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Masaaki Moroi - One of the best experts on this subject based on the ideXlab platform.
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dimers of the platelet collagen receptor glycoprotein vi bind specifically to fibrin fibers during clot formation but not to intact fibrinogen
Journal of Thrombosis and Haemostasis, 2021Co-Authors: Masaaki Moroi, Richard W Farndale, Isuru Induruwa, Stephanie M JungAbstract:OBJECTIVE The platelet collagen receptor glycoprotein VI (GPVI) has an independent role as a receptor for fibrin produced via the coagulation cascade. However, various reports of GPVI binding to immobilized fibrin(ogen) are not consistent. As a collagen receptor, GPVI-dimer is the functional form, but whether GPVI dimers or monomers bind to fibrin remains controversial. To resolve this, we analyzed GPVI binding to nascent fibrin clots, which more closely approximate physiological conditions. METHODS AND RESULTS ELISA using biotinyl-fibrinogen immobilized on streptavidin-coated wells indicated that GPVI dimers do not bind intact fibrinogen. Clots were formed by adding thrombin to a mixture of near-plasma level of fibrinogen and recombinant GPVI ectodomain: GPVI dimer (GPVI-Fc2 or Revacept) or monomer (GPVI-His: single chain of Revacept GPVI domain, with His tag). Clot-bound proteins were analyzed by SDS-PAGE/immunoblotting. GPVI-dimer bound to noncrosslinked fibrin clots with classical one-site binding kinetics, with µM-level KD , and to crosslinked clots with higher affinity. Anti-GPVI-dimer (mFab-F) inhibited the binding. However, GPVI-His binding to either type of clot was nonsaturable and nearly linear, indicating very low affinity or nonspecific binding. In clots formed in the presence of platelets, clot-bound platelet-derived proteins were integrin αIIbβ3, present at high levels, and GPVI. CONCLUSIONS We conclude that dimeric GPVI is the receptor for fibrin, exhibiting a similar KD to those obtained for its binding to fibrinogen D-fragment and D-dimer, suggesting that fibrin(ogen)'s GPVI-binding site becomes exposed after fibrin formation or cleavage to fragment D. Analysis of platelets bound to fibrin clots indicates that platelet GPVI binds to fibrin fibers comprising the clot.
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platelet collagen receptor glycoprotein vi dimer recognizes fibrinogen and fibrin through their d domains contributing to platelet adhesion and activation during thrombus formation
Journal of Thrombosis and Haemostasis, 2018Co-Authors: Isuru Induruwa, Arkadiusz Bonna, Richard W Farndale, Masaaki Moroi, J D Malcor, Joannamarie Howes, E A Warburton, Stephanie M JungAbstract:Essentials Glycoprotein VI (GPVI) binds collagen, starting thrombogenesis, and fibrin, stabilizing thrombi. GPVI-dimers, not monomers, recognize immobilized fibrinogen and fibrin through their D-domains. Collagen, D-fragment and D-dimer may share a common or proximate binding site(s) on GPVI-dimer. GPVI-dimer-fibrin interaction supports spreading, activation and adhesion involving αIIbβ3. Summary Background Platelet collagen receptor Glycoprotein VI (GPVI) binds collagen, initiating thrombogenesis, and stabilizes thrombi by binding fibrin. Objectives To determine if GPVI-dimer, GPVI-monomer, or both bind to fibrinogen substrates, and which region common to these substrates contains the interaction site. Methods Recombinant GPVI monomeric extracellular domain (GPVIex ) or dimeric Fc-fusion protein (GPVI-Fc2 ) binding to immobilized fibrinogen derivatives was measured by ELISA, including competition assays involving collagenous substrates and fibrinogen derivatives. Flow adhesion was performed with normal or Glanzmann thrombasthenic (GT) platelets over immobilized fibrinogen, with or without anti-GPVI-dimer or anti-αIIbβ3. Results Under static conditions, GPVIex did not bind to any fibrinogen substrate. GPVI-Fc2 exhibited specific, saturable binding to both D-fragment and D-dimer, which was inhibited by mFab-F (anti-GPVI-dimer), but showed low binding to fibrinogen and fibrin under our conditions. GPVI-Fc2 binding to D-fragment or D-dimer was abrogated by collagen type III, Horm collagen or CRP-XL (crosslinked collagen-related peptide), suggesting proximity between the D-domain and collagen binding sites on GPVI-dimer. Under low shear, adhesion of normal platelets to D-fragment, D-dimer, fibrinogen and fibrin was inhibited by mFab-F (inhibitor of GPVI-dimer) and abolished by Eptifibatide (inhibitor of αIIbβ3), suggesting that both receptors contribute to thrombus formation on these substrates, but αIIbβ3 makes a greater contribution. Notably, thrombasthenic platelets showed limited adhesion to fibrinogen substrates under flow, which was further reduced by mFab-F, supporting some independent GPVI-dimer involvement in this interaction. Conclusion Only dimeric GPVI interacts with fibrinogen D-domain, at a site proximate to its collagen binding site, to support platelet adhesion/activation/aggregate formation on immobilized fibrinogen and polymerized fibrin.
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clustering of glycoprotein vi GPVI dimers upon adhesion to collagen as a mechanism to regulate GPVI signaling in platelets
Journal of Thrombosis and Haemostasis, 2017Co-Authors: Natalie S Poulter, Richard W Farndale, Robert K Andrews, Elizabeth E Gardiner, Alice Y Pollitt, Dylan M Owen, H Shimizu, D Ishikawa, Dominique Bihan, Masaaki MoroiAbstract:Essentials Dimeric high-affinity collagen receptor glycoprotein VI (GPVI) is present on resting platelets. Spatio-temporal organization of platelet GPVI-dimers was evaluated using advanced microscopy. Upon platelet adhesion to collagenous substrates, GPVI-dimers coalesce to form clusters. Clustering of GPVI-dimers may increase avidity and facilitate platelet activation SUMMARY: Background Platelet glycoprotein VI (GPVI) binding to subendothelial collagen exposed upon blood vessel injury initiates thrombus formation. Dimeric GPVI has high affinity for collagen, and occurs constitutively on resting platelets. Objective To identify higher-order oligomerization (clustering) of pre-existing GPVI dimers upon interaction with collagen as a mechanism to initiate GPVI-mediated signaling. Methods GPVI was located by use of fluorophore-conjugated GPVI dimer-specific Fab (antigen-binding fragment). The tested substrates include Horm collagen I fibers, soluble collagen III, GPVI-specific collagen peptides, and fibrinogen. GPVI dimer clusters on the platelet surface interacting with these substrates were visualized with complementary imaging techniques: total internal reflection fluorescence microscopy to monitor real-time interactions, and direct stochastic optical reconstruction microscopy (dSTORM), providing relative quantification of GPVI cluster size and density. Confocal microscopy was used to locate GPVI dimer clusters, glycoprotein Ib, integrin α2 β1 , and phosphotyrosine. Results Upon platelet adhesion to all collagenous substrates, GPVI dimers coalesced to form clusters; notably clusters formed along the fibers of Horm collagen. dSTORM revealed that GPVI density within clusters depended on the substrate, collagen III being the most effective. Clusters on fibrinogen-adhered platelets were much smaller and more numerous; whether these are pre-existing oligomers of GPVI dimers or fibrinogen-induced is not clear. Some GPVI dimer clusters colocalized with areas of phosphotyrosine, indicative of signaling activity. Integrin α2 β1 was localized to collagen fibers close to GPVI dimer clusters. GPVI clustering depends on a dynamic actin cytoskeleton. Conclusions Platelet adhesion to collagen induces GPVI dimer clustering. GPVI clustering increases both avidity for collagen and the proximity of GPVI-associated signaling molecules, which may be crucial for the initiation and persistence of signaling.
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constitutive dimerization of glycoprotein vi GPVI in resting platelets is essential for binding to collagen and activation in flowing blood
Journal of Biological Chemistry, 2012Co-Authors: Stephanie M Jung, Masaaki Moroi, Joannamarie Howes, Michael C Berndt, Elizabeth E Gardiner, Nicholas Pugh, Kenji Soejima, Tomohiro Nakagaki, Yoshiki Miura, Dominique BihanAbstract: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.
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glycoprotein gp vi dimer as a major collagen binding site of native platelets direct evidence obtained with dimeric GPVI specific fabs
Journal of Thrombosis and Haemostasis, 2009Co-Authors: Stephanie M Jung, K Tsuji, Masaaki MoroiAbstract:Summary. Background: The platelet collagen receptor glycoprotein (GP) VI is suggested to exist as a dimer on the platelet surface, but no direct proof of the functional importance of dimer formation has been provided. Objectives: To obtain direct evidence for GPVI dimers on the platelet membrane and their functional importance, Fab antibodies were developed that bind to GPVI dimer (GPVI-Fc2) but not to GPVI monomer (GPVIex) through a phage display method. Results: Ssix Fabs were found: B–F, only reactive with GPVI-Fc2 ,a nd A, mainly reactive with GPVI-Fc2, with some reactivity towards GPVIex; each Fab (Fab-dHLX-MH) forms a bivalent dimer (b-Fab) by dimerizing the dHLX domains from two Fab molecules. Fab F was subcloned to a monovalent format by deleting its dHLX domain. All b-Fabs induced platelet aggregation, but the monomeric form of Fab F (m-Fab-F) specifically inhibited collagen-induced aggregation. All b-Fabs and m-Fab-F inhibited GPVI-Fc2 binding to fibrous collagen. Immunoblotting showed that b-Fab-F and m-Fab-F bound weakly to GPVI-Fc2. Adding the anti-GPVI monoclonal antibody 204-11 increased the Bmax of m-Fab-F binding to GPVI-Fc2, suggesting that 204-11 binds to GPVI-Fc2 molecules not already in the appropriate conformation to recognize the Fab, converting them to a conformation reactive to the Fab. Conclusions: GPVI forms a specific structure by dimerization that is necessary for the binding of this receptor to collagen fibrils. The binding of m-Fab-F to platelets directly demonstrates that GPVI is present as a functionally relevant dimer on the platelet surface.
Stephanie M Jung - One of the best experts on this subject based on the ideXlab platform.
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dimers of the platelet collagen receptor glycoprotein vi bind specifically to fibrin fibers during clot formation but not to intact fibrinogen
Journal of Thrombosis and Haemostasis, 2021Co-Authors: Masaaki Moroi, Richard W Farndale, Isuru Induruwa, Stephanie M JungAbstract:OBJECTIVE The platelet collagen receptor glycoprotein VI (GPVI) has an independent role as a receptor for fibrin produced via the coagulation cascade. However, various reports of GPVI binding to immobilized fibrin(ogen) are not consistent. As a collagen receptor, GPVI-dimer is the functional form, but whether GPVI dimers or monomers bind to fibrin remains controversial. To resolve this, we analyzed GPVI binding to nascent fibrin clots, which more closely approximate physiological conditions. METHODS AND RESULTS ELISA using biotinyl-fibrinogen immobilized on streptavidin-coated wells indicated that GPVI dimers do not bind intact fibrinogen. Clots were formed by adding thrombin to a mixture of near-plasma level of fibrinogen and recombinant GPVI ectodomain: GPVI dimer (GPVI-Fc2 or Revacept) or monomer (GPVI-His: single chain of Revacept GPVI domain, with His tag). Clot-bound proteins were analyzed by SDS-PAGE/immunoblotting. GPVI-dimer bound to noncrosslinked fibrin clots with classical one-site binding kinetics, with µM-level KD , and to crosslinked clots with higher affinity. Anti-GPVI-dimer (mFab-F) inhibited the binding. However, GPVI-His binding to either type of clot was nonsaturable and nearly linear, indicating very low affinity or nonspecific binding. In clots formed in the presence of platelets, clot-bound platelet-derived proteins were integrin αIIbβ3, present at high levels, and GPVI. CONCLUSIONS We conclude that dimeric GPVI is the receptor for fibrin, exhibiting a similar KD to those obtained for its binding to fibrinogen D-fragment and D-dimer, suggesting that fibrin(ogen)'s GPVI-binding site becomes exposed after fibrin formation or cleavage to fragment D. Analysis of platelets bound to fibrin clots indicates that platelet GPVI binds to fibrin fibers comprising the clot.
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platelet collagen receptor glycoprotein vi dimer recognizes fibrinogen and fibrin through their d domains contributing to platelet adhesion and activation during thrombus formation
Journal of Thrombosis and Haemostasis, 2018Co-Authors: Isuru Induruwa, Arkadiusz Bonna, Richard W Farndale, Masaaki Moroi, J D Malcor, Joannamarie Howes, E A Warburton, Stephanie M JungAbstract:Essentials Glycoprotein VI (GPVI) binds collagen, starting thrombogenesis, and fibrin, stabilizing thrombi. GPVI-dimers, not monomers, recognize immobilized fibrinogen and fibrin through their D-domains. Collagen, D-fragment and D-dimer may share a common or proximate binding site(s) on GPVI-dimer. GPVI-dimer-fibrin interaction supports spreading, activation and adhesion involving αIIbβ3. Summary Background Platelet collagen receptor Glycoprotein VI (GPVI) binds collagen, initiating thrombogenesis, and stabilizes thrombi by binding fibrin. Objectives To determine if GPVI-dimer, GPVI-monomer, or both bind to fibrinogen substrates, and which region common to these substrates contains the interaction site. Methods Recombinant GPVI monomeric extracellular domain (GPVIex ) or dimeric Fc-fusion protein (GPVI-Fc2 ) binding to immobilized fibrinogen derivatives was measured by ELISA, including competition assays involving collagenous substrates and fibrinogen derivatives. Flow adhesion was performed with normal or Glanzmann thrombasthenic (GT) platelets over immobilized fibrinogen, with or without anti-GPVI-dimer or anti-αIIbβ3. Results Under static conditions, GPVIex did not bind to any fibrinogen substrate. GPVI-Fc2 exhibited specific, saturable binding to both D-fragment and D-dimer, which was inhibited by mFab-F (anti-GPVI-dimer), but showed low binding to fibrinogen and fibrin under our conditions. GPVI-Fc2 binding to D-fragment or D-dimer was abrogated by collagen type III, Horm collagen or CRP-XL (crosslinked collagen-related peptide), suggesting proximity between the D-domain and collagen binding sites on GPVI-dimer. Under low shear, adhesion of normal platelets to D-fragment, D-dimer, fibrinogen and fibrin was inhibited by mFab-F (inhibitor of GPVI-dimer) and abolished by Eptifibatide (inhibitor of αIIbβ3), suggesting that both receptors contribute to thrombus formation on these substrates, but αIIbβ3 makes a greater contribution. Notably, thrombasthenic platelets showed limited adhesion to fibrinogen substrates under flow, which was further reduced by mFab-F, supporting some independent GPVI-dimer involvement in this interaction. Conclusion Only dimeric GPVI interacts with fibrinogen D-domain, at a site proximate to its collagen binding site, to support platelet adhesion/activation/aggregate formation on immobilized fibrinogen and polymerized fibrin.
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constitutive dimerization of glycoprotein vi GPVI in resting platelets is essential for binding to collagen and activation in flowing blood
Journal of Biological Chemistry, 2012Co-Authors: Stephanie M Jung, Masaaki Moroi, Joannamarie Howes, Michael C Berndt, Elizabeth E Gardiner, Nicholas Pugh, Kenji Soejima, Tomohiro Nakagaki, Yoshiki Miura, Dominique BihanAbstract: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.
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glycoprotein gp vi dimer as a major collagen binding site of native platelets direct evidence obtained with dimeric GPVI specific fabs
Journal of Thrombosis and Haemostasis, 2009Co-Authors: Stephanie M Jung, K Tsuji, Masaaki MoroiAbstract:Summary. Background: The platelet collagen receptor glycoprotein (GP) VI is suggested to exist as a dimer on the platelet surface, but no direct proof of the functional importance of dimer formation has been provided. Objectives: To obtain direct evidence for GPVI dimers on the platelet membrane and their functional importance, Fab antibodies were developed that bind to GPVI dimer (GPVI-Fc2) but not to GPVI monomer (GPVIex) through a phage display method. Results: Ssix Fabs were found: B–F, only reactive with GPVI-Fc2 ,a nd A, mainly reactive with GPVI-Fc2, with some reactivity towards GPVIex; each Fab (Fab-dHLX-MH) forms a bivalent dimer (b-Fab) by dimerizing the dHLX domains from two Fab molecules. Fab F was subcloned to a monovalent format by deleting its dHLX domain. All b-Fabs induced platelet aggregation, but the monomeric form of Fab F (m-Fab-F) specifically inhibited collagen-induced aggregation. All b-Fabs and m-Fab-F inhibited GPVI-Fc2 binding to fibrous collagen. Immunoblotting showed that b-Fab-F and m-Fab-F bound weakly to GPVI-Fc2. Adding the anti-GPVI monoclonal antibody 204-11 increased the Bmax of m-Fab-F binding to GPVI-Fc2, suggesting that 204-11 binds to GPVI-Fc2 molecules not already in the appropriate conformation to recognize the Fab, converting them to a conformation reactive to the Fab. Conclusions: GPVI forms a specific structure by dimerization that is necessary for the binding of this receptor to collagen fibrils. The binding of m-Fab-F to platelets directly demonstrates that GPVI is present as a functionally relevant dimer on the platelet surface.
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characterization of a patient with glycoprotein gp vi deficiency possessing neither anti GPVI autoantibody nor genetic aberration
Journal of Thrombosis and Haemostasis, 2006Co-Authors: Hiroshi Kojima, Masaaki Moroi, Stephanie M Jung, Shinya Goto, Noriko Tamura, Y Kozuma, K Suzukawa, Toshiro NagasawaAbstract:Summary. Background: There have been only seven reported cases of glycoprotein (GP) VI deficiency. However, the pathogenesis of this disorder has not been well-elucidated. Objectives: We characterized a novel patient with GPVI deficiency and used these platelets to investigate the role of GPVI in normal hemostasis. Patient: A 31-year-old female with immune thrombocytopenic purpura who had been suffering from mild bleeding diathesis even after recovery from thrombocytopenia. Results and conclusion: The patient's platelets did not aggregate in response to either convulxin or collagen-related peptide. Immunoblotting revealed complete absence of the GPVI molecule, whereas a significantly reduced but substantial amount of Fc receptor (FcR) γ-chain was expressed. Platelet stimulation with convulxin did not induce tyrosine-phosphorylation of FcR γ-chain, indicating a defect in GPVI-mediated signaling. Concerning the underlying pathogenesis, we found normal level of GPVI-mRNA expression, no aberration of the sequence of the entire coding region of GPVI, and presence of degraded GPVI in her plasma. However, no anti-GPVI autoantibody was detected either by the binding assay to GPVI-Fc2 fusion protein or by immunoblotting/immunoprecipitation using the patient's immunoglobulin. We thus consider that either a short-time exposure to anti-GPVI autoantibody or a continuous exposure to low titers of the autoantibody has resulted in persistent GPVI deficiency. Under high shear flow, the patient's platelets could not form large aggregates, although initial platelet attachment was obviously observed. These results suggest that GPVI deficiency in this patient resulted in defective platelet thrombi development, manifesting as bleeding diathesis. Furthermore, our observations indicate that coordination of GPVI with integrin α2β1 is essential for physiological platelet thrombus formation.
Robert K Andrews - One of the best experts on this subject based on the ideXlab platform.
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immobilised collagen prevents shedding and induces sustained GPVI clustering and signalling in platelets
bioRxiv, 2020Co-Authors: Chiara Pallini, Steve P. Watson, Robert K Andrews, Elizabeth E Gardiner, Jeremy A Pike, Christopher Oshea, Natalie S PoulterAbstract:Collagen, the most thrombogenic constituent of blood vessel walls, activates platelets through glycoprotein VI (GPVI). In suspension, following platelet activation by collagen, GPVI is cleaved by A Disintegrin And Metalloproteinase (ADAM)10 and ADAM17. In this study, we use single-molecule localization microscopy and a 2-level DBSCAN-based clustering tool to show that GPVI remains clustered along immobilised collagen fibres for at least 3 hours in the absence of significant shedding. Tyrosine phosphorylation of spleen tyrosine kinase (Syk) and Linker of Activated T cells (LAT), and elevation of intracellular Ca2+, are sustained over this period. Syk, but not Src kinase-dependent signalling is required to maintain clustering of the collagen integrin α2β1, whilst neither is required for GPVI. We propose that clustering of GPVI on immobilised collagen protects GPVI from shedding in order to maintain sustained Src and Syk-kinases dependent signalling, activation of integrin α2β1 and continued adhesion.
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fibrin exposure triggers αiibβ3 independent platelet aggregate formation adam10 activity and glycoprotein vi shedding in a charge dependent manner
Journal of Thrombosis and Haemostasis, 2020Co-Authors: Samantha J Montague, Robert K Andrews, Sarah M Hicks, Christine Lee, Lucy A Coupland, Christopher R Parish, Woei Ming Lee, Elizabeth E GardinerAbstract:Background Collagen and fibrin engagement and activation of glycoprotein (GP) VI induces proteolytic cleavage of the GPVI ectodomain generating shed soluble GPVI (sGPVI). Collagen-mediated GPVI shedding requires intracellular signalling to release the sGPVI, mediated by A Disintegrin And Metalloproteinase 10 (ADAM10); however, the precise mechanism by which fibrin induces GPVI shedding remains elusive. Plasma sGPVI levels are elevated in patients with coagulopathies, sepsis, or inflammation and can predict onset of sepsis and sepsis-related mortality; therefore, it is clinically important to understand the mechanisms of GPVI shedding under conditions of minimal collagen exposure. Objectives Our aim was to characterize mechanisms by which fibrin-GPVI interactions trigger GPVI shedding. Methods Platelet aggregometry, sGPVI ELISA, and an ADAM10 fluorescence resonance energy transfer assay were used to measure fibrin-mediated platelet responses. Results Fibrin induced αIIbβ3-independent washed platelet aggregate formation, GPVI shedding, and increased ADAM10 activity, all of which were insensitive to pre-treatment with inhibitors of Src family kinases but were divalent cation- and metalloproteinase-dependent. In contrast, treatment of washed platelets with other GPVI ligands, collagen, and collagen-related peptide caused αIIbβ3-dependent platelet aggregation and GPVI release but did not increase constitutive ADAM10 activity. Conclusions Fibrin engages GPVI in a manner that differs from other GPVI ligands. Inclusion of polyanionic molecules disrupted fibrin-induced platelet aggregate formation and sGPVI release, suggesting that electrostatic charge may play a role in fibrin/GPVI engagement. It may be feasible to exploit this property and specifically disrupt GPVI/fibrin interactions whilst sparing GPVI/collagen engagement.Fibrin engages GPVI in a manner that differs from other GPVI ligands. Inclusion of polyanionic molecules disrupted fibrin-induced platelet aggregate formation and sGPVI release, suggesting that electrostatic charge may play a role in fibrin/GPVI engagement. It may be feasible to exploit this property and specifically disrupt GPVI/fibrin interactions whilst sparing GPVI/collagen engagement.
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regulation of platelet activation and thrombus formation by reactive oxygen species
Redox biology, 2018Co-Authors: Jian Lin Qiao, Robert K Andrews, Elizabeth E Gardiner, Jane Frances Arthur, Lingyu ZengAbstract:Reactive oxygen species (ROS) are generated within activated platelets and play an important role in regulating platelet responses to collagen and collagen-mediated thrombus formation. As a major collagen receptor, platelet-specific glycoprotein (GP)VI is a member of the immunoglobulin (Ig) superfamily, with two extracellular Ig domains, a mucin domain, a transmembrane domain and a cytoplasmic tail. GPVI forms a functional complex with the Fc receptor γ-chain (FcRγ) that, following receptor dimerization, signals via an intracellular immunoreceptor tyrosine-based activation motif (ITAM), leading to rapid activation of Src family kinase signaling pathways. Our previous studies demonstrated that an unpaired thiol in the cytoplasmic tail of GPVI undergoes rapid oxidation to form GPVI homodimers in response to ligand binding, indicating an oxidative submembranous environment in platelets after GPVI stimulation. Using a redox-sensitive fluorescent dye (H2DCF-DA) in a flow cytometric assay to measure changes in intracellular ROS, we showed generation of ROS downstream of GPVI consists of two distinct phases: an initial Syk-independent burst followed by additional Syk-dependent generation. In this review, we will discuss recent findings on the regulation of platelet function by ROS, focusing on GPVI-dependent platelet activation and thrombus formation.
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clustering of glycoprotein vi GPVI dimers upon adhesion to collagen as a mechanism to regulate GPVI signaling in platelets
Journal of Thrombosis and Haemostasis, 2017Co-Authors: Natalie S Poulter, Richard W Farndale, Robert K Andrews, Elizabeth E Gardiner, Alice Y Pollitt, Dylan M Owen, H Shimizu, D Ishikawa, Dominique Bihan, Masaaki MoroiAbstract:Essentials Dimeric high-affinity collagen receptor glycoprotein VI (GPVI) is present on resting platelets. Spatio-temporal organization of platelet GPVI-dimers was evaluated using advanced microscopy. Upon platelet adhesion to collagenous substrates, GPVI-dimers coalesce to form clusters. Clustering of GPVI-dimers may increase avidity and facilitate platelet activation SUMMARY: Background Platelet glycoprotein VI (GPVI) binding to subendothelial collagen exposed upon blood vessel injury initiates thrombus formation. Dimeric GPVI has high affinity for collagen, and occurs constitutively on resting platelets. Objective To identify higher-order oligomerization (clustering) of pre-existing GPVI dimers upon interaction with collagen as a mechanism to initiate GPVI-mediated signaling. Methods GPVI was located by use of fluorophore-conjugated GPVI dimer-specific Fab (antigen-binding fragment). The tested substrates include Horm collagen I fibers, soluble collagen III, GPVI-specific collagen peptides, and fibrinogen. GPVI dimer clusters on the platelet surface interacting with these substrates were visualized with complementary imaging techniques: total internal reflection fluorescence microscopy to monitor real-time interactions, and direct stochastic optical reconstruction microscopy (dSTORM), providing relative quantification of GPVI cluster size and density. Confocal microscopy was used to locate GPVI dimer clusters, glycoprotein Ib, integrin α2 β1 , and phosphotyrosine. Results Upon platelet adhesion to all collagenous substrates, GPVI dimers coalesced to form clusters; notably clusters formed along the fibers of Horm collagen. dSTORM revealed that GPVI density within clusters depended on the substrate, collagen III being the most effective. Clusters on fibrinogen-adhered platelets were much smaller and more numerous; whether these are pre-existing oligomers of GPVI dimers or fibrinogen-induced is not clear. Some GPVI dimer clusters colocalized with areas of phosphotyrosine, indicative of signaling activity. Integrin α2 β1 was localized to collagen fibers close to GPVI dimer clusters. GPVI clustering depends on a dynamic actin cytoskeleton. Conclusions Platelet adhesion to collagen induces GPVI dimer clustering. GPVI clustering increases both avidity for collagen and the proximity of GPVI-associated signaling molecules, which may be crucial for the initiation and persistence of signaling.
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focusing on plasma glycoprotein vi
Thrombosis and Haemostasis, 2012Co-Authors: Mohammad Altamimi, Elizabeth E Gardiner, Jane Frances Arthur, Robert K AndrewsAbstract:New methods for analysing both platelet and plasma forms of the platelet-specific collagen receptor, glycoprotein VI (GPVI) in experimental models or human clinical samples, and the development of the first therapeutic compounds based on dimeric soluble GPVI-Fc or anti-GPVI antibody-based constructs, coincide with increased understanding of the potential pathophysiological role of GPVI ligand binding and shedding. Platelet GPVI not only mediates platelet activation at the site of vascular injury where collagen is exposed, but is also implicated in the pathogenesis of other diseases, such as atherosclerosis and coagulopathy, rheumatoid arthritis and tumour metastasis. Here, we describe some of the critical mechanisms for generating soluble GPVI from platelets, and future avenues for exploiting this unique platelet-specific receptor for diagnosis and/or disease prevention.
Elizabeth E Gardiner - One of the best experts on this subject based on the ideXlab platform.
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immobilised collagen prevents shedding and induces sustained GPVI clustering and signalling in platelets
bioRxiv, 2020Co-Authors: Chiara Pallini, Steve P. Watson, Robert K Andrews, Elizabeth E Gardiner, Jeremy A Pike, Christopher Oshea, Natalie S PoulterAbstract:Collagen, the most thrombogenic constituent of blood vessel walls, activates platelets through glycoprotein VI (GPVI). In suspension, following platelet activation by collagen, GPVI is cleaved by A Disintegrin And Metalloproteinase (ADAM)10 and ADAM17. In this study, we use single-molecule localization microscopy and a 2-level DBSCAN-based clustering tool to show that GPVI remains clustered along immobilised collagen fibres for at least 3 hours in the absence of significant shedding. Tyrosine phosphorylation of spleen tyrosine kinase (Syk) and Linker of Activated T cells (LAT), and elevation of intracellular Ca2+, are sustained over this period. Syk, but not Src kinase-dependent signalling is required to maintain clustering of the collagen integrin α2β1, whilst neither is required for GPVI. We propose that clustering of GPVI on immobilised collagen protects GPVI from shedding in order to maintain sustained Src and Syk-kinases dependent signalling, activation of integrin α2β1 and continued adhesion.
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fibrin exposure triggers αiibβ3 independent platelet aggregate formation adam10 activity and glycoprotein vi shedding in a charge dependent manner
Journal of Thrombosis and Haemostasis, 2020Co-Authors: Samantha J Montague, Robert K Andrews, Sarah M Hicks, Christine Lee, Lucy A Coupland, Christopher R Parish, Woei Ming Lee, Elizabeth E GardinerAbstract:Background Collagen and fibrin engagement and activation of glycoprotein (GP) VI induces proteolytic cleavage of the GPVI ectodomain generating shed soluble GPVI (sGPVI). Collagen-mediated GPVI shedding requires intracellular signalling to release the sGPVI, mediated by A Disintegrin And Metalloproteinase 10 (ADAM10); however, the precise mechanism by which fibrin induces GPVI shedding remains elusive. Plasma sGPVI levels are elevated in patients with coagulopathies, sepsis, or inflammation and can predict onset of sepsis and sepsis-related mortality; therefore, it is clinically important to understand the mechanisms of GPVI shedding under conditions of minimal collagen exposure. Objectives Our aim was to characterize mechanisms by which fibrin-GPVI interactions trigger GPVI shedding. Methods Platelet aggregometry, sGPVI ELISA, and an ADAM10 fluorescence resonance energy transfer assay were used to measure fibrin-mediated platelet responses. Results Fibrin induced αIIbβ3-independent washed platelet aggregate formation, GPVI shedding, and increased ADAM10 activity, all of which were insensitive to pre-treatment with inhibitors of Src family kinases but were divalent cation- and metalloproteinase-dependent. In contrast, treatment of washed platelets with other GPVI ligands, collagen, and collagen-related peptide caused αIIbβ3-dependent platelet aggregation and GPVI release but did not increase constitutive ADAM10 activity. Conclusions Fibrin engages GPVI in a manner that differs from other GPVI ligands. Inclusion of polyanionic molecules disrupted fibrin-induced platelet aggregate formation and sGPVI release, suggesting that electrostatic charge may play a role in fibrin/GPVI engagement. It may be feasible to exploit this property and specifically disrupt GPVI/fibrin interactions whilst sparing GPVI/collagen engagement.Fibrin engages GPVI in a manner that differs from other GPVI ligands. Inclusion of polyanionic molecules disrupted fibrin-induced platelet aggregate formation and sGPVI release, suggesting that electrostatic charge may play a role in fibrin/GPVI engagement. It may be feasible to exploit this property and specifically disrupt GPVI/fibrin interactions whilst sparing GPVI/collagen engagement.
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regulation of platelet activation and thrombus formation by reactive oxygen species
Redox biology, 2018Co-Authors: Jian Lin Qiao, Robert K Andrews, Elizabeth E Gardiner, Jane Frances Arthur, Lingyu ZengAbstract:Reactive oxygen species (ROS) are generated within activated platelets and play an important role in regulating platelet responses to collagen and collagen-mediated thrombus formation. As a major collagen receptor, platelet-specific glycoprotein (GP)VI is a member of the immunoglobulin (Ig) superfamily, with two extracellular Ig domains, a mucin domain, a transmembrane domain and a cytoplasmic tail. GPVI forms a functional complex with the Fc receptor γ-chain (FcRγ) that, following receptor dimerization, signals via an intracellular immunoreceptor tyrosine-based activation motif (ITAM), leading to rapid activation of Src family kinase signaling pathways. Our previous studies demonstrated that an unpaired thiol in the cytoplasmic tail of GPVI undergoes rapid oxidation to form GPVI homodimers in response to ligand binding, indicating an oxidative submembranous environment in platelets after GPVI stimulation. Using a redox-sensitive fluorescent dye (H2DCF-DA) in a flow cytometric assay to measure changes in intracellular ROS, we showed generation of ROS downstream of GPVI consists of two distinct phases: an initial Syk-independent burst followed by additional Syk-dependent generation. In this review, we will discuss recent findings on the regulation of platelet function by ROS, focusing on GPVI-dependent platelet activation and thrombus formation.
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clustering of glycoprotein vi GPVI dimers upon adhesion to collagen as a mechanism to regulate GPVI signaling in platelets
Journal of Thrombosis and Haemostasis, 2017Co-Authors: Natalie S Poulter, Richard W Farndale, Robert K Andrews, Elizabeth E Gardiner, Alice Y Pollitt, Dylan M Owen, H Shimizu, D Ishikawa, Dominique Bihan, Masaaki MoroiAbstract:Essentials Dimeric high-affinity collagen receptor glycoprotein VI (GPVI) is present on resting platelets. Spatio-temporal organization of platelet GPVI-dimers was evaluated using advanced microscopy. Upon platelet adhesion to collagenous substrates, GPVI-dimers coalesce to form clusters. Clustering of GPVI-dimers may increase avidity and facilitate platelet activation SUMMARY: Background Platelet glycoprotein VI (GPVI) binding to subendothelial collagen exposed upon blood vessel injury initiates thrombus formation. Dimeric GPVI has high affinity for collagen, and occurs constitutively on resting platelets. Objective To identify higher-order oligomerization (clustering) of pre-existing GPVI dimers upon interaction with collagen as a mechanism to initiate GPVI-mediated signaling. Methods GPVI was located by use of fluorophore-conjugated GPVI dimer-specific Fab (antigen-binding fragment). The tested substrates include Horm collagen I fibers, soluble collagen III, GPVI-specific collagen peptides, and fibrinogen. GPVI dimer clusters on the platelet surface interacting with these substrates were visualized with complementary imaging techniques: total internal reflection fluorescence microscopy to monitor real-time interactions, and direct stochastic optical reconstruction microscopy (dSTORM), providing relative quantification of GPVI cluster size and density. Confocal microscopy was used to locate GPVI dimer clusters, glycoprotein Ib, integrin α2 β1 , and phosphotyrosine. Results Upon platelet adhesion to all collagenous substrates, GPVI dimers coalesced to form clusters; notably clusters formed along the fibers of Horm collagen. dSTORM revealed that GPVI density within clusters depended on the substrate, collagen III being the most effective. Clusters on fibrinogen-adhered platelets were much smaller and more numerous; whether these are pre-existing oligomers of GPVI dimers or fibrinogen-induced is not clear. Some GPVI dimer clusters colocalized with areas of phosphotyrosine, indicative of signaling activity. Integrin α2 β1 was localized to collagen fibers close to GPVI dimer clusters. GPVI clustering depends on a dynamic actin cytoskeleton. Conclusions Platelet adhesion to collagen induces GPVI dimer clustering. GPVI clustering increases both avidity for collagen and the proximity of GPVI-associated signaling molecules, which may be crucial for the initiation and persistence of signaling.
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constitutive dimerization of glycoprotein vi GPVI in resting platelets is essential for binding to collagen and activation in flowing blood
Journal of Biological Chemistry, 2012Co-Authors: Stephanie M Jung, Masaaki Moroi, Joannamarie Howes, Michael C Berndt, Elizabeth E Gardiner, Nicholas Pugh, Kenji Soejima, Tomohiro Nakagaki, Yoshiki Miura, Dominique BihanAbstract: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.
Meinrad Gawaz - One of the best experts on this subject based on the ideXlab platform.
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preserved bioactivity and tunable release of a sdf1 GPVI bi specific protein using photo crosslinked pegda hydrogels
Biomaterials, 2014Co-Authors: Marianne Schesny, Meinrad Gawaz, Michael G Monaghan, Andrea H Bindermann, Desiree Freund, Martina Seifert, Johannes A Eble, Sebastian Vogel, Svenja Hinderer, Katja SchenkelaylandAbstract:Chemokine-induced stem cell recruitment is a promising strategy for post myocardial infarction treatment. Injection of stromal cell-derived factor 1 (SDF1) has been shown to attract bone marrow-derived progenitor cells (BMPCs) from the blood that have the potential to differentiate into cardiovascular cells, which support angiogenesis, enabling the improvement of myocardial function. SDF1-GPVI bi-specific protein contains a glycoprotein VI (GPVI)-domain that serves as an anchor for collagen type I (Col I) and III, which are exposed in the wall of injured vasculature. In this study, we generated a cytocompatible hydrogel via photo-crosslinking of poly(ethylene glycol) diacrylate that serves as a reservoir for SDF1-GPVI. Controlled and sustained release of SDF1-GPVI was demonstrated over a period of 7 days. Release features were modifiable depending on the degree of the crosslinking density. Functionality of the GPVI-domain was investigated using a GPVI-binding ELISA to Col I. Activity of the SDF1-domain was tested for its CXCR4 binding potential. Preserved functionality of SDF1-GPVI bi-specific protein after photo-crosslinking and controllable release was successfully demonstrated in vitro supporting the implementation of this drug delivery system as a powerful tool for therapeutic protein delivery in the treatment of cardiovascular ischemic disease.
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the GPVI fc fusion protein revacept reduces thrombus formation and improves vascular dysfunction in atherosclerosis without any impact on bleeding times
PLOS ONE, 2013Co-Authors: Martin Ungerer, Meinrad Gawaz, Christine Baumgartner, Silvia Goebel, Jasmin Vogelmann, Hanspeter Holthoff, Gotz MunchAbstract:Aims Glycoprotein VI (GPVI) is a key platelet receptor which mediates plaque-induced platelet activation and consecutive atherothrombosis, but GPVI is also involved in platelet-mediated atheroprogression. Therefore, interference in GPVI-mediated platelet activation has the potential to combine short-term and long-term beneficial effects, specificity and safety especially regarding bleeding complications.
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impact of glycoprotein vi and platelet adhesion on atherosclerosis a possible role of fibronectin
Journal of Molecular and Cellular Cardiology, 2010Co-Authors: Andreas Bultmann, Bernhard Nieswandt, Konstantinos Stellos, Tanja Schonberger, Silvia Wagner, Mario Peluso, Carla Weis, Ildiko Konrad, Steffen Massberg, Meinrad GawazAbstract:Glycoprotein VI (GPVI) mediates binding of platelets to subendothelial collagen during acute arterial thrombosis. GPVI interactions with the activated atherosclerotic vascular endothelium during early atherosclerosis, however, are not well understood. In ApoE-/- mice, platelet adhesion to atherosclerotic arteries was increased, as measured by intravital microscopy. This platelet adhesion was significantly inhibited by IV injection of GPVI-Fc (1 mg/kg body weight). Atherosclerosis in ApoE-/- mice was attenuated both after 7 and 10 weeks of treatment with the anti-GPVI antibody JAQ1 (2 mg/kg body weight i.p. twice weekly). Binding of GPVI-Fc (1 mg/kg IV) occurred to deeper layers, but also to the luminal site of plaques in atherosclerotic rabbits, but not to the vessel wall of healthy littermates. Gene transfer of GPVI-Fc to the carotid vascular wall significantly attenuated athero-progression and endothelial dysfunction in atherosclerotic rabbits in vivo. Specific binding of the soluble GPVI receptor (GPVI-Fc) to fibronectin was found in vitro to coated ELISA plates. Platelet adhesion to fibronectin was significantly inhibited both by GPVI-Fc and by the anti-GPVI antibody 5C4 ex vivo in flow chamber experiments. GPVI plays a role in platelet adhesion to atherosclerotic endothelium in the absence of plaque rupture. Inhibition of GPVI both via GPVI-Fc and anti-GPVI-antibodies results in protection against atherosclerosis in both cholesterol-fed rabbits and ApoE-/- mice. This novel mechanism of GPVI-mediated platelet adhesion-possibly via fibronectin-could relevantly contribute to platelet-triggered atheroprogression.
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platelet glycoprotein vi GPVI for early identification of acute coronary syndrome in patients with chest pain
Thrombosis Research, 2010Co-Authors: Boris Bigalke, Konstantinos Stellos, Tobias Geisler, Peter Seizer, Elisabeth Kremmer, Michael Haap, Dietrich Overkamp, Meinrad GawazAbstract:Abstract Background Platelet glycoprotein VI (GPVI) is elevated in patients with acute coronary syndrome (ACS), stroke and associated with acute coronary events. GPVI may be helpful to distinguish an imminent ACS from non-coronary (NC) causes in patients with chest pain who were transferred to chest pain unit, before the myocardial necrosis is evident with classical biomarkers. Methods Based on the findings of our previous studies, we consecutively examined 1004 patients with chest pain in a prospective study design. ACS was found in 416 (41.4%), stable angina pectoris (SAP) in 233 (23.2%), and NC causes of chest pain (hypertension, musculoskeletal disease, pulmonary embolism, myocarditis, cardiophobia) in 355 patients (35.4%). Platelet surface expression of GPVI was measured by flow cytometry. Results Patients with ACS showed significantly enhanced GPVI expression levels compared to patients with SAP or NC causes of chest pain (ACSvs.SAP(mean fluorescence intensity (MFI) ± SD):18.9 ± 7.4vs.17.9 ± 9.5;P = 0.028;ACSvs.NC:15.4 ± 6.9;P = 0.002). Elevated GPVI expression was associated with ACS independent of markers of myocardial necrosis like troponin and creatine kinase-MB. Patients with an elevated GPVI expression (MFI ≥ 18.6) had a poorer clinical outcome than patients with baseline GPVI expression in regard to composite cumulative survival that included myocardial infarction, stroke, and cardiovascular death at three months (Log rank;P = 0.025). Discussion Platelet GPVI surface expression is enhanced in patients at risk for an ACS and is an early marker for imminent acute coronary events in patients with chest pain.
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expression of platelet glycoprotein vi is associated with transient ischemic attack and stroke
European Journal of Neurology, 2010Co-Authors: Boris Bigalke, Konstantinos Stellos, Tobias Geisler, Peter Seizer, Elisabeth Kremmer, Andreas E May, Stephan Lindemann, Arthur Melms, Andreas R Luft, Meinrad GawazAbstract:Background and purpose: Platelet collagen receptor glycoprotein VI (GPVI) contributes significantly to platelet adhesion and thrombus formation. We aimed to investigate GPVI in patients presenting with symptoms of acute cerebrovascular disease and to define GPVI as biomarker for acute stroke. Methods: We consecutively evaluated 205 patients, who admitted the stroke unit with symptoms for stroke. Surface expression of the platelet activation markers (GPVI, CD62P, GPIb) was determined by two-color whole blood flow cytometry. Results: Patients with transient ischemic attack (TIA) (n = 18; 8.8%) as well as with stroke (n = 133; 64.9%) showed a significantly enhanced GPVI expression (mean fluorescence intensity ± SD) on admission compared to patients with non-ischemic (NI) events (n = 54; 26.3%) (TIA: 20.9 ± 7.1 vs. NI: 16.2 ± 3.9; P = 0.002; stroke: 20.4 ± 5.7 vs. NI; P = 0.002). Neither CD62P nor GPIb surface expression showed a significant difference. Logistic regression analysis revealed that on admission GPVI was associated with stroke independent of conventional laboratory markers such as C-reactive protein, blood glucose, and creatine kinase. Using a receiver operating characteristic curve on GPVI, we have determined the cut off value of 18.2 for stroke. Thus, patients with enhanced GPVI expression levels (≥18.2) had a 2.4-fold relative risk for stroke. Patients with elevated platelet GPVI expression level had a poorer clinical outcome in cumulative event-free survival for stroke, myocardial infarction, and cerebro-/cardiovascular death at 3-month follow-up (log rank; P = 0.045). Conclusions: These findings indicate that platelet GPVI surface expression is significantly enhanced in patients with TIA and stroke compared to patients with NI events. Determination of platelet-specific GPVI may be useful as an early biomarker for cerebral ischemia.
