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Stephanie M Jung, Masaaki Moroi,
Kenji Soejima,
Tomohiro Nakagaki,
Yoshiki Miura,
Michael C Berndt,
Elizabeth E Gardiner,
Joanna-Marie Howes,
Nicholas Pugh,
Dominique Bihan,
Steve P Watson,
Richard W Farndale
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ABSTRACT: The platelet collagen receptor glycoprotein VI (GPVI) has been suggested to function as a dimer, with increased affinity for collagen. Dissociation constants (K(d)) obtained by measuring recombinant GPVI binding to collagenous substrates showed that GPVI dimers bind with high affinity to tandem GPO (Gly-Pro-Hyp) sequences in collagen, whereas the markedly lower affinity of the monomer for all substrates implies that it is not the collagen-binding form of GPVI. Dimer binding required a high density of immobilized triple-helical (GPO)(10)-containing peptide, suggesting that the dimer binds multiple, discrete peptide helices. Differential inhibition of dimer binding by dimer-specific antibodies, m-Fab-F and 204-11 Fab, suggests that m-Fab-F binds at the collagen-binding site of the dimer, and 204-11 Fab binds to a discrete site. Flow cytometric quantitation indicated that GPVI dimers account for ~29% of total GPVI in resting platelets, whereas activation by either collagen-related peptide or thrombin increases the number of dimers to ~39 and ~44%, respectively. m-Fab-F inhibits both GPVI-dependent static platelet adhesion to collagen and thrombus formation on collagen under low and high shear, indicating that pre-existing dimeric GPVI is required for the initial interaction with collagen because affinity of the monomer is too low to support binding and that interaction through the dimer is essential for platelet activation. These GPVI dimers in resting circulating platelets will enable them to bind injury-exposed subendothelial collagen to initiate platelet activation. The GPVI-specific agonist collagen-related peptide or thrombin further increases the number of dimers, thereby providing a feedback mechanism for reinforcing binding to collagen and platelet activation.
Journal of Biological Chemistry 07/2012; 287(35):30000-13. · 4.77 Impact Factor
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ABSTRACT: Platelets in flowing blood at high-shear stress are recruited to exposed subendothelial collagen of injured vessels by GPIb-von Willebrand factor (vWf) and integrin alpha(2)beta(1) (alpha(2)beta(1))-collagen interactions. Platelet adhesion to type I collagen depends mainly on the alpha(2)beta(1)-collagen interaction and that to type III collagen depends on the GPIb-vWf interaction due to vWf's weak affinity for type I collagen. Contributions of these two interactions would differ depending on expressions of alpha(2)beta(1), vWf, or GPIb. We quantitated platelet adhesion to low- and high-density collagen under high-shear flow conditions in the presence of anti-alpha(2)beta(1) (Gi9) and anti-GPIb (NNKY5-5) antibodies to determine if their inhibitory effects were correlated with the amounts of alpha(2)beta(1), GPIb and vWf. Gi9 inhibition of adhesion to type I collagen was decreased in platelets with more integrin alpha(2)beta(1). Gi9 and NNKY5-5 are more inhibitory against adhesion to low-density type III and I, respectively. Higher alpha(2)beta(1) expression decreases adhesion to low-density type III and increases Gi9 inhibition of adhesion to high-density type III, suggesting crosstalk between the alpha(2)beta(1)-collagen and GPIb-vWf interactions in adhesion to type III. Integrin alpha(2)beta(1)-collagen and GPIb-vWf interactions both contribute to platelet adhesion to collagen under high-shear flow. In adhesion under high-shear stress, the two interactions would compensate for each other, when there is a deficiency in one or the other. The alpha(2)beta(1)-collagen interaction was also suggested to have an inhibitory effect on platelet adhesion to type III collagen, through a yet undefined mechanism.
Platelets 01/2010; 21(2):101-11. · 1.85 Impact Factor
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ABSTRACT: Recent experimental evidence demonstrates that the platelet-specific collagen receptor, glycoprotein (GP)VI is essentially all uncleaved on normal circulating platelets, but is shed from the platelet surface in a metalloproteinase-dependent manner in response to GPVI ligands (including collagen), anti-GPVI antibodies or activation at the platelet Fc receptor, FcgammaRIIa. This raises the question of whether shed ectodomain fragment in plasma could be a useful biomarker of thrombotic risk and/or autoimmune thrombocytopenia. In this study, we developed a sandwich enzyme-linked immunosorbent assay (ELISA) for measuring soluble GPVI in human plasma, using rabbit anti-GPVI polyclonal antibody in the solid-phase, murine anti-GPVI monoclonal antibody (1A12) in the fluid-phase and horseradish peroxidase (HRP)-coupled anti-mouse antibody and enhanced chemiluminescence (ECL) for detection. The ELISA was optimized for sensitivity, reproducibility, inter- and intra-assay precision, addition and recovery and detected GPVI in plasma with a lower detection limit of approximately 1 ng/mL. Effects of different anti-coagulants (trisodium citrate, acid-citrate-dextrose or EDTA) were negligible. In ten healthy donors, soluble plasma GPVI levels were 18.9 +/- 4.1 ng/mL. Treating normal platelet-rich plasma with a GPVI ligand (collagen-related peptide, CRP), calmodulin inhibitor W7 (that induces GPVI shedding without platelet activation) or N-ethylmaleimide (that directly activates platelet sheddases), under conditions previously shown to induce GPVI shedding, also increased plasma GPVI levels by up to approximately 7-fold, compared to previously reported autoimmune (anti-GPVI) patient plasma where soluble GPVI was approximately 10-fold higher than normal. Characterization of this sensitive ELISA should facilitate analysis of functional/diagnostic role(s) for soluble GPVI in human plasma associated with thrombotic/immune dysfunction.
Platelets 06/2009; 20(3):143-9. · 1.85 Impact Factor
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ABSTRACT: Adhesion of circulating platelets to the blood vessel wall initiates thrombus formation in haemostasis and thrombotic disease. The platelet collagen receptor, glycoprotein (GP) VI, is critical for thrombus formation at arterial shear rates and is a potential therapeutic target for anti-thrombotic drugs. In this study, we evaluate eight newly-derived, purified murine anti-human GPVI monoclonal antibodies (mAbs) for their effect on GPVI-dependent platelet aggregation and GPVI ectodomain shedding. All mAbs were raised against the ligand-binding GPVI ectodomain encompassing two immunoglobulin domains (residues 21-234, excluding the signal sequence) and recognized full-length GPVI in human platelet lysates by western blotting. The majority of antibodies induced aggregation in both human platelet-rich plasma (PRP) and washed platelets independently of the Fc receptor, FcgammaRIIa (not inhibited by the blocking anti-FcgammaRIIa mAb, IV.3), whereas one mAb (11A7) neither induced aggregation nor inhibited aggregation in response to GPVI ligands, collagen, and collagen-related peptide (CRP). In contrast, Fab fragments of mAb 12A5 strongly blocked collagen- and CRP-, but not convulxin-induced aggregation. In addition, it is shown for the first time in vitro that anti-GPVI mAbs can induce metalloproteinase-dependent ectodomain shedding of human GPVI, generating an approximately 10-kDa remnant that remained platelet-associated and an approximately 55-kDa soluble fragment. In conclusion, this analysis of anti-GPVI mAbs provides useful tools for studying the functional role of platelet GPVI.
Platelets 04/2009; 20(2):75-82. · 1.85 Impact Factor
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ABSTRACT: Transcription factor binding sites are short DNA sequences that interact with transcription factors and the proper control of gene expression appears to require the mechanisms including the regulation through the genome context around the transcription factor binding sites. The MYC proteins are central regulators of cell growth. Many genes have been reported to be regulated by MYC through E-box sites. However, the characters of E-box that Myc selects to function are not clear and identification of additional genes controlled by MYC will provide information to completely understand the functions of MYC. Here we report that MYC directly induces TAF4b expression. We mapped the transcription start site and characterized functional promoter elements for MYC response in the TAF4b promoter. There are several E-box sequences near the transcription start site, including canonical (CACGTG) and non-canonical (CGCGTG) ones. We found that c-MYC induces TAF4b expression through one of the non-canonical E-box sites, which is in a highly conserved region of TAF4b promoters in mammals, suggesting the importance of the genome context around the target E-box. When the non-canonical E-box in the TAF4b promoter was mutated to a canonical one, MYC functioned on both E-boxes, while another E-box-binding transcription factor, USF, did so on only the canonical E-box. These results suggest that in addition to the context where the target E-box exists, a sequence within an E-box is involved in the mechanisms by which specific E-box sites are selected by Myc.
International Journal of Oncology 01/2009; 33(6):1271-80. · 2.40 Impact Factor
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ABSTRACT: Megakaryocytes (MKs) and platelet-like particles (PLPs) have generally been obtained by culturing embryonic stem (ES) cells over feeder cells. However, using feeder cells need many labor-consuming processes and the MK and PLP fractions obtained are often contaminated by such cells and their fragments. Here we describe our new culture system for differentiating mouse ES cells to MKs and PLPs without using feeder cells. ES cells are differentiated to cells with MK-like morphology and properties, including proplatelet formation, high ploidy (>8N), and CD41 expression. The culture medium contained PLPs expressing platelet glycoproteins, CD41 and GPIb. Integrin alpha(IIb)beta(3) of PLPs can be activated by thrombin. Addition of the metalloproteinase inhibitor TAPI-2 to the culture increased the surface expression of GPIbalpha and augmented the adhesion of PLPs to immobilized von Willebrand factor through decreasing the shedding of GPIbalpha. Thus our mouse ES cells culture system is a suitable and efficient method for obtaining MKs and functional PLPs that obviates the need for feeder cells.
The Kurume Medical Journal 01/2009; 56(3-4):61-9.
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ABSTRACT: Of the two physiologically important platelet collagen receptors, glycoprotein (GP) VI is the receptor responsible for platelet activation. However, its reactivities towards different types of vascular collagen have not been directly and quantitatively analysed with collagen preparations of defined composition, although the other major platelet collagen receptor integrin alpha(2)beta(1) was shown to react with collagen types I-VI and VIII under either static or flow conditions. We analysed the collagen type specificity of GPVI binding to identify the physiological contribution of the various vascular collagens and how platelet reactivity towards the various collagens may be affected by fibril size. We used two methods to analyse the binding of recombinant GPVI (GPVI-Fc(2)) to different types of bovine collagen: binding to collagen microparticles in suspension and binding to immobilized collagen. GPVI-Fc(2) bound to type I-III collagens that can form large fibrils, but not to type V that only forms small fibrils. The apparent GPVI binding to types IV and V could be ascribed to type I collagen that was a contaminant in each of these preparations. Kinetic analyses of the binding data showed that type III collagen fibrils have both a higher Kd and Bmax than types I and II. Flow adhesion studies demonstrated that type III collagen supports the formation of larger platelet aggregates than type I. Our present results suggest that the physiological importance of type III collagen is to induce thrombus formation. Furthermore, these studies indicate that GPVI mainly binds to collagen types that can form large collagen fibrils.
Platelets 03/2008; 19(1):32-42. · 1.85 Impact Factor
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ABSTRACT: Glycoprotein VI (GPVI) is a membrane glycoprotein unique to platelets and has been identified as a physiological receptor for collagen. Damage to a vessel wall exposes the subendothelial component collagen to platelets in the blood flow. Interaction of platelets with collagen via the receptor GPVI results in platelet activation and adhesion--the processes that are essential for thrombus formation. On the platelet surface, GPVI is present as a complex with the homodimeric Fc receptor y-chain (FcRgamma with a possible stoichiometry of two GPVI molecules and one FcRgamma dimer). When collagen binds to GPVI, a platelet activation cascade is initiated by tyrosine phosphorylation of the immunoreceptor tyrosine-based activation motif of FcRgamma and this phosphorylation induces the formation of a large complex composed from many signal-transducing proteins. In flow adhesion experiments that closely approximate physiological conditions, GPVI is essential for the formation of large platelet aggregates on collagen. However, GPVI-deficient patients or mice do not show any severe bleeding tendency. This suggests that a GPVI inhibitor would be able to inhibit thrombus formation but still not cause a significant bleeding tendency. Such an inhibitor would show promise as an anti-thrombotic agent for clinical use.
Advances in experimental medicine and biology 02/2008; 640:53-63. · 1.09 Impact Factor
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ABSTRACT: Glycoprotein (GP)VI, that binds collagen, together with GPIb-IX-V which binds vonWillebrand factor, forms an adheso-signalling complex on platelets that initiates thrombus formation in haemostasis and thrombosis. In this study, we show that two snake venom metalloproteinases, crotarhagin and alborhagin, induce ectodomain shedding of GPVI by a mechanism that involves activation of endogenous platelet metalloproteinases. Alborhagin is a viper venom metalloproteinase from Trimeresurus albolabris, while crotarhagin is a previously undescribed toxin from the rattlesnake Crotalus horridus horridus ( approximately 60-kDa non-reduced and reduced). Like alborhagin, crotarhagin induces aggregation in human platelet-rich plasma (maximal activity, approximately 0.3 microg/ml). Aggregation of washed platelets was inhibited by soluble GPVI ectodomain expressed as an Fc-fusion protein, confirming crotarhagin targeted GPVI. Treating washed platelets with crotarhagin or alborhagin resulted in time-dependent loss of surface GPVI and the appearance of an approximately 55-kDa soluble GPVI fragment in supernatants. Crotarhagin also induced shedding in GPVItransfected RBL-2H3 cells. Crotarhagin-induced shedding was metalloproteinase-dependent (inhibited by EDTA), but also blocked by inhibitors of GPVI signalling (Src kinase inhibitors, PP1 or PP2, or Syk inhibitor, piceatannol), indicating shedding required GPVI-dependent platelet activation. Together, the data suggest that the rattlesnake metalloproteinase, crotarhagin, and the viper toxin alborhagin, induce GPVI shedding by a mechanism involving activation of endogenous platelet metalloproteinases rather than direct cleavage of GPVI.
Thrombosis and Haemostasis 01/2008; 98(6):1285-90. · 5.04 Impact Factor
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ABSTRACT: Glycoprotein VI (GPVI) is a membrane glycoprotein unique to platelets and has been identified as a physiological receptor
for collagen. Damage to a vessel wall exposes the subendothelial component collagen to platelets in the blood flow. Interaction
of platelets with collagen via the receptor GPVI results in platelet activation and adhesion-the processes that are essential
for thrombus formation. On the platelet surface, GPVI is present as a complex with the homodimeric Fc receptor γ-chain (FcRγ
with a possible stoichiometry of two GPVI molecules and one FcRγ dimer). When collagen binds to GPVI, a platelet activation
cascade is initiated by tyrosine phosphorylation of the immunoreceptor tyrosine-based activation motif of FcRγ and this phosphorylation
induces the formation of a large complex composed from many signal-transducing proteins. In flow adhesion experiments that
closely approximate physiological conditions, GPVI is essential for the formation of large platelet aggregates on collagen.
However, GPVI-deficient patients or mice do not show any severe bleeding tendency. This suggests that a GPVI inhibitor would
be able to inhibit thrombus formation but still not cause a significant bleeding tendency. Such an inhibitor would show promise
as an anti-thrombotic agent for clinical use.
12/2007: pages 53-63;
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ABSTRACT: The extracellular matrix protein, laminin, supports platelet adhesion through binding to integrin alpha6beta1 In the present study, we demonstrate that human laminin, purified from placenta, also stimulates formation of filopodia and lamellipodia in human and mouse platelets through a pathway that is dependent on alpha6beta1 and the collagen receptor GPVI. The integrin alpha6beta1 is essential for adhesion to laminin, as demonstrated using an alpha6-blocking antibody, whereas GPVI is dispensable for this response, as shown using "knockout" mouse platelets. On the other hand, lamellipodia formation on laminin is completely inhibited in the absence of GPVI, although filopodia formation remains and is presumably mediated via alpha6beta1 Lamellipodia and filopodia formation are inhibited in Syk-deficient platelets, demonstrating a key role for the kinase in signaling downstream of GPVI and integrin alpha6beta1 GPVI was confirmed as a receptor for laminin using surface plasmon resonance spectroscopy and by demonstration of lamellipodia formation on laminin in the presence of collagenase. These results identify GPVI as a novel receptor for laminin and support a model in which integrin alpha6beta1 brings laminin to GPVI, which in turn mediates lamellipodia formation. We speculate that laminin contributes to platelet spreading in vivo through a direct interaction with GPVI.
Blood 03/2006; 107(4):1405-12. · 9.90 Impact Factor
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ABSTRACT: The abundant Rap1 in platelets becomes activated when these cells are stimulated by various agonists, but its function has remained unknown. In view of this, we developed an assay to quantitatively measure activated Rap1 and used it to determine relationships between Rap1 activation and several platelet functions: integrin alpha2beta1 activation, tyrosine phosphorylation, and the release reaction. We looked at how these processes are affected by the protein kinase C inhibitor BIMI, tyrosine kinase inhibitor PP2, PI 3-kinase inhibitor wortmannin, and ADP scavenger apyrase. In CRP (collagen related peptide)-activated platelets, all the inhibitors severely inhibited Rap1 activation, but had little effect on integrin alpha2beta1 activation, indicating that the integrin activation mechanism is different from the Rap1 activation mechanism, at least in GPVI-dependent activation. With p85alpha-null mouse platelets, we demonstrated that Rap1 activation involves PI 3-kinase p85alpha-dependent tyrosine phosphorylation. All the inhibitors similarly decreased Rap1 activation and the serotonin release reaction, and the inhibition of Rap1 activation was not due to the lack of released ADP. Our results indicate that platelet Rap1 activation is closely related to the release reaction and not to integrin alpha2beta1 activation in GPVI-mediated platelet activation.
Thrombosis Research 02/2006; 118(4):509-21. · 2.44 Impact Factor
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ABSTRACT: Using recombinant human glycoprotein VI (GPVI), we evaluated the effect of N-linked glycosylation at the consensus site Asparagine92-Glycine-Serine94 (N92GS94) on binding of this platelet-specific receptor to its ligands, human type I collagen, collagen-related peptide (CRP), and the snake venom C-type lectin convulxin (CVX). In COS-7 cells transiently transfected with GPVI, deglycosylation with peptide-N-glycosidase F (PNGase F; specific for complex N-linked glycans) or tunicamycin decreases the molecular weight of GPVI and reduces transfected COS-7 cell binding to both CRP and CVX. In stably transfected Dami cells, the substitutions N92A or S94A, but not L95H, resulted in a 30% to 40% decrease in adhesion to CVX, but a 90% or greater decrease in adhesion to CRP and a 65% to 70% decrease in adhesion to type I collagen. Treatment with PNGase F, but not Endoglycosidase H (Endo H) (specific for high-mannose N-linked glycans), produced an equivalent decrease in molecular weight. Neither N92A nor S94A affected the expression of GPVI, based on the direct binding of murine anti-human GPVI monoclonal antibody 204-11 to transfected Dami cells. These findings indicate that N-linked glycosylation at N92 in human GPVI is not required for surface expression, but contributes to maximal adhesion to type I collagen, CRP and, to a lesser extent, CVX.
Blood 11/2005; 106(8):2744-9. · 9.90 Impact Factor
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ABSTRACT: Glycoprotein VI (GPVI) is an essential platelet receptor for collagens that is exclusively expressed in the megakaryocytic lineage. Transcription of the human gene GP6 is driven largely by GATA-binding protein 1 (GATA-1), specificity protein 1 (Sp1), and Friend leukemia integration 1 (Fli-1). In this report, we show that GPVI expression during megakaryocytic differentiation is dependent on cytosine-phosphate-guanosine (CpG) demethylation that can be initiated by thrombopoietin (TPO). Sodium bisulfite genomic sequencing established that a CpG-rich island within the GP6 promoter region is fully methylated at 10 CpG sites in GPVI-nonexpressive cell lines, such as UT-7/EPO and C8161, but completely unmethylated in GPVI-expressive cell lines, including UT-7/TPO and CHRF288-11. To further confirm the relationship between CpG demethylation and expression of GPVI in primary cells, we treated human cord blood cells with TPO. The GP6 promoter is highly methylated in cord blood mononuclear cells (progenitors) but not in CD41+-enriched cells obtained after TPO differentiation. Furthermore, when UT-7/EPO-Mpl cells, which stably express human C-myeloproliferative leukemia virus ligand (c-Mpl), were treated with TPO, demethylation of the GP6 promoter was induced. In every case, demethylation of the GP6 promoter correlated with an increase in mRNA level. Thus, megakaryocyte-specific expression of the GP6 gene is regulated, in part, by CpG demethylation, which can be directly initiated by TPO.
Blood 06/2005; 105(10):3888-92. · 9.90 Impact Factor
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ABSTRACT: Glycoprotein VI (GPVI) is an essential platelet collagen receptor; therefore, the inhibition of GPVI-collagen interactions may be an attractive antithrombotic strategy. We have previously shown that targeting of GPVI with antibodies leads to the depletion of the receptor and to long-term antithrombotic protection in mice. An alternative agent to interfere with GPVI-collagen interactions might be soluble GPVI acting as a competitive inhibitor, thereby averting undesired effects on platelets. To test this, we expressed soluble dimeric human GPVI, comprising the extracellular domain of the receptor fused to the human immunoglobulin Fc domain (GPVI-Fc), and compared its antithrombotic potential with that of anti-GPVI antibodies in mice. In contrast to a recent report, we found by intravital fluorescence microscopy and ultrasonic flow measurements that GPVI-Fc had no effect on platelet adhesion and thrombus formation at the injured arterial wall, whereas anti-GPVI antibodies profoundly inhibited these processes. Similar results were obtained with a fusion protein comprising the extracellular domain of mouse GPVI and human IgG-Fc. This indicates that direct targeting of GPVI provides significantly stronger protection against arterial thrombosis than soluble GPVI dimer.
Blood 03/2005; 105(4):1492-9. · 9.90 Impact Factor
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ABSTRACT: Plasma von Willebrand factor (VWF) has been identified as an indispensable factor for platelet adhesion and thrombus formation on a collagen surface under flow conditions. VWF binds to collagen and then tethers platelets to the collagen surface through interaction with platelet glycoprotein Ib and also contributes to the thrombus formation on the collagen surface. In the present study, we demonstrated that the addition of VWF/factor VIII complex or purified VWF (> 2 ristocetin cofactor activity units/mL) increased platelet adhesion to the collagen surface in platelet-reduced blood ( approximately 5 x 10(4) platelets/microL) to the normal level. VWF had no stimulatory effect when it was allowed to bind to the collagen surface before blood flow was initiated. Addition of an excess of FITC (fluorescein-5-isothiocyanate)-labeled VWF to platelet-reduced blood under these flow conditions demonstrated that the VWF was mainly incorporated into the platelet aggregates. These results indicated that the supplemented VWF stimulates the platelet adhesion onto the collagen surface by enhancing platelet aggregation in the platelet-reduced condition. This also suggests a possibility that supplementation of VWF to individuals with thrombocytopenia might be effective for increasing their hemostatic potential.
Blood 03/2005; 105(3):1078-84. · 9.90 Impact Factor
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ABSTRACT: Glycoprotein (GP) VI is a platelet membrane protein with a molecular weight of 62 kDa that was identified as a physiological collagen receptor from studies of patients deficient in this protein. GPVI-deficient platelets lacked specifically collagen-induced aggregation and the ability to form thrombi on a collagen surface under flow conditions, suggesting that GPVI makes an indispensable contribution to collagen-induced platelet activation. On the platelet surface, GPVI is present as a complex with the Fc receptor (FcR) gamma-chain, probably composed of two GPVI molecules and one FcR gamma-chain dimer. GPVI must form such a dimeric complex to exhibit high affinity binding to collagen. The GPVI-induced activation mechanism is initiated by tyrosine phosphorylation of the immunoreceptor tyrosine-based activation motif (ITAM) of the FcR gamma-chain, and then this signal is transduced to many related proteins, mainly by tyrosine phosphorylation. GPVI is widely recognized as a requisite factor for the formation of platelet aggregates on a collagen surface under blood flow. However, individuals with GPVI-deficient or null platelets do not exhibit any strong bleeding tendency. Analyzing this apparent dichotomy should provide us with a more precise understanding of the mechanism of thrombus formation.
Thrombosis Research 02/2004; 114(4):221-33. · 2.44 Impact Factor
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Methods in molecular biology (Clifton, N.J.) 02/2004; 273:105-14.
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Denise Best,
Yotis A Senis,
Gavin E Jarvis,
Helen J Eagleton,
David J Roberts,
Takashi Saito,
Stephanie M Jung, Masaaki Moroi,
Paul Harrison,
Fiona R Green,
Steve P Watson
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ABSTRACT: We have investigated the density of the collagen receptors glycoprotein VI (GPVI) and alpha 2 beta 1 on human platelets and their relationship to polymorphisms within the GPVI gene. GPVI levels varied 1.5-fold and showed a weak correlation (r = 0.35) with the levels of alpha 2 beta 1, which varied 3-fold. GPVI genotype had a significant effect on receptor levels with carriers of the proline 219 allele (approximately 22% of the population) having 10% lower GPVI levels than the more common serine homozygotes. GPVI and alpha 2 beta 1 levels were found to be significantly decreased on platelets from patients with myeloproliferative disorders (MPDs). In both the MPD and the control group, GPVI levels were found not to affect platelet function under high shear in whole blood. Similarly murine platelets that express up to 5-fold lower levels of GPVI showed no significant difference than controls in thrombus formation on a high-density collagen-coated surface. However platelets lacking the GPVI/Fc receptor gamma-chain (FcR gamma-chain) complex or a functional FcR gamma-chain (immunoreceptor tyrosine-based activation motif [ITAM] point mutant) exhibited severely abrogated thrombus formation at 800 s-1 and 1500 s-1. These results demonstrate that GPVI levels are tightly controlled and play a critical role in thrombus formation on collagen; nevertheless, a range of receptor densities can support platelet function under high shear.
Blood 11/2003; 102(8):2811-8. · 9.90 Impact Factor
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Naohide Watanabe,
Hideaki Nakajima,
Hidenori Suzuki,
Atsushi Oda,
Yumiko Matsubara, Masaaki Moroi,
Yasuo Terauchi,
Takashi Kadowaki,
Harumi Suzuki,
Shigeo Koyasu,
Yasuo Ikeda,
Makoto Handa
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ABSTRACT: Phosphoinositide 3-kinases (PI3Ks), a family of lipid kinases comprising 3 classes with multiple isoforms, have been shown to participate in different phases of platelet signaling. To investigate the roles that enzymes play in platelet function in vivo and determine which isoforms are important for particular signaling events, we analyzed platelet function of gene knockout mice deficient in the p85alpha regulatory subunit of heterodimeric class IA PI3K. The kinase activity of p85alpha-/- platelets was only 5% of the activity of platelets from wild-type littermates. Platelet aggregation induced by adenosine diphosphate (ADP), thrombin, U46619, phorbol 12-myristate 13-acetate (PMA), or botrocetin was not defective in p85alpha-/- mice, compared with wild-type animals. In contrast, aggregation induced by collagen and collagen-related peptide (CRP) was partially but readily impaired in p85alpha-/- mice. Both P-selectin expression and fibrinogen binding in response to CRP were also decreased to a similar extent in p85alpha-/- platelets. Platelets from p85alpha-/- mice appeared to spread poorly over a CRP-coated surface with intact filopodial protrusions. Significant attenuation of CRP-induced tyrosine phosphorylation in known PI3K effectors such as Btk, Tec, PKB/Akt, and phospholipase Cgamma2 were observed with p85alpha-/- platelets, whereas no alteration was noted in upstream molecules of Syk, LAT, and SLP-76. Considered as a whole, these results provide the first genetic evidence that PI3K p85alpha plays a significant role in platelet function, almost exclusively in the glycoprotein (GP) VI/Fc receptor gamma chain complex-mediated signaling pathway.
Blood 08/2003; 102(2):541-8. · 9.90 Impact Factor
