by fH. Moreover, activated C3b_923ΔDG and C3(H₂O)_923ΔDG were resistant to proteolysis by factor I (fI) in the presence of fH, but were efficiently inactivated in the presence of membrane cofactor protein (MCP). These characteristics cause a fluid phase–restricted AP dysregulation in the patients that continuously activated and consumed C3 produced by the normal C3 allele. These findings expose structural requirements in C3 that are critical for recognition of the substrate C3 by the AP C3-convertase and for the regulatory activities of fH, DAF, and MCP, all of which have implications for therapeutic developments.     

Diverse functions of protein kinase C isoforms in platelet activation and thrombus formation

Summary. Platelet activation is a complex balance of positive and negative signaling pathways. The protein kinase C (PKC) family is a major regulator of platelet granule secretion, integrin activation, aggregation, spreading and procoagulant activity. As broad‐spectrum PKC inhibitors reduce secretion and aggregation, the PKC family is generally considered to be a positive regulator of platelet activation. However, the individual members of the PKC family that are expressed in platelets are regulated in different ways, and an increasing body of evidence indicates that they have distinct, and often opposing, roles. Many of the recent advances in understanding the contributions of individual PKC isoforms have come from mouse gene knockout studies. PKCα, a classic isoform, is an essential positive regulator of granule secretion and thrombus formation, both in vitro and in vivo. Mice lacking PKCα show much reduced thrombus formation in vivo but do not have a bleeding defect, suggesting that PKCα could be an attractive antithrombotic target. Important, apparently non‐redundant, roles, both positive and negative, for the novel PKC isoforms δ, θ and ε in granule secretion have also been proposed, indicating highly complex regulation of this essential process. Similarly, PKCβ, PKCδ and PKCθ have non‐redundant roles in platelet spreading, as absence of either PKCβ or PKCθ reduces spreading, whereas PKCδ negatively regulates filopodial formation. This negative signaling by PKCδ may reduce platelet aggregation and so restrict thrombus formation. In this review, we discuss the current understanding of the regulation and functions of individual PKC isoforms in platelet activation and thrombus formation.     

Human Lymphocytes Bear Membrane Receptors for C3b and C3d

Human peripheral blood lymphocytes have membrane receptors for EAC43b (sheep erythrocytes sensitized with antibody and complement) and also for EAC43d, obtained by treating EAC43b with C3b inactivator. Human granulocytes bind only EAC43b, C3 fragments obtained by limited trypsin digestion of purified human C3 display both C3b and C3d sites, since they inhibit rosette formation of lymphocytes with EAC43b and EAC43d. These findings raise the possibility that C3b and C3d receptor sites may be selectively distributed among normal subpopulations of B lymphocytes as well as among leukemic leukocytes.     

Human genes for three complement components that regulate the activation of C3 are tightly linked

A new cluster of complement component genes, including C4BP, C3bR, and FH, is described. Family segregation data indicate that FH is linked to the genes for C4-bp and C4bR, previously reported to be linked and to maintain linkage disequilibrium. This cluster is not linked to the major histocompatibility complex, which contains the genes for the complement components, C4, C2, and factor B, or to the C3 locus. These data further suggest that the organization of genes for functionally related proteins in clusters may be a rule for the complement system.     

管状材料对血小板激活作用的体外评价

背景:ISO10993-4及GB/T 16886.4中将血液相容性的评价分为5个方面:血栓形成、凝血、血小板、补体、血液学.目前国内较为确定和成熟的体外血液相容体外评价方法有溶血试验、凝血试验及血小板黏附试验,而对血小板激活及补体系统激活方面的研究很少.目的:评价聚乙烯、聚氯乙烯及聚甲基乙烯基硅氧烷3种基础材料管在体外对血小板的激活作用,初步建立一种体外评价管状材料对血小板激活作用的方法.方法:制备聚氯乙烯管、聚乙烯管、硅橡胶管的内径3.7 mm,外径5 mm,长35 cm.每管1 mL血液注入聚乙烯、聚氯乙烯、硅橡胶管,管的两端用两通连接,置于恒温培养振荡器中,30°倾斜,接口向上,37℃,140 r/min,振荡3.5 h.放射免疫法检测材料与血液接触后贫血小板血浆中血小板α颗粒蛋白水平,流式细胞仪检测材料与血液接触后血液中血小板α颗粒蛋白阳性血小板百分率、活化的gpⅡb/Ⅲa复合物阳性血小板百分率.结果与结论:放射免疫法检测结果显示聚乙烯、聚氯乙烯管与血液接触后贫血小板血浆中血小板α颗粒蛋白水平大于硅橡胶管(P<0.05).聚乙烯和聚氯乙烯管与血液接触后贫血小板血浆中血小板α颗粒蛋白水平差异无显著性意义(P>0.05).流式细胞术检测结果显示聚乙烯、聚氯乙烯管与血液接触后血液中血小板α颗粒蛋白阳性血小板百分率大于硅橡胶管(P<0.05),聚乙烯管与血液接触后血液中血小板α颗粒蛋白阳性血小板百分率大于聚氯乙烯管(P<0.05).3种材料与血液接触后血液中活化的gpⅡb/Ⅲa复合物阳性血小板百分率差异无显著性意义(P>0.05).实验初步建立一种管材料与血液较为合理的接触方式,并可以考虑血浆血小板Ⅲα颗粒蛋白是较好的反映血小板激活程度的评价指标.用流式细胞术检测血浆血小板α颗粒蛋白阳性血小板百分率更为敏感.     

Molecular basis of platelet activation by an αIIbβ3-CHAMPS peptide

Summary.  Background:  A novel method, known as computed helical anti-membrane protein (CHAMP), for the design of peptides that bind with high affinity and selectivity to transmembrane helices was recently described and illustrated using peptides that bind αIIb- and αv-integrin subunits, which induce selective activation of integrins αIIbβ3 and αvβ3, respectively [ 1 ]. Objectives:  In the present study, we have investigated the ability of an αIIb-CHAMPS peptide (termed integrin-activatory-peptide or IAP) to stimulate protein tyrosine phosphorylation and aggregation in human and mouse platelets. Methods:  The ability of IAP to stimulate platelet aggregation and dense granule secretion was measured in washed preparations of human and mouse platelets. Samples were taken for measurement of tyrosine phosphorylation. Results:  IAP stimulates robust tyrosine phosphorylation of the tyrosine kinase Syk and the FcR γ-chain, but only weak phosphorylation of PLCγ2. Aggregation to low but not high concentrations of IAP is reduced in the presence of the Src kinase inhibitor, PP1, or by inhibitors of the two feedback agonists, ADP and thromboxane A₂ (TxA₂) suggesting that activation is reinforced by Src kinase-driven release of ADP and TxA₂. Unexpectedly, aggregation by IAP is only partially inhibited in human and mouse platelets deficient in integrin αIIbβ3. Further, IAP induces partial aggregation of formaldehyde-fixed platelets. Conclusions:  The present study demonstrates that the αIIb-CHAMPS peptide induces platelet activation through integrin αIIbβ3-dependent and independent pathways with the former mediating tyrosine phosphorylation of FcR γ-chain and Syk. The use of the αIIb-CHAMPS peptide to study integrin αIIbβ3 function is compromised by non-integrin-mediated effects.     

Human platelet alloantigens.

Antibody formation against alloantigens of the human platelet membrane is responsible for clinical syndromes and transfusion related conditions as neonatal alloimmune thrombocytopenia (NAIT), post-transfusion purpura (PTP), platelet transfusion refractoriness (PTR) and passive alloimmune thrombocytopenia. Moreover, rare cases of alloimmune reactions involving platelets have been observed after transplantation of hematopoietic stem cells. Among alloantigens of the platelet membrane shared with other cells (type I alloantigens) are the glycoconjugates of the ABO system and class I human leukocyte antigen (HLA) antigens. Antibodies against these structures are responsible for PTR and for febrile nonhemolytic transfusion reactions. Antibodies against type II antigens (formerly termed "platelet specific antigens") have been observed in NAIT, PTP and passive alloimmune thrombocytopenia. ABH antigens have been identified on intrinsic platelet membrane glycoproteins. Moreover, it is now clear that HLA class I antigens are an integral part of the platelet membrane. The quantity of both HLA and ABH-antigen expression on the platelet membrane varies considerably. Single point mutations account for almost all platelet specific alloantigens, but most antigenic determinants seem to depend upon glycoprotein conformation: generally, platelet specific alloantibodies fail to recognize synthetic peptides encompassing the polymorphic residues. Restriction fragment polymorphism analysis and allele-specific PCR have been implemented for genotyping of platelet alloantigens in many laboratories. Antigen specific assays using monoclonal antibodies (MAIPA, immunobead assay) became de facto standard for diagnosis of platelet antibodies in serum/plasma samples. It can be expected that innovative techniques as human alloantibody fragments produced by phage display technique and the production of recombinant antigens will allow rapid and reliable phenotyping and antibody detection in the future.