Your search keyword '"GPVI"' showing total 1,224 results

1. Soluble Glycoprotein VI Levels Assessed Locally within the Extra- and Intracerebral Circulation in Hyper-Acute Thromboembolic Stroke: A Pilot Study.

Author

Starke, Andreas, Kollikowski, Alexander M., Vogt, Vivian, Stoll, Guido, Nieswandt, Bernhard, Pham, Mirko, Stegner, David, and Schuhmann, Michael K.

Subjects

ISCHEMIC stroke, CAROTID artery stenosis, STROKE, ENDOVASCULAR surgery, BLOOD platelets

Abstract

Background: Severe acute ischemic stroke (AIS) is mainly caused by thromboembolism originating from symptomatic carotid artery (ICA) stenosis or in the heart due to atrial fibrillation. Glycoprotein VI (GPVI), a principal platelet receptor, facilitates platelet adherence and thrombus formation at sites of vascular injury such as symptomatic ICA stenosis. The shedding of GPVI from the platelet surface releases soluble GPVI (sGPVI) into the circulation. Here, we aimed to determine whether sGPVI can serve as a local biomarker to differentiate between local atherosclerotic and systemic cardiac thromboembolism in AIS. Methods: We conducted a cohort study involving 105 patients undergoing emergency endovascular thrombectomy (EVT) for anterior circulation stroke. First, sGPVI concentrations were measured in systemic arterial plasma samples collected at the ipsilateral ICA level, including groups with significantly (≥50%) stenotic and non-stenotic arteries. A second sample, taken from the intracerebral pial circulation, was used to assess GPVI shedding locally within the ischemic brain. Results: Our analysis revealed no significant increase in systemic sGPVI levels in patients with symptomatic ≥ 50% ICA stenosis (3.2 [95% CI 1.5–5.0] ng/mL; n = 33) compared with stroke patients without significant ICA stenosis (3.2 [95% CI 2.3–4.2] ng/mL; n = 72). Additionally, pial blood samples, reflecting intravascular molecular conditions during collateral flow, showed similar sGPVI levels when compared to the systemic ICA samples in both groups. Conclusions: Our findings indicate that GPVI is not locally cleaved and shed into the bloodstream in significant amounts during hyper-acute ischemic stroke, neither at the level of symptomatic ICA nor intracranially during collateral blood supply. Therefore, sGPVI does not appear to be suitable as a local stroke biomarker despite strong evidence of a major role for GPVI-signaling in stroke pathophysiology. [ABSTRACT FROM AUTHOR]

Published

2024

2. Platelet mass cytometry reveals dysregulation of prothrombotic pathways in essential thrombocythemia

Author

Veronika Dill, Kilian Kirmes, Jiaying Han, Melissa Klug, Marc Rosenbaum, Giacomo Viggiani, Moritz von Scheidt, Markus List, Peter Herhaus, Jürgen Ruland, Florian Bassermann, Karl-Ludwig Laugwitz, Katharina S. Götze, Philipp J. Jost, Stefanie Jilg, Conor J. Bloxham, Philip W.J. Raake, Isabell Bernlochner, and Dario Bongiovanni

Subjects

CyTOF, essential thrombocythemia, GPVI, mass cytometry, platelets, ET, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Thromboembolic events are common in patients with essential thrombocythemia (ET). However, the pathophysiological mechanisms underlying the increased thrombotic risk remain to be determined. Here, we perform the first phenotypical characterization of platelet expression using single-cell mass cytometry in six ET patients and six age- and sex-matched healthy individuals. A large panel of 18 transmembrane regulators of platelet function and activation were analyzed, at baseline and after ex-vivo stimulation with thrombin receptor-activating peptide (TRAP). We detected a significant overexpression of the activation marker CD62P (p-Selectin) (p = .049) and the collagen receptor GPVI (p = .044) in non-stimulated ET platelets. In contrast, ET platelets had a lower expression of the integrin subunits of the fibrinogen receptor GPIIb/IIIa CD41 (p = .036) and CD61 (p = .044) and of the von Willebrand factor receptor CD42b (p = .044). Using the FlowSOM algorithm, we identified 2 subclusters of ET platelets with a prothrombotic expression profile, one of them (cluster 3) significantly overrepresented in ET (22.13% of the total platelets in ET, 2.94% in controls, p = .035). Platelet counts were significantly increased in ET compared to controls (p = .0123). In ET, MPV inversely correlated with platelet count (r=-0.96). These data highlight the prothrombotic phenotype of ET and postulate GPVI as a potential target to prevent thrombosis in these patients.

Published

2024

3. Soluble Glycoprotein VI Levels Assessed Locally within the Extra- and Intracerebral Circulation in Hyper-Acute Thromboembolic Stroke: A Pilot Study

Author

Andreas Starke, Alexander M. Kollikowski, Vivian Vogt, Guido Stoll, Bernhard Nieswandt, Mirko Pham, David Stegner, and Michael K. Schuhmann

Subjects

blood platelets, GPVI, stroke, biomarker, carotid artery stenosis, thromboembolism, Biology (General), QH301-705.5

Abstract

Background: Severe acute ischemic stroke (AIS) is mainly caused by thromboembolism originating from symptomatic carotid artery (ICA) stenosis or in the heart due to atrial fibrillation. Glycoprotein VI (GPVI), a principal platelet receptor, facilitates platelet adherence and thrombus formation at sites of vascular injury such as symptomatic ICA stenosis. The shedding of GPVI from the platelet surface releases soluble GPVI (sGPVI) into the circulation. Here, we aimed to determine whether sGPVI can serve as a local biomarker to differentiate between local atherosclerotic and systemic cardiac thromboembolism in AIS. Methods: We conducted a cohort study involving 105 patients undergoing emergency endovascular thrombectomy (EVT) for anterior circulation stroke. First, sGPVI concentrations were measured in systemic arterial plasma samples collected at the ipsilateral ICA level, including groups with significantly (≥50%) stenotic and non-stenotic arteries. A second sample, taken from the intracerebral pial circulation, was used to assess GPVI shedding locally within the ischemic brain. Results: Our analysis revealed no significant increase in systemic sGPVI levels in patients with symptomatic ≥ 50% ICA stenosis (3.2 [95% CI 1.5–5.0] ng/mL; n = 33) compared with stroke patients without significant ICA stenosis (3.2 [95% CI 2.3–4.2] ng/mL; n = 72). Additionally, pial blood samples, reflecting intravascular molecular conditions during collateral flow, showed similar sGPVI levels when compared to the systemic ICA samples in both groups. Conclusions: Our findings indicate that GPVI is not locally cleaved and shed into the bloodstream in significant amounts during hyper-acute ischemic stroke, neither at the level of symptomatic ICA nor intracranially during collateral blood supply. Therefore, sGPVI does not appear to be suitable as a local stroke biomarker despite strong evidence of a major role for GPVI-signaling in stroke pathophysiology.

Published

2024

4. Platelet mass cytometry reveals dysregulation of prothrombotic pathways in essential thrombocythemia.

Author

Dill, Veronika, Kirmes, Kilian, Jiaying Han, Klug, Melissa, Rosenbaum, Marc, Viggiani, Giacomo, von Scheidt, Moritz, List, Markus, Herhaus, Peter, Ruland, Jürgen, Bassermann, Florian, Laugwitz, Karl-Ludwig, Götze, Katharina S., Jost, Philipp J., Jilg, Stefanie, Bloxham, Conor J., Raake, Philip W. J., Bernlochner, Isabell, and Bongiovanni, Dario

Subjects

*VON Willebrand factor, *PLATELET count, *BLOOD platelet activation, *PEPTIDES, *CYTOMETRY

Abstract

Thromboembolic events are common in patients with essential thrombocythemia (ET). However, the pathophysiological mechanisms underlying the increased thrombotic risk remain to be determined. Here, we perform the first phenotypical characterization of platelet expression using single-cell mass cytometry in six ET patients and six age- and sex-matched healthy individuals. A large panel of 18 transmembrane regulators of platelet function and activation were analyzed, at baseline and after ex-vivo stimulation with thrombin receptor-activating peptide (TRAP). We detected a significant overexpression of the activation marker CD62P (p-Selectin) (p = .049) and the collagen receptor GPVI (p = .044) in non-stimulated ET platelets. In contrast, ET platelets had a lower expression of the integrin subunits of the fibrinogen receptor GPIIb/IIIa CD41 (p = .036) and CD61 (p = .044) and of the von Willebrand factor receptor CD42b (p = .044). Using the FlowSOM algorithm, we identified 2 subclusters of ET platelets with a prothrombotic expression profile, one of them (cluster 3) significantly overrepresented in ET (22.13% of the total platelets in ET, 2.94% in controls, p = .035). Platelet counts were significantly increased in ET compared to controls (p = .0123). In ET, MPV inversely correlated with platelet count (r=-0.96). These data highlight the prothrombotic phenotype of ET and postulate GPVI as a potential target to prevent thrombosis in these patients. [ABSTRACT FROM AUTHOR]

Published

2024

5. Mutations of the dimerization site of glycoprotein (GP) VI result in abolished expression.

Author

Navarro, Stefano, Vögtle, Timo, Groß, Nina, Preu, Julia, Englert, Maximilian, Nieswandt, Bernhard, Bösl, Michael R., and Stegner, David

Subjects

*DIMERIZATION, *BLOOD platelet activation

Abstract

[Display omitted] • Here, we aimed to study the role of Glycoprotein VI (GPVI) dimerization in platelet activation in vivo. • The previously identified putative dimerization site of GPVI was mutated to disrupt the GPVI dimerization on the platelet surface. • Two different mutations of the GPVI dimerization site resulted in a loss of GPVI surface abundance in vivo. • Multivalent ligands (fibrillar collagen) of GPVI can elicit platelet activation also at very low GPVI density levels. [ABSTRACT FROM AUTHOR]

Published

2023

6. Biochemical characterization of spleen tyrosine kinase (SYK) isoforms in platelets.

Author

Singh, Pankaj Kumar, Dangelmaier, Carol A., Vari, Hymavathi Reddy, Tsygankov, Alexander Y., and Kunapuli, Satya P.

Subjects

*PROTEIN-tyrosine kinases, *ALTERNATIVE RNA splicing, *BLOOD platelets, *AMINO acid residues, *KINASES, *BIOLOGICAL systems

Abstract

Alternate splicing is among the regulatory mechanisms imparting functional diversity in proteins. Studying protein isoforms generated through alternative splicing is therefore critical for understanding protein functions in many biological systems. Spleen tyrosine kinase (Syk) plays an essential role in ITAM/hemITAM signaling in many cell types, including platelets. However, the spectrum of Syk isoforms expressed in platelets has not been characterized. Syk has been shown to have a full-length long isoform SykL and a shorter SykS lacking 23 amino acid residues within its interdomain B. Furthermore, putative isoforms lacking another 23 amino acid-long sequence or a combination of the two deletions have been postulated to exist. In this report, we demonstrate that mouse platelets express full-length SykL and the previously described shorter isoform SykS, but lack other shorter isoforms, whereas human platelets express predominantly SykL. These results both indicate a possible role of alternative Syk splicing in the regulation of receptor signaling in mouse platelets and a difference between signaling regulation in mouse and human platelets. [ABSTRACT FROM AUTHOR]

Published

2023

7. Biochemical characterization of spleen tyrosine kinase (SYK) isoforms in platelets

Author

Pankaj Kumar Singh, Carol A. Dangelmaier, Hymavathi Reddy Vari, Alexander Y. Tsygankov, and Satya P. Kunapuli

Subjects

alternate splicing, gpvi, platelets, syk, tyrosine kinases, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Alternate splicing is among the regulatory mechanisms imparting functional diversity in proteins. Studying protein isoforms generated through alternative splicing is therefore critical for understanding protein functions in many biological systems. Spleen tyrosine kinase (Syk) plays an essential role in ITAM/hemITAM signaling in many cell types, including platelets. However, the spectrum of Syk isoforms expressed in platelets has not been characterized. Syk has been shown to have a full-length long isoform SykL and a shorter SykS lacking 23 amino acid residues within its interdomain B. Furthermore, putative isoforms lacking another 23 amino acid-long sequence or a combination of the two deletions have been postulated to exist. In this report, we demonstrate that mouse platelets express full-length SykL and the previously described shorter isoform SykS, but lack other shorter isoforms, whereas human platelets express predominantly SykL. These results both indicate a possible role of alternative Syk splicing in the regulation of receptor signaling in mouse platelets and a difference between signaling regulation in mouse and human platelets.

Published

2023

8. Luteolin inhibits GPVI-mediated platelet activation, oxidative stress, and thrombosis.

Author

Yujia Ye, Lihong Yang, Min Leng, Qian Wang, Jiankui Wu, Wen Wan, Huawei Wang, Longjun Li, Yunzhu Peng, Shengjie Chai, and Zhaohui Meng

Subjects

BLOOD platelet aggregation, BLOOD platelet activation, LUTEOLIN, OXIDATIVE stress, SURFACE plasmon resonance, BINDING site assay, THROMBIN receptors

Abstract

Introduction: Luteolin inhibits platelet activation and thrombus formation, but the mechanisms are unclear. This study investigated the effects of luteolin on GPVImediated platelet activation in vitro and explored the effect of luteolin on thrombosis, coagulation, and platelet production in vivo. Methods: Washed human platelets were used for aggregation, membrane protein expression, ATP, Ca2+, and LDH release, platelet adhesion/spreading, and clot retraction experiments. Washed human platelets were used to detect collagen and convulxin-induced reactive oxygen species production and endogenous antioxidant effects. C57BL/6 male mice were used for ferric chloride-induced mesenteric thrombosis, collagen-epinephrine induced acute pulmonary embolism, tail bleeding, coagulation function, and luteolin toxicity experiments. The interaction between luteolin and GPVI was analyzed using solid phase binding assay and surface plasmon resonance (SPR). Results: Luteolin inhibited collagen- and convulxin-mediated platelet aggregation, adhesion, and release. Luteolin inhibited collagen- and convulxininduced platelet ROS production and increased platelet endogenous antioxidant capacity. Luteolin reduced convulxin-induced activation of ITAM and MAPK signaling molecules. Molecular docking simulation showed that luteolin forms hydrogen bonds with GPVI. The solid phase binding assay showed that luteolin inhibited the interaction between collagen and GPVI. Surface plasmon resonance showed that luteolin bonded GPVI. Luteolin inhibited integrin αIIbβ3-mediated platelet activation. Luteolin inhibited mesenteric artery thrombosis and collagenadrenergic-induced pulmonary thrombosis in mice. Luteolin decreased oxidative stress in vivo. Luteolin did not affect coagulation, hemostasis, or platelet production in mice. Discussion: Luteolin may be an effective and safe antiplatelet agent target for GPVI. A new mechanism (decreased oxidative stress) for the anti-platelet activity of luteolin has been identified. [ABSTRACT FROM AUTHOR]

Published

2023

9. Molecular basis of clot retraction and its role in wound healing.

Author

Nurden, Alan T.

Subjects

*WOUND healing, *BLOOD platelet aggregation, *BLOOD cells, *CELL migration, *MESENCHYMAL stem cells

Abstract

Clot retraction is important for the prevention of bleeding, in the manifestations of thrombosis and for tissue repair. The molecular mechanisms behind clot formation are complex. Platelet involvement begins with adhesion at sites of vessel injury followed by platelet aggregation, thrombin generation and fibrin production. Other blood cells incorporate into a fibrin mesh that is consolidated by FXIIIa-mediated crosslinking and platelet contractile activity. The latter results in the asymmetric redistribution of erythrocytes into a tighter central mass providing the clot with stability and resistance to fibrinolysis. Integrin αIIbβ3 on platelets is the key player in these events, bridging fibrin and the platelet cytoskeleton. Glycoprotein VI participates in thrombus formation but not in the retraction. Rheological and environmental factors influence clot construction with retraction driven by the platelet cytoskeleton with actomyosin acting as the motor. Activated platelets provide procoagulant activity stimulating thrombin generation together with the release of a plethora of biologically active proteins and substances from storage pools; many form chemotactic gradients within the fibrin or the underlying matrix. Also released are newly synthesized metabolites and lipid-rich vesicles that circulate within the vasculature and mimic platelet functions. Platelets and their released elements play key roles in wound healing. This includes promoting stem cell and mesenchymal stromal cell recruitment, fibroblast and endothelial cell migration, angiogenesis and matrix formation. These properties have led to the use of autologous clots in therapies designed to accelerate tissue repair while offering the potential for genetic manipulation in both inherited and acquired diseases. • Clot retraction stabilizes thrombi by αIIbβ3-dependent interactions with fibrin and myosin-mediated contractile forces. • Activated platelets provide a surface for thrombin generation and are a source of proteins active in tissue repair. • Altered mechanosensitive properties of platelets within the clot influence thrombosis as in stroke and Covid-19 pathologies. [ABSTRACT FROM AUTHOR]

Published

2023

10. The Anti-Aggregative Potential of Resolvin E1 on Human Platelets.

Author

Szymańska, Patrycja, Luzak, Bogusława, Miłowska, Katarzyna, and Golański, Jacek

Subjects

*BLOOD platelet aggregation, *BLOOD platelets, *UNSATURATED fatty acids, *OMEGA-3 fatty acids, *EICOSAPENTAENOIC acid, *PLATELET-rich plasma

Abstract

Resolvin E1 is a metabolite of eicosapentaenoic acid (EPA) which is one of the omega-3 polyunsaturated fatty acids (omega-3 PUFAs). The antiplatelet properties of omega-3 PUFAs are well known, but the effect of resolvin E1 on platelets via the collagen receptors is extremely poorly reported. We investigated the effect of resolvin E1 on collagen-induced platelet aggregation, activation, and reactivity, and also platelet membrane fluidity. The ultimate and statistically significant results showed that resolvin E1 may inhibit platelet reactivity due to the reduction of collagen-induced platelet aggregation in platelet-rich plasma and isolated platelets, but not in whole blood. Also, resolvin E1 significantly reduced P-selectin exposure on collagen-stimulated platelets. Moreover, we demonstrated that resolvin E1 can maintain platelet membrane structure (without increasing membrane fluidity). The association between platelet reactivity and membrane fluidity, including resolvin E1 and collagen receptors requires further research. However, the goal of this study was to shed light on the molecular mechanisms behind the anti-aggregative effects of resolvin E1 on platelets, which are still not fully clarified. We also indicate an innovative research direction focused on further analysis and then use of omega-3 PUFAs metabolites as antiplatelet compounds for future applications in the treatment and prevention of cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2023

11. Inhibition of Src but not Syk causes weak reversal of GPVI-mediated platelet aggregation measured by light transmission aggregometry

Author

Hilaire Yam Fung Cheung, Luis A. Moran, Albert Sickmann, Johan W.M. Heemskerk, Ángel Garcia, and Steve P. Watson

Subjects

aggregation, clec-2, disaggregation, gpvi, platelets, tyrosine kinase, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Src tyrosine kinases and spleen tyrosine kinase (Syk) have recently been shown to contribute to sustained platelet aggregation on collagen under arterial shear. In the present study, we have investigated whether Src and Syk are required for aggregation under minimal shear following activation of glycoprotein VI (GPVI) and have extended this to C-type lectin-like receptor-2 (CLEC-2) which signals through the same pathway. Aggregation was induced by the GPVI ligand collagen-related peptide (CRP) and the CLEC-2 ligand rhodocytin and monitored by light transmission aggregometry (LTA). Aggregation and tyrosine phosphorylation by both receptors were sustained for up to 50 min. The addition of inhibitors of Src, Syk or Bruton’s tyrosine kinase (Btk) at 150 sec, by which time aggregation was maximal, induced rapid loss of tyrosine phosphorylation of their downstream proteins, but only Src kinase inhibition caused a weak (~10%) reversal in light transmission. A similar effect was observed when the inhibitors were combined with apyrase and indomethacin or glycoprotein IIb-IIIa (GPIIb-IIIa) antagonist, eptifibatide. On the other hand, activation of GPIIb-IIIa by GPVI in a diluted platelet suspension, as measured by binding of fluorescein isothiocyanate-labeled antibody specific for the activated GPIIb-IIIa (FITC-PAC1), was reversed on the addition of Src and Syk inhibitors showing that integrin activation is rapidly reversible in the absence of outside-in signals. The results demonstrate that Src but not Syk and Btk contribute to sustained aggregation as monitored by LTA, possibly as a result of inhibition of outside-in signaling from GPIIb-IIIa to the cytoskeleton through a Syk-independent pathway. This is in contrast to the role of Syk in supporting sustained aggregation on collagen under arterial shear.

Published

2022

12. Paclitaxel exerts antiplatelet and antithrombotic activities: Additional benefit from use of paclitaxel-coated balloons and -eluting stents in coronary revascularization and prevention of in-stent restenosis.

Author

Lin, Kuan-Hung, Li, Jiun-Yi, Chen, Ray-Jade, Chen, Ting-Yu, Hsu, Shao-Hsuan, Wang, Hsueh-Hsiao, Peng, Hsien-Yu, Sun, Yu-Yo, and Lu, Wan-Jung

Subjects

*SURGICAL stents, *PACLITAXEL, *SURFACE plasmon resonance, *VASCULAR smooth muscle, *PERCUTANEOUS coronary intervention

Abstract

Paclitaxel is a microtubule-stabilizing drug used to treat several types of cancer, including ovarian and breast cancer. Because of its antiproliferative effect on vascular smooth muscle cells, balloons and stents are coated with paclitaxel for use in coronary revascularization and prevention of in-stent restenosis (ISR). However, mechanisms underlying ISR are complicated. Platelet activation is one of the major causes of ISR after percutaneous coronary intervention. Although the antiplatelet activity of paclitaxel was noted in rabbit platelets, the effect of paclitaxel on platelets remains unclear. This study investigated whether paclitaxel exhibits antiplatelet activity in human platelets. Paclitaxel inhibited platelet aggregation induced by collagen but not that induced by thrombin, arachidonic acid, or U46619, suggesting that paclitaxel is more sensitive to the inhibition of collagen-induced platelet activation. Moreover, paclitaxel blocked collagen receptor glycoprotein (GP) VI downstream signaling molecules, including Lyn, Fyn, PLCγ2, PKC, Akt, and MAPKs. However, paclitaxel did not directly bind to GPVI and cause GPVI shedding, as detected by surface plasmon resonance and flow cytometry, respectively, indicating that paclitaxel may interfere with GPVI downstream signaling molecules, such as Lyn and Fyn. Paclitaxel also prevented granule release and GPIIbIIIa activation induced by collagen and low convulxin doses. Moreover, paclitaxel attenuated pulmonary thrombosis and delayed platelet thrombus formation in mesenteric microvessels without significantly affecting hemostasis. Paclitaxel exerts antiplatelet and antithrombotic effects. Thus, paclitaxel may provide additional benefits beyond its antiproliferative effect when used in drug-coated balloons and drug-eluting stents for coronary revascularization and prevention of ISR. [Display omitted] • Platelet activation is involved in thrombosis and in-stent restenosis. • Paclitaxel-coated balloon and -eluting stent used for coronary revascularization • Paclitaxel exerts antiplatelet and antithrombotic activities. • Paclitaxel's antiplatelet effects also contribute to preventing in-stent restenosis. [ABSTRACT FROM AUTHOR]

Published

2023

13. Minimal Collagen-Binding Epitope of Glycoprotein VI in Human and Mouse Platelets.

Author

Han, Chao, Ren, Pengxuan, Mamtimin, Medina, Kruk, Linus, Sarukhanyan, Edita, Li, Chenyu, Anders, Hans-Joachim, Dandekar, Thomas, Krueger, Irena, Elvers, Margitta, Goebel, Silvia, Adler, Kristin, Münch, Götz, Gudermann, Thomas, Braun, Attila, and Mammadova-Bach, Elmina

Subjects

HEMATOPOIESIS, BLOOD platelet aggregation, BLOOD platelets, FIBRIN, TRANSGENIC mice, MONOMERS

Abstract

Glycoprotein VI (GPVI) is a platelet-specific receptor for collagen and fibrin, regulating important platelet functions such as platelet adhesion and thrombus growth. Although the blockade of GPVI function is widely recognized as a potent anti-thrombotic approach, there are limited studies focused on site-specific targeting of GPVI. Using computational modeling and bioinformatics, we analyzed collagen- and CRP-binding surfaces of GPVI monomers and dimers, and compared the interacting surfaces with other mammalian GPVI isoforms. We could predict a minimal collagen-binding epitope of GPVI dimer and designed an EA-20 antibody that recognizes a linear epitope of this surface. Using platelets and whole blood samples donated from wild-type and humanized GPVI transgenic mice and also humans, our experimental results show that the EA-20 antibody inhibits platelet adhesion and aggregation in response to collagen and CRP, but not to fibrin. The EA-20 antibody also prevents thrombus formation in whole blood, on the collagen-coated surface, in arterial flow conditions. We also show that EA-20 does not influence GPVI clustering or receptor shedding. Therefore, we propose that blockade of this minimal collagen-binding epitope of GPVI with the EA-20 antibody could represent a new anti-thrombotic approach by inhibiting specific interactions between GPVI and the collagen matrix. [ABSTRACT FROM AUTHOR]

Published

2023

14. Biochemical characterization of spleen tyrosine kinase (SYK) isoforms in platelets.

Author

Kumar Singh, Pankaj, Dangelmaier, Carol A., Reddy Vari, Hymavathi, Tsygankov, Alexander Y., and Kunapuli, Satya P.

Subjects

*PROTEIN-tyrosine kinases, *ALTERNATIVE RNA splicing, *BLOOD platelets, *KINASES, *AMINO acid residues, *BIOLOGICAL systems

Abstract

Alternate splicing is among the regulatory mechanisms imparting functional diversity in proteins. Studying protein isoforms generated through alternative splicing is therefore critical for understanding protein functions in many biological systems. Spleen tyrosine kinase (Syk) plays an essential role in ITAM/hemITAM signaling in many cell types, including platelets. However, the spectrum of Syk isoforms expressed in platelets has not been characterized. Syk has been shown to have a full-length long isoform SykL and a shorter SykS lacking 23 amino acid residues within its interdomain B. Furthermore, putative isoforms lacking another 23 amino acid-long sequence or a combination of the two deletions have been postulated to exist. In this report, we demonstrate that mouse platelets express full-length SykL and the previously described shorter isoform SykS, but lack other shorter isoforms, whereas human platelets express predominantly SykL. These results both indicate a possible role of alternative Syk splicing in the regulation of receptor signaling in mouse platelets and a difference between signaling regulation in mouse and human platelets. Platelets express two sizes of the Syk molecule with possible alternate functions in the cell. We need to understand how these two differ in their structure so that further studies can be developed by selectively deleting one of them to evaluate their function in platelets. This study shows that platelet Syk molecules differ in their structure with and without a linker region in the molecule. [ABSTRACT FROM AUTHOR]

Published

2023

15. Janus kinase inhibitors ruxolitinib and baricitinib impair glycoprotein-VI mediated platelet function

Author

Iván Parra-Izquierdo, Alexander R. Melrose, Jiaqing Pang, Hari Hara Sudhan Lakshmanan, Stéphanie E. Reitsma, Sai Hitesh Vavilapalli, Mark K. Larson, Joseph J. Shatzel, Owen J. T. McCarty, and Joseph E. Aslan

Subjects

baricitinib, gpvi, jak, platelets, ruxolitinib, stat5, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Several Janus kinase (JAK) inhibitors (jakinibs) have recently been approved to treat inflammatory, autoimmune and hematological conditions. Despite emerging roles for JAKs and downstream signal transducer and activator of transcription (STAT) proteins in platelets, it remains unknown whether jakinibs affect platelet function. Here, we profile platelet biochemical and physiological responses in vitro in the presence of five different clinically relevant jakinibs, including ruxolitinib, upadacitinib, oclacitinib, baricitinib and tofacitinib. Flow cytometry, microscopy and other assays found that potent JAK1/2 inhibitors baricitinib and ruxolitinib reduced platelet adhesion to collagen, as well as platelet aggregation, secretion and integrin αIIbβ3 activation in response to the glycoprotein VI (GPVI) agonist collagen-related peptide (CRP-XL). Western blot analysis demonstrated that jakinibs reduced Akt phosphorylation and activation following GPVI activation, where ruxolitinib and baricitinib prevented DAPP1 phosphorylation. In contrast, jakinibs had no effects on platelet responses to thrombin. Inhibitors of GPVI and JAK signaling also abrogated platelet STAT5 phosphorylation following CRP-XL stimulation. Additional pharmacologic experiments supported roles for STAT5 in platelet secretion, integrin activation and cytoskeletal responses. Together, our results demonstrate that ruxolitinib and baricitinib have inhibitory effects on platelet function in vitro and support roles for JAK/STAT5 pathways in GPVI/ITAM mediated platelet function.

Published

2022

16. Mechanisms of platelet inhibition by the selective serotonin reuptake inhibitor citalopram

Author

Roweth, Harvey George, Jarvis, Gavin, and Sage, Stewart

Subjects

616.1, Platelet, Citalopram, Selective serotonin reuptake inhibitor, CalDAG-GEFI, GPVI, Aggregation, Rap1, Calcium, Serotonin, Serotonin transporter, Neutrophil, Thrombosis

Abstract

Background: Selective serotonin reuptake inhibitor (SSRI) antidepressants prevent serotonin (5-HT) uptake by the serotonin transporter (SERT). Since blood platelets express SERT, SSRIs may modify platelet function and the risk of cardiovascular disease. However, the beneficial or adverse effects of SSRIs on arterial thrombosis are poorly characterised and detailed in vitro experimental data is limited. The SSRI citalopram is a racemate, the (S)-isomer being the more potent SERT inhibitor. Although citalopram has been shown to inhibit platelets in vitro, it is unclear whether this is mediated via SERT blockade. Aim: To determine if citalopram inhibits platelet function via SERT blockade, or through a novel mechanism of action. Findings: 5-HT uptake into platelets was blocked by both citalopram isomers at concentrations that had no apparent effect on platelet function. Despite the (S)-citalopram isomer being the more potent SERT inhibitor, (R)-citalopram was equally potent at inhibiting other platelet functions. These findings strongly suggest that inhibition of platelet function by citalopram in vitro is not mediated by blocking SERT. Subsequent experiments identified two putative mechanisms for citalopram-mediated platelet inhibition: 1) citalopram did not inhibit calcium store release induced by the platelet agonist U46619, despite blocking subsequent Rap1 activation. A credible target for this inhibitory mechanism is the calcium and diacylglycerol guanine nucleotide exchange factor-1 (CalDAG-GEFI): 2) citalopram suppressed early protein phosphorylation within the GPVI pathway, resulting in the inhibition of subsequent platelet responses. Further experiments show that other commonly used antidepressants also inhibit platelets. As with citalopram, inhibition was only observed at concentrations above those required to block SERT, suggesting that alternative inhibitory mechanism(s) are responsible. Conclusions: Data presented in this thesis support two novel putative mechanisms of citalopram-induced platelet inhibition. These findings demonstrate that citalopram and other antidepressants inhibit platelets independently of their ability to block SERT-dependent 5-HT transport. The identification of thesemechanisms provides a pharmacological approach to develop novel antiplatelet agents based on current antidepressants.

Published

2018

17. Perspective: Collagen induced platelet activation via the GPVI receptor as a primary target of colchicine in cardiovascular disease

Author

Gabrielle J. Pennings, Caroline J. Reddel, Vivien M. Chen, Sonali R. Gnanenthiran, and Leonard Kritharides

Subjects

colchicine, platelet activation, GPVI, cardiovascular disease (CVD), stroke, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Colchicine has been demonstrated to reduce cardiovascular death, myocardial infarction (MI), ischemic stroke, and ischemia-driven coronary revascularization in people with coronary artery disease (CAD). These reductions were observed even in patients already taking antiplatelet therapy. As well as having anti-inflammatory effects, colchicine demonstrates antiplatelet effects. We propose that colchicine's antiplatelet effects primarily target collagen-induced platelet activation via the collagen receptor, glycoprotein (GP)VI, which is critical for arterial thrombosis formation. In settings such as stroke and MI, GPVI signaling is upregulated. We have demonstrated in vitro that therapeutic concentrations of colchicine lead to a decrease in collagen-induced platelet aggregation and alter GPVI signaling. Clinical studies of colchicine given for 6 months lead to a significant reduction in serum GPVI levels in CAD patients, which may ameliorate thrombotic risk. Future evaluation of the effects of colchicine in clinical trials should include assessment of its effects on collagen-mediated platelet activation, and consideration be given to quantifying the contribution of such antiplatelet effects additional to the known anti-inflammatory effects of colchicine.

Published

2023

18. Inhibition of Src but not Syk causes weak reversal of GPVI-mediated platelet aggregation measured by light transmission aggregometry.

Author

Cheung, Hilaire Yam Fung, Moran, Luis A., Sickmann, Albert, Heemskerk, Johan W.M., Garcia, Ángel, and Watson, Steve P.

Subjects

*LECTINS, *BLOOD platelet aggregation, *BRUTON tyrosine kinase, *LIGHT transmission, *PEPTIDES, *PROTEIN-tyrosine kinases

Abstract

Src tyrosine kinases and spleen tyrosine kinase (Syk) have recently been shown to contribute to sustained platelet aggregation on collagen under arterial shear. In the present study, we have investigated whether Src and Syk are required for aggregation under minimal shear following activation of glycoprotein VI (GPVI) and have extended this to C-type lectin-like receptor-2 (CLEC-2) which signals through the same pathway. Aggregation was induced by the GPVI ligand collagen-related peptide (CRP) and the CLEC-2 ligand rhodocytin and monitored by light transmission aggregometry (LTA). Aggregation and tyrosine phosphorylation by both receptors were sustained for up to 50 min. The addition of inhibitors of Src, Syk or Bruton's tyrosine kinase (Btk) at 150 sec, by which time aggregation was maximal, induced rapid loss of tyrosine phosphorylation of their downstream proteins, but only Src kinase inhibition caused a weak (~10%) reversal in light transmission. A similar effect was observed when the inhibitors were combined with apyrase and indomethacin or glycoprotein IIb-IIIa (GPIIb-IIIa) antagonist, eptifibatide. On the other hand, activation of GPIIb-IIIa by GPVI in a diluted platelet suspension, as measured by binding of fluorescein isothiocyanate-labeled antibody specific for the activated GPIIb-IIIa (FITC-PAC1), was reversed on the addition of Src and Syk inhibitors showing that integrin activation is rapidly reversible in the absence of outside-in signals. The results demonstrate that Src but not Syk and Btk contribute to sustained aggregation as monitored by LTA, possibly as a result of inhibition of outside-in signaling from GPIIb-IIIa to the cytoskeleton through a Syk-independent pathway. This is in contrast to the role of Syk in supporting sustained aggregation on collagen under arterial shear. [ABSTRACT FROM AUTHOR]

Published

2022

19. The humanized platelet glycoprotein VI Fab inhibitor EMA601 protects from arterial thrombosis and ischaemic stroke in mice.

Author

Navarro S, Talucci I, Göb V, Hartmann S, Beck S, Orth V, Stoll G, Maric HM, Stegner D, and Nieswandt B

Subjects

Animals, Mice, Humans, Antibodies, Monoclonal, Humanized pharmacology, Antibodies, Monoclonal, Humanized therapeutic use, Disease Models, Animal, Blood Platelets metabolism, Blood Platelets drug effects, Male, Platelet Membrane Glycoproteins antagonists & inhibitors, Platelet Membrane Glycoproteins metabolism, Immunoglobulin Fab Fragments pharmacology, Immunoglobulin Fab Fragments therapeutic use, Ischemic Stroke prevention & control, Thrombosis prevention & control

Abstract

Background and Aims: Glycoprotein VI (GPVI) is a platelet collagen/fibrin(ogen) receptor and an emerging pharmacological target for the treatment of thrombotic and thrombo-inflammatory diseases, notably ischaemic stroke. A first anti-human GPVI (hGPVI) antibody Fab-fragment (ACT017/glenzocimab, KD: 4.1 nM) recently passed a clinical phase 1b/2a study in patients with acute ischaemic stroke and was found to be well tolerated, safe, and potentially beneficial. In this study, a novel humanized anti-GPVI antibody Fab-fragment (EMA601; KD: 0.195 nM) was developed that inhibits hGPVI function with very high potency in vitro and in vivo., Methods: Fab-fragments of the mouse anti-hGPVI IgG Emf6.1 were tested for functional GPVI inhibition in human platelets and in hGPVI expressing (hGP6tg/tg) mouse platelets. The in vivo effect of Emf6.1Fab was assessed in a tail bleeding assay, an arterial thrombosis model and the transient middle cerebral artery occlusion (tMCAO) model of ischaemic stroke. Using complementary-determining region grafting, a humanized version of Emf6.1Fab (EMA601) was generated. Emf6.1Fab/EMA601 interaction with hGPVI was mapped in array format and kinetics and quantified by bio-layer interferometry., Results: Emf6.1Fab (KD: 0.427 nM) blocked GPVI function in human and hGP6tg/tg mouse platelets in multiple assays in vitro at concentrations ≥5 µg/mL. Emf6.1Fab (4 mg/kg)-treated hGP6tg/tg mice showed potent hGPVI inhibition ex vivo and were profoundly protected from arterial thrombosis as well as from cerebral infarct growth after tMCAO, whereas tail-bleeding times remained unaffected. Emf6.1Fab binds to a so far undescribed membrane proximal epitope in GPVI. The humanized variant EMA601 displayed further increased affinity for hGPVI (KD: 0.195 nM) and fully inhibited the receptor at 0.5 µg/mL, corresponding to a >50-fold potency compared with ACT017., Conclusions: EMA601 is a conceptually novel and promising anti-platelet agent to efficiently prevent or treat arterial thrombosis and thrombo-inflammatory pathologies in humans at risk., (© The Author(s) 2024. Published by Oxford University Press on behalf of the European Society of Cardiology.)

Published

2024

20. Platelet activation by charged ligands and nanoparticles: platelet glycoprotein receptors as pattern recognition receptors

Author

Samantha J. Montague, Pushpa Patel, Eleyna M. Martin, Alexandre Slater, Lourdes Garcia Quintanilla, Gina Perrella, Caroline Kardeby, Magdolna Nagy, Diego Mezzano, Paula M. Mendes, and Steve P. Watson

Subjects

clec-2, gpvi, nanoparticles, pattern recognition receptors, pear1, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Charge interactions play a critical role in the activation of the innate immune system by damage- and pathogen-associated molecular pattern receptors. The ability of these receptors to recognize a wide spectrum of ligands through a common mechanism is critical in host defense. In this article, we argue that platelet glycoprotein receptors that signal through conserved tyrosine-based motifs function as pattern recognition receptors (PRRs) for charged endogenous and exogenous ligands, including sulfated polysaccharides, charged proteins and nanoparticles. This is exemplified by GPVI, CLEC-2 and PEAR1 which are activated by a wide spectrum of endogenous and exogenous ligands, including diesel exhaust particles, sulfated polysaccharides and charged surfaces. We propose that this mechanism has evolved to drive rapid activation of platelets at sites of injury, but that under some conditions it can drive occlusive thrombosis, for example, when blood comes into contact with infectious agents or toxins. In this Opinion Article, we discuss mechanisms behind charge-mediated platelet activation and opportunities for designing nanoparticles and related agents such as dendrimers as novel antithrombotics.

Published

2021

21. Artesunate as a glycoprotein VI antagonist for preventing platelet activation and thrombus formation

Author

Wan-Jung Lu, Chung-Hsin Tsai, Ray-Jade Chen, Li-Ting Huang, Ting-Yu Chen, Lih-Chyang Chen, Hsueh-Hsiao Wang, Hsien-Yu Peng, Yu-Yo Sun, and Kuan-Hung Lin

Subjects

Artesunate, GPVI, Platelet activation, Thrombus formation, Cardiovascular diseases, Therapeutics. Pharmacology, RM1-950

Abstract

Platelets play a crucial role on hemostasis and are also involved in cardiovascular diseases, such as heart attack and stroke. Artesunate has been reported to possess multiple biological activities, including antitumor and anti-inflammatory activities. However, its effect on platelet activation remains unclear. Thus, we explored the detailed mechanisms underlying its antiplatelet effect. For the in vitro study, the data indicated that artesunate inhibited platelet aggregation induced by collagen, but not thrombin or U46619, indicating that artesunate may selectively inhibit collagen-mediated platelet activation Artesunate also blocked glycoprotein VI (GPVI) downstream signaling, including Syk, PLCγ2, PKC, Akt, and MAPKs. Moreover, artesunate could compete with collagen for binding to collagen receptor and bind to human recombinant GPVI with a high affinity (KD = 44 nM), indicating that it may directly interfere with GPVI. Artesunate also reduced collagen-induced granule release, calcium mobilization, and GPIIbIIIa activation. For the in vivo study, artesunate markedly prevented pulmonary thrombosis and delayed platelet thrombus formation in mesenteric veins and arteries but had minimal effects on hemostasis. In conclusion, we for the first time demonstrated that artesunate acts as a GPVI antagonist and effectively prevents platelet activation and thrombus formation with minimal risk of bleeding, highlighting its therapeutic potential in cardiovascular diseases.

Published

2022

22. The Anti-Aggregative Potential of Resolvin E1 on Human Platelets

Author

Patrycja Szymańska, Bogusława Luzak, Katarzyna Miłowska, and Jacek Golański

Subjects

platelets, aggregation, reactivity, anti-aggregative, collagen, GPVI, Organic chemistry, QD241-441

Abstract

Resolvin E1 is a metabolite of eicosapentaenoic acid (EPA) which is one of the omega-3 polyunsaturated fatty acids (omega-3 PUFAs). The antiplatelet properties of omega-3 PUFAs are well known, but the effect of resolvin E1 on platelets via the collagen receptors is extremely poorly reported. We investigated the effect of resolvin E1 on collagen-induced platelet aggregation, activation, and reactivity, and also platelet membrane fluidity. The ultimate and statistically significant results showed that resolvin E1 may inhibit platelet reactivity due to the reduction of collagen-induced platelet aggregation in platelet-rich plasma and isolated platelets, but not in whole blood. Also, resolvin E1 significantly reduced P-selectin exposure on collagen-stimulated platelets. Moreover, we demonstrated that resolvin E1 can maintain platelet membrane structure (without increasing membrane fluidity). The association between platelet reactivity and membrane fluidity, including resolvin E1 and collagen receptors requires further research. However, the goal of this study was to shed light on the molecular mechanisms behind the anti-aggregative effects of resolvin E1 on platelets, which are still not fully clarified. We also indicate an innovative research direction focused on further analysis and then use of omega-3 PUFAs metabolites as antiplatelet compounds for future applications in the treatment and prevention of cardiovascular diseases.

Published

2023

23. Overcoming challenges in developing small molecule inhibitors for GPVI and CLEC-2

Author

Foteini-Nafsika Damaskinaki, Luis A. Moran, Angel Garcia, Barrie Kellam, and Steve P. Watson

Subjects

gpvi, clec-2, small molecule inhibitors, platelets, antagonists, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

GPVI and CLEC-2 have emerged as promising targets for long-term prevention of both arterial thrombosis and thrombo-inflammation with a decreased bleeding risk relative to current drugs. However, while there are potent blocking antibodies of both receptors, their protein nature comes with decreased bioavailability, making formulation for oral medication challenging. Small molecules are able to overcome these limitations, but there are many challenges in developing antagonists of nanomolar potency, which is necessary when considering the structural features that underlie the interaction of CLEC-2 and GPVI with their protein ligands. In this review, we describe current small-molecule inhibitors for both receptors and strategies to overcome such limitations, including considerations when it comes to in silico drug design and the importance of complex compound library selection.

Published

2021

24. Structure-function relationship of the platelet glycoprotein VI (GPVI) receptor: does it matter if it is a dimer or monomer?

Author

Joanne C. Clark, Foteini-Nafsika Damaskinaki, Yam Fung Hilaire Cheung, Alexandre Slater, and Steve P. Watson

Subjects

gpvi, dimerization, platelets, ligands, structure-function, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

GPVI is a critical signaling receptor responsible for collagen-induced platelet activation and a promising anti-thrombotic target in conditions such as coronary artery thrombosis, ischemic stroke, and atherothrombosis. This is due to the ability to block GPVI while having minimal effects on hemostasis, making it a more attractive target over current dual-antiplatelet therapy (DAPT) with acetyl salicylic acid and P2Y12 inhibitors where bleeding can be a problem. Our current understanding of how the structure of GPVI relates to function is inadequate and recent studies contradict each other. In this article, we summarize the structure-function relationships underlying the activation of GPVI by its major ligands, including collagen, fibrin(ogen), snake venom toxins and charged exogenous ligands such as diesel exhaust particles. We argue that contrary to popular belief dimerization of GPVI is not required for binding to collagen but serves to facilitate binding through increased avidity, and that GPVI is expressed as a mixture of monomers and dimers on resting platelets, with binding of multivalent ligands inducing higher order clustering.

Published

2021

25. Targeting platelet inhibition receptors for novel therapies: PECAM-1 and G6b-B

Author

Eva M Soriano Jerez, Jonathan M Gibbins, and Craig E Hughes

Subjects

antiplatelet therapy, g6b-b, gpvi, itim, pecam-1, platelet receptors, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

While current oral antiplatelet therapies benefit many patients, they deregulate the hemostatic balance leaving patients at risk of systemic side-effects such as hemorrhage. Dual antiplatelet treatment is the standard approach, combining aspirin with P2Y12 blockers. These therapies mainly target autocrine activation mechanisms (TxA2, ADP) and, more recently, the use of thrombin or thrombin receptor antagonists have been added to the available approaches. Recent efforts to develop new classes of anti-platelet drugs have begun to focus on primary platelet activation pathways such as through the immunoreceptor tyrosine-based activation motif (ITAM)-containing collagen receptor GPVI/FcRγ-chain complex. There are already encouraging results from targeting GPVI, with reduced aggregation and smaller arterial thrombi, without major bleeding complications, likely due to overlapping activation signaling pathways with other receptors such as the GPIb–V–IX complex. An alternative approach to reduce platelet activation could be to inhibit this signaling pathway by targeting the inhibitory pathways intrinsic to platelets. Stimulation of endogenous negative modulators could provide more specific inhibition of platelet function, but is this feasible? In this review, we explore the potential of the two major platelet immunoreceptor tyrosine-based inhibitory motif (ITIM)-containing inhibitory receptors, G6b-B and PECAM-1, as antithrombotic targets.

Published

2021

26. mTOR regulates GPVI-mediated platelet activation

Author

Longsheng Wang, Gang Liu, Nannan Wu, Baiyun Dai, Shuang Han, Qiaoyun Liu, Fang Huang, Zhihua Chen, Weihong Xu, Dajing Xia, and Cunji Gao

Subjects

Platelets, mTOR, GPVI, Dense granule secretion (ATP release), Pkcδ, Medicine

Abstract

Abstract Background Due to mTOR (mammalian/mechanistic target of rapamycin) gene-loss mice die during embryonic development, the role of mTOR in platelets has not been evaluated using gene knockout technology. Methods A mouse model with megakaryocyte/platelet-specific deletion of mTOR was established, and be used to evaluate the role of mTOR in platelet activation and thrombus formation. Results mTOR−/− platelets were deficient in thrombus formation when grown on low-concentration collagen-coated surfaces; however, no deficiency in thrombus formation was observed when mTOR−/− platelets were perfused on higher concentration collagen-coated surfaces. In FeCl3-induced mouse mesenteric arteriole thrombosis models, wild-type (WT) and mTOR −/− mice displayed significantly different responses to low-extent injury with respect to the ratio of occluded mice, especially within the first 40 min. Additionally, mTOR−/− platelets displayed reduced aggregation and dense granule secretion (ATP release) in response to low doses of the glycoprotein VI (GPVI) agonist collagen related peptide (CRP) and the protease-activated receptor-4 (PAR4) agonist GYPGKF-NH2; these deficiencies were overcame by stimulation with higher concentration agonists, suggesting dose dependence of the response. At low doses of GPVI or PAR agonist, the activation of αIIbβ3 in mTOR −/− platelets was reduced. Moreover, stimulation of mTOR−/− platelets with low-dose CRP attenuated the phosphorylation of S6K1, S6 and Akt Ser473, and increased the phosphorylation of PKCδ Thr505 and PKCε Ser729. Using isoform-specific inhibitors of PKCs (δ, ɛ, and α/β), we established that PKCδ/ɛ, and especially PKCδ but not PKCα/β or PKCθ, may be involved in low-dose GPVI-mediated/mTOR-dependent signaling. Conclusion These observations indicate that mTOR plays an important role in GPVI-dependent platelet activation and thrombus formation.

Published

2021

27. Janus kinase inhibitors ruxolitinib and baricitinib impair glycoprotein-VI mediated platelet function.

Author

Parra-Izquierdo, Iván, Melrose, Alexander R., Pang, Jiaqing, Lakshmanan, Hari Hara Sudhan, Reitsma, Stéphanie E., Vavilapalli, Sai Hitesh, Larson, Mark K., Shatzel, Joseph J., McCarty, Owen J. T., and Aslan, Joseph E.

Subjects

*KINASE inhibitors, *RUXOLITINIB, *BARICITINIB, *BLOOD platelets, *BLOOD platelet aggregation, *COLLAGEN

Abstract

Several Janus kinase (JAK) inhibitors (jakinibs) have recently been approved to treat inflammatory, autoimmune and hematological conditions. Despite emerging roles for JAKs and downstream signal transducer and activator of transcription (STAT) proteins in platelets, it remains unknown whether jakinibs affect platelet function. Here, we profile platelet biochemical and physiological responses in vitro in the presence of five different clinically relevant jakinibs, including ruxolitinib, upadacitinib, oclacitinib, baricitinib and tofacitinib. Flow cytometry, microscopy and other assays found that potent JAK1/2 inhibitors baricitinib and ruxolitinib reduced platelet adhesion to collagen, as well as platelet aggregation, secretion and integrin αIIbβ3 activation in response to the glycoprotein VI (GPVI) agonist collagen-related peptide (CRP-XL). Western blot analysis demonstrated that jakinibs reduced Akt phosphorylation and activation following GPVI activation, where ruxolitinib and baricitinib prevented DAPP1 phosphorylation. In contrast, jakinibs had no effects on platelet responses to thrombin. Inhibitors of GPVI and JAK signaling also abrogated platelet STAT5 phosphorylation following CRP-XL stimulation. Additional pharmacologic experiments supported roles for STAT5 in platelet secretion, integrin activation and cytoskeletal responses. Together, our results demonstrate that ruxolitinib and baricitinib have inhibitory effects on platelet function in vitro and support roles for JAK/STAT5 pathways in GPVI/ITAM mediated platelet function. [ABSTRACT FROM AUTHOR]

Published

2022

28. Novel antiplatelet strategies targeting GPVI, CLEC-2 and tyrosine kinases

Author

Maan H. Harbi, Christopher W. Smith, Phillip L. R. Nicolson, Steve P. Watson, and Mark R. Thomas

Subjects

gpvi, clec-2, tyrosine kinase, antiplatelet, btk, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Antiplatelet medications comprise the cornerstone of treatment for diseases that involve arterial thrombosis, including acute coronary syndromes (ACS), stroke and peripheral arterial disease. However, antiplatelet medications may cause bleeding and, furthermore, thrombotic events may still recur despite treatment. The interaction of collagen with GPVI receptors on the surface of platelets has been identified as one of the major players in the pathophysiology of arterial thrombosis that occurs following atherosclerotic plaque rupture. Promisingly, GPVI deficiency in humans appears to have a minimal impact on bleeding. These findings together suggest that targeting platelet GPVI may provide a novel treatment strategy that provides additional antithrombotic efficacy with minimal disruption of normal hemostasis compared to conventional antiplatelet medications. CLEC-2 is gaining interest as a therapeutic target for a variety of thrombo-inflammatory disorders including deep vein thrombosis (DVT) with treatment also predicted to cause minimal disruption to hemostasis. GPVI and CLEC-2 signal through Src, Syk and Tec family tyrosine kinases, providing additional strategies for inhibiting both receptors. In this review, we summarize the evidence regarding GPVI and CLEC-2 and strategies for inhibiting these receptors to inhibit platelet recruitment and activation in thrombotic diseases.

Published

2021

29. Factor XIII is a newly identified binding partner for platelet collagen receptor GPVI‐dimer—An interaction that may modulate fibrin crosslinking

Author

Masaaki Moroi, Isuru Induruwa, Richard W. Farndale, and Stephanie M. Jung

Subjects

crosslinking, factor XIII, fibrin, fibrin clot, GPVI, GPVI‐dimer, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Background In the fibrin‐forming process, thrombin cleaves fibrinogen to fibrin, which form fibrils and then fibers, producing a gel‐like clot. Thrombin also activates coagulation factor XIII (FXIII), which crosslinks fibrin γ‐chains and α‐chains, stabilizing the clot. Many proteins bind to fibrin, including FXIII, an established regulation of clot structure, and platelet glycoprotein VI (GPVI), whose contribution to clot function is largely unknown. FXIII is present in plasma, but the abundant FXIII in platelet cytosol becomes exposed to the surface of strongly activated platelets. Objectives We determined if GPVI interacts with FXIII and how this might modulate clot formation. Methods We measured interactions between recombinant proteins of the GPVI extracellular domain: GPVI‐dimer (GPVI‐Fc2) or monomer (GPVIex) and FXIII proteins (nonactivated and thrombin‐activated FXIII, FXIII subunits A and B) by ELISA. Binding to fibrin clots and fibrin γ‐chain crosslinking were analyzed by immunoblotting. Results GPVI‐dimer, but not GPVI‐monomer, bound to FXIII. GPVI‐dimer selectively bound to the FXIII A‐subunit, but not to the B‐subunit, an interaction that was decreased or abrogated by the GPVI‐dimer–specific antibody mFab‐F. The GPVI‐dimer–FXIII interaction decreased the extent of γ‐chain crosslinking, indicating a role in the regulation of clot formation. Conclusions This is the first report of the specific interaction between GPVI‐dimer and the A‐subunit of FXIII, as determined in an in vitro system with defined components. GPVI‐dimer–FXIII binding was inhibitory toward FXIII‐catalyzed crosslinking of fibrin γ‐chains in fibrin clots. This raises the possibility that GPVI‐dimer may negatively modulate fibrin crosslinking induced by FXIII, lessening clot stability.

Published

2022

30. Understanding the Binding Mode of Losartan Upon GPVI via a Molecular Simulation Study.

Author

Zheng, Zhichao, Jin, Jing, Liu, Lei, Meng, Xiaoyan, Li, Lingjun, Wei, Qunchao, and Meng, Fancui

Subjects

*MOLECULAR dynamics, *LOSARTAN, *TETRAZOLES, *DRUG receptors, *BLOOD platelet aggregation, *DRUG repositioning, *IMIDAZOLES

Abstract

Glycoprotein VI (GPVI) plays an important role in platelet aggregation, and inhibition of GPVI may block thrombosis with a low bleeding risk, thus making GPVI a promising antithrombotic target. In this paper, the binding mode of losartan, a known GPVI inhibitor, was investigated using molecular docking and molecular dynamics methods as well. Docking results can determine the location site of the phenyl tetrazole group of losartan, but the direction of the two substitute groups on imidazole ring is uncertain. Therefore, two sample conformations were selected, and long-time molecular dynamics simulations were carried out. The rotatable bond of C–N connecting the imidazole ring and the middle benzene ring was monitored during the simulation. The results showed that this dihedral angle is mostly distributed at about − 1 2 0 ∘ for both systems, implying that this conformation is the dominant conformation. The switchable conformation may be the reason for low activity of losartan to GPVI. Losartan1 system was well equilibrated and selected as the receptor to perform drug repurposing screening, and several drugs with a similar binding mode as losartan were identified. Our study may enhance the mechanism understanding of GPVI receptor, giving insights into the design and discovery of novel GPVI inhibitors. The binding mode between losartan and GPVI receptor was investigated using molecular simulation method. The results show that the phenyltetrazole moiety of losartan binds stably to GPVI, while the imidazole moiety is flexible due to bond rotation. Our study may shed light on the mechanism understanding of GPVI receptor, providing insights for future development of novel GPVI inhibitors. [ABSTRACT FROM AUTHOR]

Published

2022

31. Hsp47 Inhibitor Col003 Attenuates Collagen-Induced Platelet Activation and Cerebral Ischemic–Reperfusion Injury in Rats.

Author

Wu, Shuang, Liang, Chengwei, Xie, Xiaoyun, Huang, Haiping, Fu, Jinfeng, Wang, Cilan, Su, Zhiheng, Wang, Youqiong, Qu, Xiang, Li, Jinpin, and Liu, Jingli

Subjects

BLOOD platelet activation, HEAT shock proteins, MITOGEN-activated protein kinases, BLOOD platelet aggregation, LIVER cells, ISCHEMIC stroke, HELLP syndrome, BLOOD platelets

Abstract

Ischemic stroke is a major type of stroke worldwide currently without effective treatment, although antiplatelet therapy is an existing option for it. In previous studies, heat shock protein 47 (Hsp47) was found to be expressed on the surface of human and mice platelets and to strengthen the interaction between platelets and collagen. In recent years, Col003 was discovered to inhibit the interaction of Hsp47 with collagen. We evaluated whether the Hsp47 inhibitor Col003 is a promising therapeutic agent for ischemic stroke. Here, we first verified that Hsp47 is also expressed on the surface of rat platelets, and its inhibitor Col003 significantly inhibited thrombus formation in the FeCl3-induced rat carotid arterial thrombus model. Both Col003 and clopidogrel did not alter the bleeding time or coagulation parameters, while aspirin increased the tail-bleeding time (p < 0.05). The low cytotoxicity level of Col003 to rat platelets and human liver cells was similar to those of aspirin and clopidogrel. Col003 inhibited collagen-induced platelet aggregation, adhesion, [Ca2+]i mobilization, P-selectin expression, reactive oxygen species production and the downstream signal pathway of collagen receptors. The results of the middle cerebral artery occlusion model indicated that Col003 has a protective effect against cerebral ischemic–reperfusion injury in rats. The Hsp47 inhibitor Col003 exerted antiplatelet effect and protective effect against brain damage induced by ischemic stroke through the inhibition of glycoprotein VI (GPVI)and mitogen-activated protein kinase (MAPK) signaling events, which might yield a new antiplatelet agent and strategy to treat ischemic stroke. [ABSTRACT FROM AUTHOR]

Published

2022

32. Plasma levels of the soluble form of the FcγRIIa receptor vary with receptor polymorphisms and are elevated in rheumatoid arthritis

Author

Jianlin Qiao, Eimear Dunne, Bruce Wines, Dermot Kenny, Geraldine M. McCarthy, P. Mark Hogarth, Kailin Xu, Robert K. Andrews, and Elizabeth E. Gardiner

Subjects

fcγriia, gpvi, platelet, polymorphism, rheumatoid arthritis, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Soluble forms of the low-affinity immunoglobulin receptor FcγRIIa (sFcγRIIa) lacking the cytoplasmic tail have been reported in plasma however the mechanism and functional consequences are unknown. This study aimed to evaluate mechanisms of FcγRIIa release compared to GPVI release from platelets, and examine whether genetic polymorphisms at positions 27 and 131 within FcγRIIa correlate with platelet FcγRIIa stability and function. Enzyme-linked immunosorbent assays (ELISAs) were used to measure plasma sFcγRIIa and sGPVI levels. FcγRIIa genotype at positions 27 and 131 was evaluated. sFcγRIIa levels were not significantly different between non-131HH and 131HH but were significantly lower in 27W than non-27W. Treatment of platelets with aggregated immunoglobulin (Ig) G induced release of FcγRIIa and GPVI, but only sGPVI release was statistically significant, required functional FcγRIIa, and was blocked by inhibitors of signaling pathways and metalloproteinases. This indicated that sFcγRIIa was not released from platelets by metalloproteolysis. sFcγRIIa levels were not correlated with sGPVI levels in healthy individuals however levels of sFcγRIIa and sGPVI in plasma from patients with rheumatoid arthritis (RA) were significantly elevated above levels found in healthy individuals. Elevated level of sFcγRIIa in RA patients may reflect active immune-based arthritis and be predictive of active inflammation.

Published

2020

33. Comparison of the GPVI inhibitors losartan and honokiol

Author

Marie-Blanche Onselaer, Magdolna Nagy, Chiara Pallini, Jeremy A Pike, Gina Perrella, Lourdes Garcia Quintanilla, Johannes A Eble, Natalie S. Poulter, Johan W.M. Heemskerk, and Steve P Watson

Subjects

clec-2, gpvi, honokiol, losartan, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Losartan and honokiol are small molecules which have been described to inhibit aggregation of platelets by collagen. Losartan has been proposed to block clustering of GPVI but not to affect binding of collagen. Honokiol has been reported to bind directly to GPVI but only at a concentration that is three orders of magnitude higher than that needed for inhibition of aggregation. The mechanism of action of both inhibitors is so far unclear. In the present study, we confirm the inhibitory effects of both agents on platelet aggregation by collagen and show that both also block the aggregation induced by the activation of CLEC-2 or the low affinity immune receptor FcγRIIa at similar concentrations. For GPVI and CLEC-2, this inhibition is associated with a reduction in protein tyrosine phosphorylation of multiple proteins including Syk. In contrast, on a collagen surface, spreading of platelets and clustering of GPVI (measured by single molecule localisation microscopy) was not altered by losartan or honokiol. Furthermore, in flow whole-blood, both inhibitors suppressed the formation of multi-layered platelet thrombi at arteriolar shear rates at concentrations that hardly affect collagen-induced platelet aggregation in platelet rich plasma. Together, these results demonstrate that losartan and honokiol have multiple effects on platelets which should be considered in the use of these compounds as anti-platelet agents.

Published

2020

34. Activation‐induced changes in platelet surface receptor expression and the contribution of the large‐platelet subpopulation to activation

Author

Masaaki Moroi, Richard W. Farndale, and Stephanie M. Jung

Subjects

activation, GPIb, GPVI, IIbIIIa, large platelets, receptors, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Objective Platelet surface receptors are also present subcellularly in organelle membranes and can be expressed on the surface upon platelet activation. However, some receptors were reported to be decreased after activation. We analyzed the mechanism of activation‐dependent expression for different receptors. Methods Flow cytometry using platelet‐rich plasma or washed platelets was used to analyze receptor‐expression changes after platelet activation by glycoprotein (GP) VI–specific agonists, crosslinked collagen‐related peptide (CRP‐XL) and convulxin (Cvx), and thrombin. Platelets prelabeled with fluorescent antibody specific for a receptor were allowed to adhere on immobilized collagen or fibrinogen and post‐stained with antibody against the same receptor labeled with another fluorophore, allowing us to differentiate preexisting receptors from newly expressed receptors. Results Surface expression of αIIbβ3 increased in CRP‐XL–, Cvx‐, or thrombin‐stimulated platelets, but GPIb decreased due to shedding and internalization. Both total and dimeric GPVI increased in thrombin‐induced platelets, but decreased in platelets stimulated by Cvx, as a result of internalization. The larger platelets showed a greater increase in surface receptor (α2β1, αIIbβ3, GPVI, GPIb) expression upon activation compared to the smaller ones. Pre‐ and postlabeling with antibody specific for the same receptor, but conjugated with different fluorophores, allowed us to differentiate the receptors expressed on the surface of resting platelets from receptors newly exposed to the surface upon platelet activation. Conclusions Increased receptor expressions after activation are mainly manifested in the larger platelets. On platelets adhered on fibrinogen, the newly expressed receptors, especially GPVI, are localized in the lamellipodia of the spread platelets.

Published

2020

35. Hsp47 Inhibitor Col003 Attenuates Collagen-Induced Platelet Activation and Cerebral Ischemic–Reperfusion Injury in Rats

Author

Shuang Wu, Chengwei Liang, Xiaoyun Xie, Haiping Huang, Jinfeng Fu, Cilan Wang, Zhiheng Su, Youqiong Wang, Xiang Qu, Jinpin Li, and Jingli Liu

Subjects

ischemic stroke, antiplatelet, Col003, HSP47, GPVI, Therapeutics. Pharmacology, RM1-950

Abstract

Ischemic stroke is a major type of stroke worldwide currently without effective treatment, although antiplatelet therapy is an existing option for it. In previous studies, heat shock protein 47 (Hsp47) was found to be expressed on the surface of human and mice platelets and to strengthen the interaction between platelets and collagen. In recent years, Col003 was discovered to inhibit the interaction of Hsp47 with collagen. We evaluated whether the Hsp47 inhibitor Col003 is a promising therapeutic agent for ischemic stroke. Here, we first verified that Hsp47 is also expressed on the surface of rat platelets, and its inhibitor Col003 significantly inhibited thrombus formation in the FeCl3-induced rat carotid arterial thrombus model. Both Col003 and clopidogrel did not alter the bleeding time or coagulation parameters, while aspirin increased the tail-bleeding time (p < 0.05). The low cytotoxicity level of Col003 to rat platelets and human liver cells was similar to those of aspirin and clopidogrel. Col003 inhibited collagen-induced platelet aggregation, adhesion, [Ca2+]i mobilization, P-selectin expression, reactive oxygen species production and the downstream signal pathway of collagen receptors. The results of the middle cerebral artery occlusion model indicated that Col003 has a protective effect against cerebral ischemic–reperfusion injury in rats. The Hsp47 inhibitor Col003 exerted antiplatelet effect and protective effect against brain damage induced by ischemic stroke through the inhibition of glycoprotein VI (GPVI)and mitogen-activated protein kinase (MAPK) signaling events, which might yield a new antiplatelet agent and strategy to treat ischemic stroke.

Published

2022

36. Minimal Collagen-Binding Epitope of Glycoprotein VI in Human and Mouse Platelets

Author

Chao Han, Pengxuan Ren, Medina Mamtimin, Linus Kruk, Edita Sarukhanyan, Chenyu Li, Hans-Joachim Anders, Thomas Dandekar, Irena Krueger, Margitta Elvers, Silvia Goebel, Kristin Adler, Götz Münch, Thomas Gudermann, Attila Braun, and Elmina Mammadova-Bach

Subjects

GPVI, collagen, blood platelets, thrombosis, anti-thrombotic therapies, Biology (General), QH301-705.5

Abstract

Glycoprotein VI (GPVI) is a platelet-specific receptor for collagen and fibrin, regulating important platelet functions such as platelet adhesion and thrombus growth. Although the blockade of GPVI function is widely recognized as a potent anti-thrombotic approach, there are limited studies focused on site-specific targeting of GPVI. Using computational modeling and bioinformatics, we analyzed collagen- and CRP-binding surfaces of GPVI monomers and dimers, and compared the interacting surfaces with other mammalian GPVI isoforms. We could predict a minimal collagen-binding epitope of GPVI dimer and designed an EA-20 antibody that recognizes a linear epitope of this surface. Using platelets and whole blood samples donated from wild-type and humanized GPVI transgenic mice and also humans, our experimental results show that the EA-20 antibody inhibits platelet adhesion and aggregation in response to collagen and CRP, but not to fibrin. The EA-20 antibody also prevents thrombus formation in whole blood, on the collagen-coated surface, in arterial flow conditions. We also show that EA-20 does not influence GPVI clustering or receptor shedding. Therefore, we propose that blockade of this minimal collagen-binding epitope of GPVI with the EA-20 antibody could represent a new anti-thrombotic approach by inhibiting specific interactions between GPVI and the collagen matrix.

Published

2023

37. Redox regulation of platelet function and thrombosis.

Author

Jiang H, Nechipurenko DY, Panteleev MA, Xu K, and Qiao J

Subjects

Humans, Platelet Membrane Glycoproteins metabolism, Animals, Platelet Activation, Mitochondria metabolism, NADPH Oxidases metabolism, Receptors, Thrombin metabolism, Receptors, Proteinase-Activated metabolism, Blood Platelets metabolism, Reactive Oxygen Species metabolism, Thrombosis blood, Oxidation-Reduction, Signal Transduction

Abstract

Platelets are well-known players in several cardiovascular diseases such as atherosclerosis and venous thrombosis. There is increasing evidence demonstrating that reactive oxygen species (ROS) are generated within activated platelets. Nicotinamide adenine dinucleotide phosphate oxidase (NOX) is a major source of ROS generation in platelets. Ligand binding to platelet receptor glycoprotein (GP) VI stimulates intracellular ROS generation consisting of a spleen tyrosine kinase-independent production involving NOX activation and a following spleen tyrosine kinase-dependent generation. In addition to GPVI, stimulation of platelet thrombin receptors (protease-activated receptors [PARs]) can also trigger NOX-derived ROS production. Our recent study found that mitochondria-derived ROS production can be induced by engagement of thrombin receptors but not by GPVI, indicating that mitochondria are another source of PAR-dependent ROS generation apart from NOX. However, mitochondria are not involved in GPVI-dependent ROS generation. Once generated, the intracellular ROS are also involved in modulating platelet function and thrombus formation; therefore, the site-specific targeting of ROS production or clearance of excess ROS within platelets is a potential intervention and treatment option for thrombotic events. In this review, we will summarize the signaling pathways involving regulation of platelet ROS production and their role in platelet function and thrombosis, with a focus on GPVI- and PAR-dependent platelet responses., Competing Interests: Declaration of competing interests There are no competing interests to disclose., (Copyright © 2024 International Society on Thrombosis and Haemostasis. Published by Elsevier Inc. All rights reserved.)

Published

2024

38. Structure-function relationship of the platelet glycoprotein VI (GPVI) receptor: does it matter if it is a dimer or monomer?

Author

Clark, Joanne C., Damaskinaki, Foteini-Nafsika, Cheung, Yam Fung Hilaire, Slater, Alexandre, and Watson, Steve P.

Subjects

*MONOMERS, *ISCHEMIC stroke, *SNAKE venom, *CORONARY thrombosis, *BLOOD platelets

Abstract

GPVI is a critical signaling receptor responsible for collagen-induced platelet activation and a promising anti-thrombotic target in conditions such as coronary artery thrombosis, ischemic stroke, and atherothrombosis. This is due to the ability to block GPVI while having minimal effects on hemostasis, making it a more attractive target over current dual-antiplatelet therapy (DAPT) with acetyl salicylic acid and P2Y12 inhibitors where bleeding can be a problem. Our current understanding of how the structure of GPVI relates to function is inadequate and recent studies contradict each other. In this article, we summarize the structure-function relationships underlying the activation of GPVI by its major ligands, including collagen, fibrin(ogen), snake venom toxins and charged exogenous ligands such as diesel exhaust particles. We argue that contrary to popular belief dimerization of GPVI is not required for binding to collagen but serves to facilitate binding through increased avidity, and that GPVI is expressed as a mixture of monomers and dimers on resting platelets, with binding of multivalent ligands inducing higher order clustering. [ABSTRACT FROM AUTHOR]

Published

2021

39. Overcoming challenges in developing small molecule inhibitors for GPVI and CLEC-2.

Author

Damaskinaki, Foteini-Nafsika, Moran, Luis A., Garcia, Angel, Kellam, Barrie, and Watson, Steve P.

Subjects

*SMALL molecules, *ORAL medication, *RECEPTOR antibodies, *COMPLEX compounds, *DRUG design

Abstract

GPVI and CLEC-2 have emerged as promising targets for long-term prevention of both arterial thrombosis and thrombo-inflammation with a decreased bleeding risk relative to current drugs. However, while there are potent blocking antibodies of both receptors, their protein nature comes with decreased bioavailability, making formulation for oral medication challenging. Small molecules are able to overcome these limitations, but there are many challenges in developing antagonists of nanomolar potency, which is necessary when considering the structural features that underlie the interaction of CLEC-2 and GPVI with their protein ligands. In this review, we describe current small-molecule inhibitors for both receptors and strategies to overcome such limitations, including considerations when it comes to in silico drug design and the importance of complex compound library selection. [ABSTRACT FROM AUTHOR]

Published

2021

40. Local Tissues in Hemostasis and Platelet Review

Author

Kuang, Tiffany, Szumita, Richard P., Szumita, Richard P., editor, and Szumita, Paul M., editor

Published

2018

41. Purification and characterisation of the platelet-activating GPVI/FcRγ complex in SMALPs.

Author

Wang, Xueqing, Slater, Alexandre, Lee, Sarah C., Harrison, Neale, Pollock, Naomi L., Bakker, Saskia E., Navarro, Stefano, Nieswandt, Bernhard, Dafforn, Tim R., García, Ángel, Watson, Steve P., and Tomlinson, Michael G.

Subjects

*THROMBIN receptors, *POLYACRYLAMIDE gel electrophoresis, *GEL permeation chromatography, *MEMBRANE proteins, *FC receptors, *LIGAND binding (Biochemistry), *COLLAGEN

Abstract

The collagen/fibrin(ogen) receptor, glycoprotein VI (GPVI), is a platelet activating receptor and a promising anti-thrombotic drug target. However, while agonist-induced GPVI clustering on platelet membranes has been shown to be essential for its activation, it is unknown if GPVI dimerisation represents a unique conformation for ligand binding. Current GPVI structures all contain only the two immunoglobulin superfamily (IgSF) domains in the GPVI extracellular region, so lacking the mucin-like stalk, transmembrane, cytoplasmic tail of GPVI and its associated Fc receptor γ (FcRγ) homodimer signalling chain, and provide contradictory insights into the mechanisms of GPVI dimerisation. Here, we utilised styrene maleic-acid lipid particles (SMALPs) to extract GPVI in complex with its two associated FcRγ chains from transfected HEK-293T cells, together with the adjacent lipid bilayer, then purified and characterised the GPVI/FcRγ-containing SMALPs, to enable structural insights into the full-length GPVI/FcRγ complex. Using size exclusion chromatography followed by a native polyacrylamide gel electrophoresis (PAGE) method, SMA-PAGE, we revealed multiple sizes of the purified GPVI/FcRγ SMALPs, suggesting the potential existence of GPVI oligomers. Importantly, GPVI/FcRγ SMALPs were functional as they could bind collagen. Mono-dispersed GPVI/FcRγ SMALPs could be observed under negative stain electron microscopy. These results pave the way for the future investigation of GPVI stoichiometry and structure, while also validating SMALPs as a promising tool for the investigation of human membrane protein interactions, stoichiometry and structure. [Display omitted] • Transfected HEK-293T cells can express the platelet GPVI/FcRγ complex. • The GPVI/FcRγ complex can be purified within SMALP nanodiscs. • GPVI/FcRγ appears to exist in distinct oligomerisation states in SMALPs. • GPVI/FcRγ SMALPs are functional in binding collagen. • GPVI/FcRγ SMALPs are mono-dispersed particles under negative stain EM. [ABSTRACT FROM AUTHOR]

Published

2024

42. Down-regulation of platelet adhesion receptors is a controlling mechanism of thrombosis, while also affecting post-transfusion efficacy of stored platelets

Author

Ehteramolsadat Hosseini, Maryam Mohtashami, and Mehran Ghasemzadeh

Subjects

αIIbβ3, Adhesion, Ectodomain shedding, GPIbα, GPVI, Microparticle, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Physiologically, upon platelet activation, uncontrolled propagation of thrombosis is prevented by regulating mechanisms which affect the expression and function of either platelet adhesion receptors or integrins. Receptor ectodomain shedding is an elective mechanism which is mainly involved in down-regulation of adhesion receptors GPIbα and GPVI. Platelet integrin αIIbβ3 can also be modulated with a calpain-dependent proteolytic cleavage. In addition, activating signals may induce the internalization of expressed receptors to selectively down-regulate their intensity. Alternatively, further activation of platelets is associated with microvesiculation as a none-selective mechanism which leads to the loss of membrane- bearing receptors. In a non-physiological condition, the storage of therapeutic platelets has also shown to be associated with the unwilling activation of platelets which triggers receptors down-regulation via aforementioned different mechanisms. Notably, herein the changes are time-dependent and not controllable. While the expression and shedding of pro-inflammatory molecules can induce post-transfusion adverse effects, stored-dependent loss of adhesion receptors by ectodomain shedding or microvesiculation may attenuate post-transfusion adhesive functions of platelets causing their premature clearance from circulation. In its first part, the review presented here aims to describe the mechanisms involved in down-regulation of platelet adhesion receptors. It then highlights the crucial role of ectodomain shedding and microvesiculation in the propagation of “platelet storage lesion” which may affect the post-transfusion efficacy of platelet components.

Published

2019

43. Does fibrin(ogen) bind to monomeric or dimeric GPVI, or not at all?

Author

Alexandre Slater, Gina Perrella, Marie-Blanche Onselaer, Eleyna M Martin, Julia S Gauer, Rui-Gang Xu, Johan WM Heemskerk, Robert A S Ariëns, and Steve P Watson

Subjects

collagen, fibrin(ogen), gpvi, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

GPVI is the major signalling receptor for collagen on platelets. Dimerization of GPVI is required for collagen binding and initiation of signalling through the associated FcR-γ chain. Recently, fibrin and fibrinogen have been identified as ligands for GPVI and shown to induce signalling in support of thrombus formation and stabilization. Contrasting observations have been reported on whether fibrin binds to monomeric or dimeric GPVI, or to neither form. In this article, we discuss reasons for the contradictory results and how to reconcile these. We conclude that a lack of structural knowledge regarding the GPVI constructs that are being used, along with the use of non-standardized reagents, might be the main cause of the discrepant results. This article aims to highlight some of the key areas that need to be addressed.

Published

2019

44. mTOR regulates GPVI-mediated platelet activation.

Author

Wang, Longsheng, Liu, Gang, Wu, Nannan, Dai, Baiyun, Han, Shuang, Liu, Qiaoyun, Huang, Fang, Chen, Zhihua, Xu, Weihong, Xia, Dajing, and Gao, Cunji

Subjects

*BLOOD platelet activation, *MTOR protein, *EMBRYOLOGY, *GENE knockout, *BLOOD platelets, *THROMBIN receptors, *PURINERGIC receptors, *THROMBOSIS

Abstract

Background: Due to mTOR (mammalian/mechanistic target of rapamycin) gene-loss mice die during embryonic development, the role of mTOR in platelets has not been evaluated using gene knockout technology.Methods: A mouse model with megakaryocyte/platelet-specific deletion of mTOR was established, and be used to evaluate the role of mTOR in platelet activation and thrombus formation.Results: mTOR-/- platelets were deficient in thrombus formation when grown on low-concentration collagen-coated surfaces; however, no deficiency in thrombus formation was observed when mTOR-/- platelets were perfused on higher concentration collagen-coated surfaces. In FeCl3-induced mouse mesenteric arteriole thrombosis models, wild-type (WT) and mTOR-/- mice displayed significantly different responses to low-extent injury with respect to the ratio of occluded mice, especially within the first 40 min. Additionally, mTOR-/- platelets displayed reduced aggregation and dense granule secretion (ATP release) in response to low doses of the glycoprotein VI (GPVI) agonist collagen related peptide (CRP) and the protease-activated receptor-4 (PAR4) agonist GYPGKF-NH2; these deficiencies were overcame by stimulation with higher concentration agonists, suggesting dose dependence of the response. At low doses of GPVI or PAR agonist, the activation of αIIbβ3 in mTOR-/- platelets was reduced. Moreover, stimulation of mTOR-/- platelets with low-dose CRP attenuated the phosphorylation of S6K1, S6 and Akt Ser473, and increased the phosphorylation of PKCδ Thr505 and PKCε Ser729. Using isoform-specific inhibitors of PKCs (δ, ɛ, and α/β), we established that PKCδ/ɛ, and especially PKCδ but not PKCα/β or PKCθ, may be involved in low-dose GPVI-mediated/mTOR-dependent signaling.Conclusion: These observations indicate that mTOR plays an important role in GPVI-dependent platelet activation and thrombus formation. [ABSTRACT FROM AUTHOR]

Published

2021

45. A fibrinolytic snake venom metalloproteinase, mutalysin-II, with antiplatelet activity and targeting capability toward glycoprotein GPIbα and glycoprotein GPVI.

Author

Sanchez, Eladio.F., Alvarenga, Valeria.G., Oliveira, Luciana.S., Oliveira, Débora.L., Estevao- Costa, Maria.I., Flores-Ortiz, Renzo, and Eble, Johannes.A.

Subjects

*SNAKE venom, *BLOOD platelet aggregation, *THROMBIN receptors, *MOLECULAR weights, *PLATELET-rich plasma, *VON Willebrand factor, *COLLAGEN, *THROMBOPOIETIN receptors

Abstract

Glycoprotein (GP)Ib that binds von Willebrand factor (vWF) and glycoprotein (GP)VI, that binds collagen play a significant role in platelet activation and aggregation, and are potential targets for antithrombotic treatment. They are targeted by snake venom proteinases. The effect of a such proteinase, mutalysin-II, on platelet aggregation was examined using washed human platelets and platelet-rich plasma. Its proteolytic activity on vWF, on its binding partner GPIbα, and on GPVI was analyzed by SDS-PAGE, and immunodetection with the corresponding antibodies after blotting. Dose- and time-dependently, mutalysin-II inhibits aggregation of washed platelets induced by vWF plus ristocetin and by convulxin, but with no significant effect on platelet-rich-plasma. Furthermore, mutalysin-II cleaves vWF into low molecular mass multimers of vWF and a rvWF-A1 domain to realease a ∼27-kDa fragment detectable by SDS-PAGE and blotting with mouse anti-rvWF-A1-domain IgG. Moreover, GPVI was cut by mutalysin-II into a soluble ∼55-kDa ectodomain and a fragment of ∼35-kDa. Thus, mutalysin-II inhibits vWF-induced platelet aggregation via cleavage of bound vWF-A1, and its receptor GPIbα. The additional cleavage of, GPVI, blocks collagen-induced platelets. Our data highlight mutalysin-II as an interesting platelet-directed tool targeting vWF-GPIbα binding and particularly GPVI. Thus, it might be suited for antithrombotic therapy as its combined inactivation of two receptors does not significantly compromise hemostasis, but shows high efficacy and safety. Studies are needed to further develop and demonstrate its potential benefits. In normal conditions, platelets circulate through the vasculature in a non-adhesive state. At the site of vascular injury, platelets roll, adhere, and aggregate to arrest bleeding through integrin αIIbβ3. The process of adhesion is orchestrated by the platelet adhesion receptors GPIb that binds von Willebrand Factor and GPVI, which binds collagen, and are potential targets for antithrombotic treatment. They are targeted by SVMPs such as a non-hemorrhagic SVMP mutalysin-II from bushmaster venom. [Display omitted] • Proteolytic cleavage of membrane protein adhesion receptors is regulated by metalloproteinases. • GPVI is a key player when targeted for antithrombotic therapy. • Mutalysin-II targets vWF-GPIbα interaction and GPVI antagonistically. [ABSTRACT FROM AUTHOR]

Published

2021

46. Novel antiplatelet strategies targeting GPVI, CLEC-2 and tyrosine kinases.

Author

Harbi, Maan H., Smith, Christopher W., Nicolson, Phillip L. R., Watson, Steve P., and Thomas, Mark R.

Subjects

*ACUTE coronary syndrome, *PERIPHERAL vascular diseases, *VENOUS thrombosis, *KINASES, *THERAPEUTICS

Abstract

Antiplatelet medications comprise the cornerstone of treatment for diseases that involve arterial thrombosis, including acute coronary syndromes (ACS), stroke and peripheral arterial disease. However, antiplatelet medications may cause bleeding and, furthermore, thrombotic events may still recur despite treatment. The interaction of collagen with GPVI receptors on the surface of platelets has been identified as one of the major players in the pathophysiology of arterial thrombosis that occurs following atherosclerotic plaque rupture. Promisingly, GPVI deficiency in humans appears to have a minimal impact on bleeding. These findings together suggest that targeting platelet GPVI may provide a novel treatment strategy that provides additional antithrombotic efficacy with minimal disruption of normal hemostasis compared to conventional antiplatelet medications. CLEC-2 is gaining interest as a therapeutic target for a variety of thrombo-inflammatory disorders including deep vein thrombosis (DVT) with treatment also predicted to cause minimal disruption to hemostasis. GPVI and CLEC-2 signal through Src, Syk and Tec family tyrosine kinases, providing additional strategies for inhibiting both receptors. In this review, we summarize the evidence regarding GPVI and CLEC-2 and strategies for inhibiting these receptors to inhibit platelet recruitment and activation in thrombotic diseases. [ABSTRACT FROM AUTHOR]

Published

2021

47. Platelet Activation through GPVI Receptor: Variability of the Response.

Author

Stepanyan, M. G., Filkova, A. A., Garzon Dasgupta, A. K., Martyanov, A. A., and Sveshnikova, A. N.

Abstract

Platelets are nuclear-free cell fragments responsible for preventing blood loss in case of the vascular wall injury. After a contact with collagen exposed when the vessel is damaged, platelets become activated through the receptor glycoprotein GPVI. This leads to platelet shape change, degranulation, aggregation, and procoagulant responses. The aim of this study was to observe changes in the concentration of Ca2+ in the cytosol and functional responses of platelets upon stimulation through the GPVI receptor. The study involved healthy adult volunteers and house mice Mus musculus of the C57Bl6 line (wild type). Calcium signaling was monitored by Fura-Red fluorophore fluorescence using BD FACS Canto II flow cytometer. Functional responses were observed on a flow cytometer by binding of human fibrinogen conjugated to a fluorescent label or by Biola optical aggregometry. When tested on a cytometer, platelets were activated by collagen-related peptide CRP and when tested by aggregometry, platelets were activated using collagen. As a result of the study, the following phenomenon was revealed: despite a significant variability in the human platelet cytosolic Ca2+ levels in response to stimulation, the variability in activation of platelet integrins, shape change, and the aggregation response was significantly lower. No variability in the platelet cytosolic Ca2+ levels in response to stimulation was observed in mice. The observed variability of the calcium response of platelets could be caused by differences in the GPVI expression or polymorphisms of the GPVI receptor gene in the studied donors. Similarities in the functional responses of platelets with different signaling suggest a variable contribution of the phosphoinositide branch of intracellular signaling in platelets in response to activation of GPVI. [ABSTRACT FROM AUTHOR]

Published

2021

48. Pharmacological Inhibition of Glycoprotein VI- and Integrin α2β1-Induced Thrombus Formation Modulated by the Collagen Type

Author

Natalie J. Jooss, Yvonne M.C. Henskens, Steve P. Watson, Richard W. Farndale, Meinrad P. Gawaz, Martine Jandrot-Perrus, Natalie S. Poulter, Johan W. M. Heemskerk, Biochemie, RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis, MUMC+: DA CDL Algemeen (9), RS: Carim - B04 Clinical thrombosis and Haemostasis, and Central Diagnostic Lab

Subjects

collagen, ROLES, IDENTIFICATION, SURFACE, FLOW, protein tyrosine kinase, Hematology, AGGREGATION, glycoprotein VI, ACTIVATION, PLATELET-ADHESION, thrombus, GPVI, BINDING, KINASE, integrin alpha 2 beta 1

Abstract

Background In secondary cardiovascular disease prevention, treatments blocking platelet-derived secondary mediators pose a risk of bleeding. Pharmacological interference of the interaction of platelets with exposed vascular collagens is an attractive alternative, with clinical trials ongoing. Antagonists of the collagen receptors, glycoprotein VI (GPVI), and integrin α2β1, include recombinant GPVI-Fc dimer construct Revacept, 9O12 mAb based on the GPVI-blocking reagent Glenzocimab, Syk tyrosine-kinase inhibitor PRT-060318, and anti-α2β1 mAb 6F1. No direct comparison has been made of the antithrombic potential of these drugs. Methods Using a multiparameter whole-blood microfluidic assay, we compared the effects of Revacept, 9O12-Fab, PRT-060318, or 6F1 mAb intervention with vascular collagens and collagen-related substrates with varying dependencies on GPVI and α2β1. To inform on Revacept binding to collagen, we used fluorescent-labelled anti-GPVI nanobody-28. Results and Conclusion In this first comparison of four inhibitors of platelet–collagen interactions with antithrombotic potential, we find that at arterial shear rate: (1) the thrombus-inhibiting effect of Revacept was restricted to highly GPVI-activating surfaces; (2) 9O12-Fab consistently but partly inhibited thrombus size on all surfaces; (3) effects of GPVI-directed interventions were surpassed by Syk inhibition; and (4) α2β1-directed intervention with 6F1 mAb was strongest for collagens where Revacept and 9O12-Fab were limitedly effective. Our data hence reveal a distinct pharmacological profile for GPVI-binding competition (Revacept), GPVI receptor blockage (9O12-Fab), GPVI signaling (PRT-060318), and α2β1 blockage (6F1 mAb) in flow-dependent thrombus formation, depending on the platelet-activating potential of the collagen substrate. This work thus points to additive antithrombotic action mechanisms of the investigated drugs.

Published

2023

49. Distinct and overlapping functional roles of Src family kinases in mouse platelets

Author

SÉVERIN, S, NASH, CA, MORI, J, ZHAO, Y, ABRAM, C, LOWELL, CA, SENIS, YA, and WATSON, SP

Subjects

Biomedical and Clinical Sciences, Cardiovascular Medicine and Haematology, Clinical Sciences, Hematology, Underpinning research, 1.1 Normal biological development and functioning, Cardiovascular, Animals, Blood Platelets, Carrier Proteins, Cell Shape, Disease Models, Animal, Fibrinogen, Mice, Mice, Knockout, Mutation, Peptides, Platelet Activation, Platelet Adhesiveness, Platelet Glycoprotein GPIIb-IIIa Complex, Platelet Membrane Glycoproteins, Proto-Oncogene Proteins, Proto-Oncogene Proteins c-fyn, Signal Transduction, Thrombosis, Time Factors, src-Family Kinases, GPVI, integrin aIIb ss 3, Lyn, platelets, Src family kinases, Cardiorespiratory Medicine and Haematology, Cardiovascular System & Hematology, Cardiovascular medicine and haematology, Clinical sciences

Abstract

Background and objectivesSrc family kinases (SFKs) play a critical role in initiating and propagating signals in platelets. The aims of this study were to quantitate SFK members present in platelets and to analyze their contribution to platelet regulation using glycoprotein VI (GPVI) and intregrin αIIbβ3, and in vivo.Methods and resultsMouse platelets express four SFKs, Fgr, Fyn, Lyn and Src, with Lyn expressed at a considerably higher level than the others. Using mutant mouse models, we demonstrate that platelet activation by collagen-related peptide (CRP) is delayed and then potentiated in the absence of Lyn, but only marginally reduced in the absence of Fyn or Fgr, and unaltered in the absence of Src. Compound deletions of Lyn/Src or Fyn/Lyn, but not of Fyn/Src or Fgr/Lyn, exhibit a greater delay in activation relative to Lyn-deficient platelets. Fibrinogen-adherent platelets show reduced spreading in the absence of Src, potentiation in the absence of Lyn, but no change in the absence of Fyn or Fgr. In mice double-deficient in Lyn/Src or Fgr/Lyn, the inhibitory role of Lyn on spreading on fibrinogen is lost. Lyn is the major SFK-mediating platelet aggregation on collagen at arterial shear and its absence leads to a reduction in thrombus size in a laser injury model.ConclusionThese results demonstrate that SFKs share individual and overlapping roles in regulating platelet activation, with Lyn having a dual role in regulating GPVI signaling and an inhibitory role downstream of αIIbβ3, which requires prior signaling through Src.

Published

2012

50. The Platelet Collagen Receptor GPVI Is Cleaved by Tspan15/ADAM10 and Tspan33/ADAM10 Molecular Scissors

Author

Chek Ziu Koo, Alexandra L. Matthews, Neale Harrison, Justyna Szyroka, Bernhard Nieswandt, Elizabeth E. Gardiner, Natalie S. Poulter, and Michael G. Tomlinson

Subjects

ADAM10, GPVI, tetraspanin, platelet, shedding, TspanC8, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The platelet-activating collagen receptor GPVI represents the focus of clinical trials as an antiplatelet target for arterial thrombosis, and soluble GPVI is a plasma biomarker for several human diseases. A disintegrin and metalloproteinase 10 (ADAM10) acts as a ‘molecular scissor’ that cleaves the extracellular region from GPVI and many other substrates. ADAM10 interacts with six regulatory tetraspanin membrane proteins, Tspan5, Tspan10, Tspan14, Tspan15, Tspan17 and Tspan33, which are collectively termed the TspanC8s. These are emerging as regulators of ADAM10 substrate specificity. Human platelets express Tspan14, Tspan15 and Tspan33, but which of these regulates GPVI cleavage remains unknown. To address this, CRISPR/Cas9 knockout human cell lines were generated to show that Tspan15 and Tspan33 enact compensatory roles in GPVI cleavage, with Tspan15 bearing the more important role. To investigate this mechanism, a series of Tspan15 and GPVI mutant expression constructs were designed. The Tspan15 extracellular region was found to be critical in promoting GPVI cleavage, and appeared to achieve this by enabling ADAM10 to access the cleavage site at a particular distance above the membrane. These findings bear implications for the regulation of cleavage of other ADAM10 substrates, and provide new insights into post-translational regulation of the clinically relevant GPVI protein.

Published

2022