Your search keyword '"PLATELETS"' showing total 1,532 results

1. Spatial and temporal characterization of cytoskeletal reorganizations in adherent platelets

Author

Clotilde Joubert, Alexei Grichine, Monika Dolega, Sophie Michallet, Florence Appaix, Isabelle Tardieux, Laurence Lafanechère, and Karin Sadoul

Subjects

Actin fibers, calcium, clot retraction, cytoskeleton, microtubules, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

The functional role of platelets is intricately linked to the dynamic organization of two main components of the cytoskeleton, microtubules and actin fibers. Throughout the phases of platelet activation, spreading, and retraction, both of these essential polymers undergo continuous and orchestrated reorganization. Our investigation of the dynamic cytoskeletal changes during these phases highlights a sequential remodeling of the actin cytoskeleton in adherent platelets from the formation of initial actin nodules through the development of stress fibers and a subsequent return to nodular structures. Concurrently, the marginal ring of microtubules, characteristic of resting platelets, undergoes a re-organization induced by marginal band extension and coiling toward the formation of star-like bundles of microtubules. Subsequently, these bundles are dispersed into individual microtubules, which are re-bundled at later stages before ring-like structures are formed again. These findings suggest a compelling tendency for both cytoskeletal components to revert to their original configurations. Notably, the early steps of platelet cytoskeleton reorganizations have previously been shown to be regulated by the signaling cascade triggered during platelet activation, which leads to an increase of cytosolic calcium concentrations. We show here that later steps are potentially regulated by a progressive decrease of intracellular calcium concentrations as platelets approach the end of their functional lifespan.

Published

2024

2. The potential utilization of platelet-derived extracellular vesicles in clinical treatment

Author

Zhijia Fan, Yixiao Gan, and Yanwei Hu

Subjects

Platelets, extracellular vesicles, hemostasis, therapy, regenerative medicine, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Platelet-derived extracellular vesicles (PEVs) are released by platelets in the blood circulation, which carry a rich bio-molecular cargo influential in intercellular communications. PEVs can enter the lymph, bone marrow, and synovial fluid as nano-sized particles, while platelets cannot cross tissue barriers. Considering the advantages of PEVs such as low immunogenicity, high regulation of signal transduction, and easy obtainment, PEVs may be promising therapeutic tools for medical applications. The exceptional functional roles played by PEVs explain the recent interest in exploring new cell-free therapies that could address needs in angiogenesis, regenerative medicine, and targeted drug delivery. The review takes a critical look at the main advances of PEVs in the treatment of diseases by presenting the latest knowledge from the performed studies, in order to enhance the further translation of the PEVs research into feasible therapeutic applications.

Published

2024

3. Impact of thrombocytopenia-associated c.-118C>T and c.-140C>G ANKRD26 5’UTR variants in three-generational pedigree

Author

Jakub Trizuljak, Paulína Likavcová, Kateřina Staňo Kozubík, Zuzana Vrzalová, Jakub Hynšt, Tereza Deissová, Jiří Štika, Lenka Radová, Marie Prudková, Jana Vaculová, Ivona Blaháková, Petr Smejkal, Jan Kamelander, Šárka Pospíšilová, and Michael Doubek

Subjects

ANKRD26 gene, functional analysis, Inherited thrombocytopenia, platelet aggregation, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Inherited thrombocytopenias (ITs) encompass a group of rare disorders characterized by diminished platelet count. Recent advancements have unveiled various forms of IT, with inherited thrombocytopenia 2 (THC2) emerging as a prevalent subtype associated with germline variants in the critical 5’ untranslated region of the ANKRD26 gene. This region is crucial in regulating the gene expression of ANKRD26, particularly in megakaryocytes. THC2 is an autosomal dominant disorder presenting as mild-to-moderate thrombocytopenia with minimal symptoms, with an increased risk of myeloproliferative malignancies. In our study of a family with suspected IT, three affected individuals harbored the c.-118C>T ANKRD26 variant, while four healthy members carried the c.-140C>G ANKRD26 variant. We performed a functional analysis by studying platelet-specific ANKRD26 gene expression levels using quantitative real-time polymerase-chain reaction. Functional analysis of the c.-118C>T variant showed a significant increase in ANKRD26 expression in affected individuals, supporting its pathogenicity. On the contrary, carriers of the c.-140C>G variant exhibited normal platelet counts and no significant elevation in the ANKRD26 expression, indicating the likely benign nature of this variant. Our findings provide evidence confirming the pathogenicity of the c.-118C>T ANKRD26 variant in THC2 and suggest the likely benign nature of the c.-140C>G variant.

Published

2024

4. 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

5. Application of the Cellular Thermal Shift Assay (CETSA) to validate drug target engagement in platelets

Author

Joanna-Marie Howes and Matthew T. Harper

Subjects

CETSA, drug binding, platelets, thermal stability, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractSmall molecule drugs play a major role in the study of human platelets. Effective action of a drug requires it to bind to one or more targets within the platelet (target engagement). However, although in vitro assays with isolated proteins can be used to determine drug affinity to these targets, additional factors affect target engagement and its consequences in an intact platelet, including plasma membrane permeability, intracellular metabolism or compartmentalization, and level of target expression. Mechanistic interpretation of the effect of drugs on platelet activity requires comprehensive investigation of drug binding in the proper cellular context, i.e. in intact platelets. The Cellular Thermal Shift Assay (CETSA) is a valuable method to investigate target engagement within complex cellular environments. The assay is based on the principle that drug binding to a target protein increases that protein’s thermal stability. In this technical report, we describe the application of CETSA to platelets. We highlight CETSA as a quick and informative technique for confirming the direct binding of drugs to platelet protein targets, providing a platform for understanding the mechanism of action of drugs in platelets, and which will be a valuable tool for investigating platelet signaling and function.

Published

2024

6. Finding and following: a deep learning-based pipeline for tracking platelets during thrombus formation in vivo and ex vivo

Author

Abigail S. McGovern, Pia Larsson, Volga Tarlac, Natasha Setiabakti, Leila Shabani Mashcool, Justin R. Hamilton, Niklas Boknäs, and Juan Nunez-Iglesias

Subjects

Deep learning, image analysis, platelets, segmentation, thrombosis, tracking, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractThe last decade has seen increasing use of advanced imaging techniques in platelet research. However, there has been a lag in the development of image analysis methods, leaving much of the information trapped in images. Herein, we present a robust analytical pipeline for finding and following individual platelets over time in growing thrombi. Our pipeline covers four steps: detection, tracking, estimation of tracking accuracy, and quantification of platelet metrics. We detect platelets using a deep learning network for image segmentation, which we validated with proofreading by multiple experts. We then track platelets using a standard particle tracking algorithm and validate the tracks with custom image sampling — essential when following platelets within a dense thrombus. We show that our pipeline is more accurate than previously described methods. To demonstrate the utility of our analytical platform, we use it to show that in vivo thrombus formation is much faster than that ex vivo. Furthermore, platelets in vivo exhibit less passive movement in the direction of blood flow. Our tools are free and open source and written in the popular and user-friendly Python programming language. They empower researchers to accurately find and follow platelets in fluorescence microscopy experiments.

Published

2024

7. The bile acid receptor TGR5 inhibits platelet activation and thrombus formation

Author

Friedrich Reusswig, Maria Reich, Leonard Wienands, Diran Herebian, Verena Keitel-Anselmino, and Margitta Elvers

Subjects

Bile acid, platelets, TGR5 receptor, thrombus formation, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractLiver failure and cirrhosis are characterized by abnormal hemostasis with aberrant platelet activation. In particular, the consequences of cholestatic liver disease and molecular mechanisms, including the role of bile acids leading to impaired platelet responses, are not well understood. Here, we demonstrate that bile acids inhibit human and murine platelet activation, adhesion and spreading, leading to reduced thrombus formation under flow conditions. We identified the G-protein coupled receptor TGR5 in platelets and provide support for its role as mediator of bile acid-induced impairment of platelet activation. In the liver, TGR5 couples to Gαs proteins, activates the adenylate cyclase to induce a transient cAMP rise and stimulates the MAPK signaling pathway to regulate cholangiocyte proliferation, hepatocyte survival and inflammation. In this report, we demonstrate that the genetic deficiency of TGR5 in mice led to enhanced platelet activation and thrombus formation, suggesting that TGR5 plays an important role in hemostasis. Mechanistically, platelet inhibition is achieved by TGR5 mediated PKA activation and modulation of AKT and ERK1/2 phosphorylation. Thus, this report provides evidence for the ability of TGR5 ligands to reduce platelet activation and identifies TGR5 agonism as a new target for the prevention of cardiovascular diseases.

Published

2024

8. Glycan-Lectin interactions between platelets and tumor cells drive hematogenous metastasis

Author

Longqiang Shu, Shanyi Lin, Shumin Zhou, and Ting Yuan

Subjects

Cancer metastasis, glycoconjugations, glycosylation, lectin, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractGlycosylation is a ubiquitous cellular or microenvironment-specific post-translational modification that occurs on the surface of normal cells and tumor cells. Tumor cell-associated glycosylation is involved in hematogenous metastasis. A wide variety of tumors undergo aberrant glycosylation to interact with platelets. As platelets have many opportunities to engage circulating tumor cells, they represent an important avenue into understanding the role glycosylation plays in tumor metastasis. Platelet involvement in tumor metastasis is evidenced by observations that platelets protect tumor cells from damaging shear forces and immune system attack, aid metastasis through the endothelium at specific sites, and facilitate tumor survival and colonization. During platelet-tumor-cell interactions, many opportunities for glycan-ligand binding emerge. This review integrates the latest information about glycans, their ligands, and how they mediate platelet-tumor interactions. We also discuss adaptive changes that tumors undergo upon glycan-lectin binding and the impact glycans have on targeted therapeutic strategies for treating tumors in clinical settings.

Published

2024

9. Transcription factor 3 is dysregulated in megakaryocytes in myelofibrosis

Author

Ryan J Collinson, Lynne Wilson, Darren Boey, Zi Yun Ng, Bob Mirzai, Hun S Chuah, Rebecca Howman, Carolyn S Grove, Jacques A J Malherbe, Michael F Leahy, Matthew D Linden, Kathryn A Fuller, Wendy N Erber, and Belinda B Guo

Subjects

Megakaryocyte, myelofibrosis, myeloproliferative neoplasms, next-generation sequencing, platelets, TCF3, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractTranscription factor 3 (TCF3) is a DNA transcription factor that modulates megakaryocyte development. Although abnormal TCF3 expression has been identified in a range of hematological malignancies, to date, it has not been investigated in myelofibrosis (MF). MF is a Philadelphia-negative myeloproliferative neoplasm (MPN) that can arise de novo or progress from essential thrombocythemia [ET] and polycythemia vera [PV] and where dysfunctional megakaryocytes have a role in driving the fibrotic progression. We aimed to examine whether TCF3 is dysregulated in megakaryocytes in MPN, and specifically in MF. We first assessed TCF3 protein expression in megakaryocytes using an immunohistochemical approach analyses and showed that TCF3 was reduced in MF compared with ET and PV. Further, the TCF3-negative megakaryocytes were primarily located near trabecular bone and had the typical “MF-like” morphology as described by the WHO. Genomic analysis of isolated megakaryocytes showed three mutations, all predicted to result in a loss of function, in patients with MF; none were seen in megakaryocytes isolated from ET or PV marrow samples. We then progressed to transcriptomic sequencing of platelets which showed loss of TCF3 in MF. These proteomic, genomic and transcriptomic analyses appear to indicate that TCF3 is downregulated in megakaryocytes in MF. This infers aberrations in megakaryopoiesis occur in this progressive phase of MPN. Further exploration of this pathway could provide insights into TCF3 and the evolution of fibrosis and potentially lead to new preventative therapeutic targets.

Published

2024

10. Role of platelet count in a murine stasis model of deep vein thrombosis

Author

Rick Mathews, Naly Setthavongsack, Anh Le-Cook, Andy Kaempf, Jennifer M Loftis, Randall L Woltjer, Christina U Lorentz, Alexey Revenko, Monica T Hinds, and Khanh P Nguyen

Subjects

Deep vein thrombosis, platelets, postthrombotic syndrome, thrombus, veins, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractPlatelets are core components of thrombi but their effect on thrombus burden during deep vein thrombosis (DVT) has not been fully characterized. We examined the role of thrombopoietin-altered platelet count on thrombus burden in a murine stasis model of DVT. To modulate platelet count compared to baseline, CD1 mice were pretreated with thrombopoietin antisense oligonucleotide (THPO-ASO, 56% decrease), thrombopoietin mimetic (TPO-mimetic, 36% increase), or saline (within 1%). Thrombi and vein walls were examined on postoperative days (POD) 3 and 7. Thrombus weights on POD 3 were not different between treatment groups (p = .84). The mean thrombus weights on POD 7 were significantly increased in the TPO-mimetic cohort compared to the THPO-ASO (p = .005) and the saline (p = .012) cohorts. Histological grading at POD 3 revealed a significantly increased smooth muscle cell presence in the thrombi and CD31 positive channeling in the vein wall of the TPO-mimetic cohort compared to the saline and THPO-ASO cohorts (p

Published

2024

11. Transcription factor 3 is dysregulated in megakaryocytes in myelofibrosis.

Author

Collinson, Ryan J., Wilson, Lynne, Boey, Darren, Zi Yun Ng, Mirzai, Bob, Chuah, Hun S., Howman, Rebecca, Grove, Carolyn S., Malherbe, Jacques A. J., Leahy, Michael F., Linden, Matthew D., Fuller, Kathryn A., Erber, Wendy N., and Guo, Belinda B.

Subjects

*TRANSCRIPTION factors, *POLYCYTHEMIA vera, *MYELOPROLIFERATIVE neoplasms, *CANCELLOUS bone, *HEMATOLOGIC malignancies

Abstract

Transcription factor 3 (TCF3) is a DNA transcription factor that modulates megakaryocyte development. Although abnormal TCF3 expression has been identified in a range of hematological malignancies, to date, it has not been investigated in myelofibrosis (MF). MF is a Philadelphia-negative myeloproliferative neoplasm (MPN) that can arise de novo or progress from essential thrombocythemia [ET] and polycythemia vera [PV] and where dysfunctional megakaryocytes have a role in driving the fibrotic progression. We aimed to examine whether TCF3 is dysregulated in megakaryocytes in MPN, and specifically in MF. We first assessed TCF3 protein expression in megakaryocytes using an immunohistochemical approach analyses and showed that TCF3 was reduced in MF compared with ET and PV. Further, the TCF3-negative megakaryocytes were primarily located near trabecular bone and had the typical "MF-like" morphology as described by the WHO. Genomic analysis of isolated megakaryocytes showed three mutations, all predicted to result in a loss of function, in patients with MF; none were seen in megakaryocytes isolated from ET or PV marrow samples. We then progressed to transcriptomic sequencing of platelets which showed loss of TCF3 in MF. These proteomic, genomic and transcriptomic analyses appear to indicate that TCF3 is downregulated in megakaryocytes in MF. This infers aberrations in megakaryopoiesis occur in this progressive phase of MPN. Further exploration of this pathway could provide insights into TCF3 and the evolution of fibrosis and potentially lead to new preventative therapeutic targets. [ABSTRACT FROM AUTHOR]

Published

2024

12. Role of platelet count in a murine stasis model of deep vein thrombosis.

Author

Mathews, Rick, Setthavongsack, Naly, Le-Cook, Anh, Kaempf, Andy, Loftis, Jennifer M., Woltjer, Randall L., Lorentz, Christina U., Revenko, Alexey, Hinds, Monica T., and Nguyen, Khanh P.

Subjects

*VENOUS thrombosis, *PLATELET count, *POSTTHROMBOTIC syndrome, *THROMBOTIC thrombocytopenic purpura, *MUSCLE cells

Abstract

Platelets are core components of thrombi but their effect on thrombus burden during deep vein thrombosis (DVT) has not been fully characterized. We examined the role of thrombopoietin-altered platelet count on thrombus burden in a murine stasis model of DVT. To modulate platelet count compared to baseline, CD1 mice were pretreated with thrombopoietin antisense oligonucleotide (THPO-ASO, 56% decrease), thrombopoietin mimetic (TPO-mimetic, 36% increase), or saline (within 1%). Thrombi and vein walls were examined on postoperative days (POD) 3 and 7. Thrombus weights on POD 3 were not different between treatment groups (p = .84). The mean thrombus weights on POD 7 were significantly increased in the TPO-mimetic cohort compared to the THPO-ASO (p = .005) and the saline (p = .012) cohorts. Histological grading at POD 3 revealed a significantly increased smooth muscle cell presence in the thrombi and CD31 positive channeling in the vein wall of the TPOmimetic cohort compared to the saline and THPO-ASO cohorts (p < .05). No differences were observed in histology on POD 7. Thrombopoietin-induced increased platelet count increased thrombus weight on POD 7 indicating platelet count may regulate thrombus burden during early resolution of venous thrombi in this murine stasis model of DVT. [ABSTRACT FROM AUTHOR]

Published

2024

13. The bile acid receptor TGR5 inhibits platelet activation and thrombus formation.

Author

Reusswig, Friedrich, Reich, Maria, Wienands, Leonard, Herebian, Diran, Keitel-Anselmino, Verena, and Elvers, Margitta

Subjects

*FARNESOID X receptor, *G protein coupled receptors, *BLOOD platelet activation, *ADENYLATE cyclase, *CARDIOVASCULAR diseases

Abstract

Liver failure and cirrhosis are characterized by abnormal hemostasis with aberrant platelet activation. In particular, the consequences of cholestatic liver disease and molecular mechanisms, including the role of bile acids leading to impaired platelet responses, are not well understood. Here, we demonstrate that bile acids inhibit human and murine platelet activation, adhesion and spreading, leading to reduced thrombus formation under flow conditions. We identified the G-protein coupled receptor TGR5 in platelets and provide support for its role as mediator of bile acid-induced impairment of platelet activation. In the liver, TGR5 couples to Gαs proteins, activates the adenylate cyclase to induce a transient cAMP rise and stimulates the MAPK signaling pathway to regulate cholangiocyte proliferation, hepatocyte survival and inflammation. In this report, we demonstrate that the genetic deficiency of TGR5 in mice led to enhanced platelet activation and thrombus formation, suggesting that TGR5 plays an important role in hemostasis. Mechanistically, platelet inhibition is achieved by TGR5 mediated PKA activation and modulation of AKT and ERK1/2 phosphorylation. Thus, this report provides evidence for the ability of TGR5 ligands to reduce platelet activation and identifies TGR5 agonism as a new target for the prevention of cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

14. 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

15. Finding and following: a deep learning-based pipeline for tracking platelets during thrombus formation in vivo and ex vivo.

Author

McGovern, Abigail S., Larsson, Pia, Tarlac, Volga, Setiabakti, Natasha, Mashcool, Leila Shabani, Hamilton, Justin R., Boknäs, Niklas, and Nunez-Iglesias, Juan

Subjects

*PYTHON programming language, *THROMBOTIC thrombocytopenic purpura, *IMAGE segmentation, *TRACKING algorithms, *DEEP learning

Abstract

The last decade has seen increasing use of advanced imaging techniques in platelet research. However, there has been a lag in the development of image analysis methods, leaving much of the information trapped in images. Herein, we present a robust analytical pipeline for finding and following individual platelets over time in growing thrombi. Our pipeline covers four steps: detection, tracking, estimation of tracking accuracy, and quantification of platelet metrics. We detect platelets using a deep learning network for image segmentation, which we validated with proofreading by multiple experts. We then track platelets using a standard particle tracking algorithm and validate the tracks with custom image sampling -- essential when following platelets within a dense thrombus. We show that our pipeline is more accurate than previously described methods. To demonstrate the utility of our analytical platform, we use it to show that in vivo thrombus formation is much faster than that ex vivo. Furthermore, platelets in vivo exhibit less passive movement in the direction of blood flow. Our tools are free and open source and written in the popular and user-friendly Python programming language. They empower researchers to accurately find and follow platelets in fluorescence microscopy experiments. [ABSTRACT FROM AUTHOR]

Published

2024

16. Application of the Cellular Thermal Shift Assay (CETSA) to validate drug target engagement in platelets.

Author

Howes, Joanna-Marie and Harper, Matthew T.

Subjects

*MEMBRANE permeability (Biology), *CELL membranes, *DRUG target, *SMALL molecules, *TECHNICAL reports

Abstract

Small molecule drugs play a major role in the study of human platelets. Effective action of a drug requires it to bind to one or more targets within the platelet (target engagement). However, although in vitro assays with isolated proteins can be used to determine drug affinity to these targets, additional factors affect target engagement and its consequences in an intact platelet, including plasma membrane permeability, intracellular metabolism or compartmentalization, and level of target expression. Mechanistic interpretation of the effect of drugs on platelet activity requires comprehensive investigation of drug binding in the proper cellular context, i.e. in intact platelets. The Cellular Thermal Shift Assay (CETSA) is a valuable method to investigate target engagement within complex cellular environments. The assay is based on the principle that drug binding to a target protein increases that protein's thermal stability. In this technical report, we describe the application of CETSA to platelets. We highlight CETSA as a quick and informative technique for confirming the direct binding of drugs to platelet protein targets, providing a platform for understanding the mechanism of action of drugs in platelets, and which will be a valuable tool for investigating platelet signaling and function. [ABSTRACT FROM AUTHOR]

Published

2024

17. Whole blood platelet aggregation measurement by Multiplate™: potential diagnostic inaccuracy of correcting the results for the sample platelet count.

Author

Scavone, Mariangela, Podda, Gian Marco, Tripodi, Armando, and Cattaneo, Marco

Subjects

*BLOOD platelet aggregation, *PLATELET count, *MEAN platelet volume

Published

2023

18. What can the plasma proteome tell us about platelets (and vice versa)?

Author

Bruzek, Steven, Betensky, Marisol, Di Paola, Jorge, Diacovo, Thomas, Goldenberg, Neil, and Ignjatovic, Vera

Subjects

*BLOOD platelets, *PATHOGENESIS, *BLOOD proteins, *MULTIOMICS, *DISEASE progression

Abstract

Multi-omics approaches are being used increasingly to study physiological and pathophysiologic processes. Proteomics specifically focuses on the study of proteins as functional elements and key contributors to, and markers of the phenotype, as well as targets for diagnostic and therapeutic approaches. Depending on the condition, the plasma proteome can mirror the platelet proteome, and hence play an important role in elucidating both physiologic and pathologic processes. In fact, both plasma and platelet protein signatures have been shown to be important in the setting of thrombosis-prone disease states such as atherosclerosis and cancer. Plasma and platelet proteomes are increasingly being studied as a part of a single entity, as is the case with patient-centric sample collection approaches such as capillary blood. Future studies should cut across the plasma and platelet proteome silos, taking advantage of the vast knowledge available when they are considered as part of the same studies, rather than studied as distinct entities. [ABSTRACT FROM AUTHOR]

Published

2023

19. Tissue inhibitors of metalloproteinases (TIMPs) modulate platelet ADAM10 activity.

Author

Shu Mei, Christine, Lee, Kaur, Amandeep, Montague, Samantha J., Hicks, Sarah M., Andrews, Robert K., and Gardiner, Elizabeth E.

Subjects

*TISSUE inhibitors of metalloproteinases, *BLOOD platelets, *ETHYLENEDIAMINETETRAACETIC acid, *THROMBIN receptors, *PEPTIDES

Abstract

Platelet-specific collagen receptor glycoprotein (GP)VI is stable on the surface of circulating platelets but undergoes ectodomain cleavage on activated platelets. Activation-dependent GPVI metalloproteolysis is primarily mediated by A Disintegrin And Metalloproteinase (ADAM) 10. Regulation of platelet ADAMs activity is not well-defined however Tissue Inhibitors of Metalloproteinases (TIMPs) may play a role. As levels of TIMPs on platelets and the control of ADAMs-mediated shedding by TIMPs has not been evaluated, we quantified the levels of TIMPs on the surface of resting and activated platelets from healthy donors by flow cytometry and multiplex ELISA. Variable levels of all TIMPs could be detected on platelets. Plasma contained significant quantities of TIMP1 and TIMP2, but only trace amounts of TIMP3 and TIMP4. Recombinant TIMP3 strongly ablated resting and activated platelet ADAM10 activity, when monitored using a quenched fluorogenic peptide substrate with ADAM10 specificity. Whilst ADAM10-specific inhibitor GI254023X or ethylenediamine tetraacetic acid (EDTA) could modulate ligand-initiated shedding of GPVI, only recombinant TIMP2 achieved a modest (~20%) inhibition. We conclude that some platelet TIMPs are able to modulate platelet ADAM10 activity but none strongly regulate ligand-dependent shedding of GPVI. Our findings provide new insights into the regulation of platelet receptor sheddase activity. [ABSTRACT FROM AUTHOR]

Published

2023

20. The phenotype of cryopreserved platelets influences the formation of platelet-leukocyte aggregates in an in vitro model.

Author

Winskel-Wood, Ben, Padula, Matthew P., Marks, Denese C., and Johnson, Lacey

Subjects

*BLOOD platelets, *PHENOTYPES, *FLOW cytometry, *LEUCOCYTES, *CD45 antigen

Abstract

Cryopreservation significantly alters the phenotype of platelets; generating distinct subpopulations, which may influence the formation of platelet leukocyte aggregates (PLA). PLAs are immunomodulatory and have been associated with transfusion-associated adverse events. As such, the aim of this study was to examine the effect of cryopreservation on the ability of platelets to form PLAs, using a monocyte-like cell line (THP-1). Platelets were tested pre-freeze, post-thaw and following stimulation with TRAP-6 or A23187, both alone and following co-culture with THP-1 cells for 1 and 24 hours (n = 6). Platelet subpopulations and platelet-THP-1 cell aggregates were analyzed using multi-color imaging flow cytometry using Apotracker Green (ApoT), CD42b, CD62P, CD61, and CD45. Cryopreservation resulted in the generation of activated (ApoT-/CD42b+/CD62P+), procoagulant (ApoT+/CD42b+/CD62P+) and a novel (ApoT+/CD42b+/CD62P-) platelet subpopulation. Coincubation of cryopreserved platelets with THP-1 cells increased PLA formation compared to prefreeze but not TRAP-6 or A23187 stimulated platelets. P-selectin on the surface membrane was correlated with increased PLA formation. Our findings demonstrate that cryopreservation increases the interaction between platelets and THP-1 cells, largely due to an increase in procoagulant platelets. Further investigation is required to determine the immunological consequences of this interaction. [ABSTRACT FROM AUTHOR]

Published

2023

21. The prospects of microphysiological systems in modeling platelet pathophysiology in cancer.

Author

Ghosh, Lopamudra D. and Jain, Abhishek

Subjects

*BLOOD platelets, *PATHOLOGICAL physiology, *CANCER cells, *DRUG approval, *METASTASIS, *MICROPHYSIOLOGICAL systems

Abstract

The contribution of platelets is well recognized in thrombosis and hemostasis. However, platelets also promote tumor progression and metastasis through their crosstalk with various cells of the tumor microenvironment (TME). For example, several cancer models continue to show that platelet functions are readily altered by cancer cells upon activation leading to the formation of platelet-tumor aggregates, triggering release of soluble factors from platelet granules and altering platelet turnover. Further, activated platelets protect tumor cells from shear forces in circulation and assault of cytotoxic natural killer (NK) cells. Platelet-secreted factors promote proliferation of malignant cells, metastasis, and chemoresistance. Much of our knowledge of platelet biology in cancer has been achieved with animal models, particularly murine. However, this preclinical understanding of the complex pathophysiology is yet to be fully realized and translated to clinical trials in terms of new approaches to treat cancer via controlling the platelet function. In this review, we summarize the current state of knowledge of platelet physiology obtained through existing in vivo and in vitro cancer models, the complex interactions of platelets with cancer cells in TME and the pathways by which platelets may confer chemoresistance. Since the FDA Modernization Act recently passed by the US government has made animal models optional in drug approvals, we critically examine the existing and futuristic value of employing bioengineered microphysiological systems and organ-chips to understand the mechanistic role of platelets in cancer metastasis and exploring novel therapeutic targets for cancer prevention and treatment. [ABSTRACT FROM AUTHOR]

Published

2023

22. a-Synuclein is the major platelet isoform but is dispensable for activation, secretion, and thrombosis.

Author

Smith, Alexis N., Joshi, Smita, Chanzu, Harry, Alfar, Hammodah R., Prakhya, Kanakanagavalli Shravani, and Whiteheart, Sidney W.

Subjects

*BLOOD platelets, *SECRETION, *THROMBOTIC thrombocytopenic purpura, *THROMBOSIS, *PROTEIN receptors

Abstract

Platelets play many roles in the vasculature ensuring proper hemostasis and maintaining integrity. These roles are facilitated, in part, by cargo molecules released from platelet granules via Soluble NSF Attachment Protein Receptor (SNARE) mediated membrane fusion, which is controlled by several protein-protein interactions. Chaperones have been characterized for t-SNAREs (i.e. Munc18b for Syntaxin-11), but none have been clearly identified for v-SNAREs. a-Synuclein has been proposed as a v-SNARE chaperone which may affect SNARE-complex assembly, fusion pore opening, and thus secretion. Despite its abundance and that it is the only isoform present, a-synuclein's role in platelet secretion is uncharacterized. In this study, immunofluorescence showed that a-synuclein was present on punctate structures that costained with markers for a-granules and lysosomes and in a cytoplasmic pool. We analyzed the phenotype of a-synuclein-/- mice and their platelets. Platelets from knockout mice had a mild, agonist-dependent secretion defect but aggregation and spreading in vitro were unaffected. Consistently, thrombosis/hemostasis were unaffected in the tail-bleeding, FeCl3 carotid injury and jugular vein puncture models. None of the platelet secretory machinery examined, e.g. the v-SNAREs, were affected by a-synuclein's loss. The results indicate that, despite its abundance, a-synuclein has only a limited role in platelet function and thrombosis. [ABSTRACT FROM AUTHOR]

Published

2023

23. Thrombus remodelling by reversible and irreversible P2Y12 inhibitors.

Author

Tunströmer, Kjersti, Faxälv, Lars, Larsson, Pia, Lindahl, Tomas L., and Boknäs, Niklas

Subjects

*ACUTE coronary syndrome, *THROMBOSIS, *PRASUGREL, *PATIENT compliance, *IMAGE analysis

Abstract

Pharmacological inhibition of the platelet ADP-receptor P2Y12 is a cornerstone in the prevention of atherothrombotic events in adult patients with acute coronary syndrome (ACS). Thienopyridines such as clopidogrel and prasugrel exert their antithrombotic effect by means of active metabolites that irreversibly inhibit P2Y12. Due to the short half-life of these metabolites, a subpopulation of ADP-responsive platelets will form in between dosing. With increased platelet turnover rate or poor patient compliance, the fraction of ADP-responsive platelets will increase, potentially increasing the risk for new thrombotic events. In contrast, the reversible P2Y12 inhibition produced by direct-acting ADP blockers such as ticagrelor and cangrelor inhibit the entire platelet population. In this study, we evaluated the impact of these pharmacological differences on thrombus formation in an ex vivo flow chamber model. A customized image analysis pipeline was used for automatized, large-scale identification and tracking of single platelets incorporated into the thrombus, enabling quantitative analysis of the relative contribution of inhibited and uninhibited platelets to thrombus growth and consolidation. Comparative experiments were conducted using the irreversible and reversible P2Y12 inhibitors prasugrel active metabolite (PAM) and ticagrelor, respectively. Our results show that PAM inhibited thrombus platelet recruitment more gradually than ticagrelor, with a slower onset of inhibition. Further, we show that the presence of a small fraction (<10%) of uninhibited platelets did not abrogate the antithrombotic effect of PAM to any significant extent. Finally, we demonstrate a gradual enrichment of inhibited platelets in the thrombus shell due to selective recruitment of inhibited platelets to the thrombus periphery. [ABSTRACT FROM AUTHOR]

Published

2023

24. Laser-triggered intelligent drug delivery and anti-cancer photodynamic therapy using platelets as the vehicle.

Author

Qi-Rui Li, Hua-Zhen Xu, Rong-Cheng Xiao, Bin Liu, Tian-Qi Ma, Ting-Ting Yu, Liu-Gen Li, Mei-Fang Wang, Li Zhao, Xiao Chen, and Tong-Fei Li

Subjects

*PHOTODYNAMIC therapy, *ANTINEOPLASTIC agents, *BLOOD platelets, *BLOOD platelet disorders, *TRANSMISSION electron microscopy, *SCANNING electron microscopy

Abstract

In our previous study, target drug delivery and treatment of malignant tumors have been achieved by using platelets as carriers loading nano-chemotherapeutic agents (ND-DOX). However, drug release from ND-DOX-loaded platelets is dependent on negative platelet activation by tumor cells, whose activation is not significant enough for the resulting drug release to take an effective anti-tumor effect. Exploring strategies to proactively manipulate the controlled release of drug-laden platelets is imperative. The present study innovatively revealed that photodynamic action can activate platelets in a spatiotemporally controlled manner. Consequently, based on the previous study, platelets were used to load iron oxide-polyglycerol-doxorubicin-chlorin e6 composites (IO-PGDOX-Ce6), wherein the laser-triggered drug release ability and anti-tumor capability were demonstrated. The findings suggested that IO-PG-DOX-Ce6 could be stably loaded by platelets in high volume without any decrease in viability. Importantly and interestingly, drug-loaded platelets were significantly activated by laser irradiation, characterized by intracellular ROS accumulation and up-regulation of CD62p. Additionally, scanning electron microscopy (SEM) and hydrated particle size results also showed a significant aggregation response of laser irradiated-drug-loaded platelets. Further transmission electron microscopy (TEM) measurements indicated that the activated platelets released extracellularly their cargo drug after laser exposure, which could be taken up by co-cultured tumor cells. Finally, the co-culture model of drug-loaded platelets and tumor cells proved that laser-triggered delivery system of platelets could effectively damage the DNA and promote apoptosis of tumor cells. Overall, the present study discovers a drug-loaded platelets delivery using photodynamic effect, enabling laser-controlled intelligent drug delivery and anti-tumor therapy, which provides a novel and feasible approach for clinical application of cytopharmaceuticals. [ABSTRACT FROM AUTHOR]

Published

2023

25. Proteomics-wise, how similar are mouse and human platelets?

Author

Martínez-Botía, Patricia, Villar, Patricia, Carbajo-Argüelles, Graciela, Jaiteh, Zacaria, Acebes-Huerta, Andrea, and Gutiérrez, Laura

Subjects

*BLOOD platelets, *BLOOD transfusion, *MICE, *BLOOD platelet disorders, *HEMATOPOIESIS, *PROTEOMICS

Abstract

The field of proteomics and its application to platelet biology, is rapidly and promisingly developing. Platelets (and megakaryocytes) are postulated as biosensors of health and disease, and their proteome poses as a tool to identify the specific health-disease hallmarks. Furthermore, the clinical management of certain pathologies where platelets are active players demands the development of alternative treatments, such is the case in patients where the balance thrombosis-bleeding is compromised, and a proteomics approach might aid at the identification of novel targets. Hereby, the mouse and human platelet proteomes and secretomes from public databases are compared, which shows that human and mouse platelets share a highly conserved proteome, considering identified proteins, and most importantly, their relative abundance. These supports, also interspecies wise, the use of the proteomics tool in the field, substantiated by a growing number of clinically relevant studies in humans or preclinical models. While the study of platelets through proteomics seems accessible and direct (i.e. noninvasive blood sampling, enucleated), there are some points of concern regarding the quality control of samples for such proteomics studies. Importantly, the quality of the generated data is improving over the years, which will allow cross-study comparisons. In parallel, the application of proteomics to the megakaryocyte compartment has a promising but long journey ahead. We foresee and encourage the application of platelet proteomics for diagnostic/prognostic purposes even beyond hematopoiesis and transfusion medicine, and as a tool that will procure the improvement of current therapies and the development of alternative treatment options. [ABSTRACT FROM AUTHOR]

Published

2023

26. Introduction of direct-acting antiviral agents alters frequencies of anti-GPIIb/IIIa antibody-producing B cells in chronic hepatitis C patients with thrombocytopenia.

Author

Takashi Satoh, Haruki Uojima, Naohisa Wada, Hayato Takiguchi, Mei Kaneko, Marina Nakamura, Natsuki Gonda, Michika Homma, Hisashi Hidaka, Chika Kusano, and Ryouichi Horie

Subjects

*CHRONIC hepatitis C, *IMMUNOGLOBULIN producing cells, *CHRONIC hepatitis B, *ANTIVIRAL agents, *HEPATITIS B virus

Abstract

The pathogenesis of thrombocytopenia in chronic hepatitis C (CHC) conceivably involves autoimmunity; however, the dynamics of autoantibodies and other autoimmune mechanisms remain unclear. In this study, we examined the changes in the frequency of anti-glycoprotein (GP) IIb/IIIa antibody-producing B cells and the levels of plasma B-cell-activating factor (BAFF), a proliferation-inducing ligand (APRIL), and interleukin (IL)-21 following treatment of CHC with direct-acting antiviral agents (DAA). We recruited 28 patients with CHC who underwent treatment with DAA for 8-12 weeks and subsequently tested negative for serum hepatitis C virus RNA. Thirty healthy controls were recruited for comparison. Platelet counts increased significantly (p = .016), and the frequency of anti-GPIIb/IIIa antibody-producing B cells decreased significantly (p = .002) in CHC patients with thrombocytopenia at the end of treatment (EOT) than before DAA treatment (baseline). However, these changes were not observed in CHC patients without thrombocytopenia. Plasma BAFF levels in CHC patients with thrombocytopenia significantly decreased from baseline to EOT (p = .002). Anti-GPIIb/IIIa antibodyproducing B cells were positively correlated with plasma BAFF levels in these patients (r = 0.669, p = .039). These results suggest that DAA treatment suppresses the autoimmune response against platelets and improves thrombocytopenia. [ABSTRACT FROM AUTHOR]

Published

2023

27. Platelet glycogenolysis is important for energy production and function.

Author

Prakhya, Kanakanagavalli Shravani, Vekaria, Hemendra, Coenen, Daniëlle M., Omali, Linda, Lykins, Joshua, Joshi, Smita, Alfar, Hammodah R., Qing Jun Wang, Sullivan, Patrick, and Whiteheartq, Sidney W.

Subjects

*GLYCOGENOLYSIS, *GLYCOGEN storage disease, *ENERGY function, *BLOOD platelets, *GLYCOGEN phosphorylase

Abstract

Although the presence of glycogen in platelets was established in the 1960s, its importance to specific functions (i.e., activation, secretion, aggregation, and clot contraction) remains unclear. Patients with glycogen storage disease often present with increased bleeding and glycogen phosphorylase (GP) inhibitors, when used as treatments for diabetes, induce bleeding in preclinical studies suggesting some role for this form of glucose in hemostasis. In the present work, we examined how glycogen mobilization affects platelet function using GP inhibitors (CP316819 and CP91149) and a battery of ex vivo assays. Blocking GP activity increased glycogen levels in resting and thrombin-activated platelets and inhibited platelet secretion and clot contraction, with minimal effects on aggregation. Seahorse energy flux analysis and metabolite supplementation experiments suggested that glycogen is an important metabolic fuel whose role is affected by platelet activation and the availability of external glucose and other metabolic fuels. Our data shed light on the bleeding diathesis in glycogen storage disease patients and offer insights into the potential effects of hyperglycemia on platelets. [ABSTRACT FROM AUTHOR]

Published

2023

28. Multiple myeloma and its treatment contribute to increased platelet reactivity.

Author

Mitchell, Joanne L., Khan, Dalia, Rana, Rekha H., Kriek, Neline, Unsworth, Amanda J., Sage, Tanya, Bye, Alexander P., Laffan, Michael, Shapiro, Susan, Thakurta, Anjan, Grech, Henri, Ramasamy, Karthik, and Gibbins, Jonathan M.

Subjects

*MULTIPLE myeloma, *BLOOD platelets, *LENALIDOMIDE, *OVERALL survival, *FIBRINOGEN, *PRASUGREL, *BORTEZOMIB

Abstract

Multiple myeloma (MM) and its precursor states, smoldering myeloma (SM) and monoclonal gammopathy of undetermined significance (MGUS) are associated with increased incidence of thrombosis, however the cause of this is unknown. Lenalidomide treatment of MM substantially improves patient survival, although significantly increases thrombotic risk by an unknown mechanism. This pilot study aimed to establish the impact of MM and its treatment with Lenalidomide on platelet function. We analyzed platelet function in MGUS, SM and MM compared to healthy controls. We report an increase in platelet reactivity in MGUS, SM, and MM where increases in fibrinogen binding, P-selectin exposure, altered receptor expression, elevated levels of aggregation and enhanced sensitivity to agonist stimulation were observed. We also demonstrate an increase in patient platelet reactivity post Lenalidomide treatment compared to pre-treatment. We show Lenalidomide treatment of platelets ex vivo increased reactivity that was associated with formation of larger thrombi at arterial shear rates but not venous shear rates. This study demonstrates a clear increase in platelet reactivity and prothrombotic potential in patients with MGUS, SM and MM which is elevated further upon treatment with Lenalidomide. Our observations suggest that more detailed studies are warranted to determine mechanisms of thrombotic complications to enable the development of new preventative strategies that specifically target platelets. [ABSTRACT FROM AUTHOR]

Published

2023

29. Immature platelets in COVID-19.

Author

Wolny, Monika, Dittrich, Marcus, Knabbe, Cornelius, and Birschmann, Ingvild

Subjects

*BLOOD platelets, *PLATELET count, *COVID-19, *EXTRACORPOREAL membrane oxygenation

Abstract

Platelets play a critical role in immune response. Coronavirus disease 2019 (COVID-19) patients with a severe course often show pathological coagulation parameters including thrombocytopenia, and at the same time the proportion of immature platelets increases. In this study, the platelet count and the immature platelet fraction (IPF) of hospitalized patients with different oxygenation requirements was investigated daily over a course of 40 days. In addition, the platelet function of COVID-19 patients was analyzed. It was found that the number of platelets in patients with the most severe course (intubation and extracorporeal membrane oxygenation (ECMO)) was significantly lower (111.5 · 106/mL) than in the other groups (mild (no intubation, no ECMO): 203.5 · 106 /mL, p < .0001, moderate (intubation, no ECMO): 208.0 · 106 /mL, p < .0001). IPF tended to be elevated (10.9%). Platelet function was reduced. Differentiation by outcome revealed that the deceased patients had a highly significant lower platelet count and higher IPF (97.3 · 106 /mL, p < .0001, 12.2%, p = .0003). [ABSTRACT FROM AUTHOR]

Published

2023

30. How can we use proteomics to learn more about platelets?

Author

Aslan, Joseph E.

Subjects

*POST-translational modification, *BLOOD platelets, *PROTEOMICS

Abstract

Proteomics tools provide a powerful means to identify, detect, and quantify protein-related details in studies of platelet phenotype and function. Here, we consider how historical and recent advances in proteomics approaches have informed our understanding of platelet biology, and, how proteomics tools can be used going forward to advance studies of platelets. It is now apparent that the platelet proteome is comprised of thousands of different proteins, where specific changes in platelet protein systems can accompany alterations in platelet function in health and disease. Going forward, many challenges remain in how to best carry out, validate and interpret platelet proteomics experiments. Future studies of platelet protein post-translational modifications such as glycosylation, or studies that take advantage of single cell proteomics and top-down proteomics methods all represent areas of interest to profiling and more richly understanding platelets in human wellness and disease. [ABSTRACT FROM AUTHOR]

Published

2023

31. Effects of platelets activated by different agonists on fibrin formation and thrombin generation.

Author

Muravlev, Ivan A., Dobrovolsky, Anatoly B., Antonova, Olga A., Khaspekova, Svetlana G., and Mazurov, Alexey V.

Subjects

*FIBRIN, *THROMBIN, *BLOOD platelets, *THROMBIN receptors, *LIGHT absorbance

Abstract

Activated platelets possess procoagulant activity expressing on their surface phosphatidylserine (PS), a substrate for assembling coagulation complexes. We examined the effects of platelets activated by different agonists on fibrin formation and thrombin generation and compared these effects with each other and with PS expression. Modified plasma recalcification assay was developed to assess platelet effects on fibrin formation. Washed human platelets were left intact or activated by A23187 ionophore, collagen, arachidonic acid, ADP or TRAP (Thrombin Receptor Activating Peptide) and spun down in 96-well plates. Plasma was then added, recalcified, and fibrin formation was monitored by light absorbance. Platelets prepared in the same way were tested for their effect on thrombin generation. PS expression was evaluated by flow cytometry using annexin V staining. Platelets significantly accelerated fibrin formation and thrombin generation. They shortened lag phase and increased maximum rate of plasma clotting, and increased peak and maximum rate of thrombin generation. In both tests platelets were presumably activated by endogenous thrombin formed in plasma after triggering coagulation reactions. However, pretreatment with exogenous agonists additionally increased platelet procoagulant activity. It reached the maximum after incubation with A23187, being lower with collagen and arachidonic acid and minimum with ADP and TRAP (the latter might be ineffective due to competition with endogenous thrombin). The effects of platelets activated by different agonists on fibrin formation and thrombin generation correlate with each other and correspond to PS expression on their surface. [ABSTRACT FROM AUTHOR]

Published

2023

32. F11R/JAM-A: why do platelets express a molecule which is also present in tight junctions?

Author

Kamola, Piotr, Babinska, Anna, and Przygodzki, Tomasz

Subjects

*TIGHT junctions, *CELL adhesion molecules, *BLOOD platelets, *EPITHELIAL cells, *ENDOTHELIAL cells, *MEMBRANE proteins

Abstract

F11 receptor (F11R)/Junctional Adhesion Molecule -A (JAM-A) is a transmembrane protein which belongs to the immunoglobulin superfamily of cell adhesion molecules. F11R/JAM-A is present in epithelial cells, endothelial cells, leukocytes, and blood platelets. In epithelial and endothelial cells, it takes part in the formation of tight junctions. In these structures, molecules of F11R/JAM-A located on adjacent cells form homodimers and thus take part in stabilization of cellular layer integrity. In leukocytes, F11R/JAM-A was shown to play role in their transmigration through the vascular wall. Paradoxically, the function of F11R/JAM-A in blood platelets, where it was primarily discovered, is much less understood. It has been proven to regulate downstream signaling of aIIbß3 integrin and to mediate platelet adhesion under static conditions. It was also shown to contribute to transient interactions of platelets with inflamed vascular wall. The review is aimed at summarizing the current state of knowledge of the platelet pool of F11R/JAM-A. The article also presents perspectives of the future research to better understand the role of this protein in hemostasis, thrombosis, and other processes where blood platelets are involved. [ABSTRACT FROM AUTHOR]

Published

2023

33. Evaluating stored platelet shape change using imaging flow cytometry.

Author

Özpolat, Tahsin, Yakovenko, Olga, Stratiievska, Anastasiia, Bailey, S. Lawrence, Miles, Jeffrey, Usaneerungrueng, Chomkan, Byrne, Daire, Xiaoping Wu, and Stolla, Moritz

Subjects

*FLOW cytometry, *BLOOD platelets, *COLD (Temperature), *COLD storage, *BACTERIAL growth

Abstract

Platelets are routinely stored at room temperature for 5-7 days before transfusion. Stored platelet quality is traditionally assessed by Kunicki's morphology score. This method requires extensive training, experience, and is highly subjective. Moreover, the number of laboratories familiar with this technique is decreasing. Cold storage of platelets has recently regained interest because of potential advantages such as reduced bacterial growth and preserved function. However, platelets exposed to cold temperatures change uniformly from a discoid to a spherical shape, reducing the morphology score outcomes to spheroid versus discoid during cooling. We developed a simpler, unbiased screening tool to measure temperature-induced platelet shape change using imaging flow cytometry. When reduced to two dimensions, spheres appear circular, while discs are detected on a spectrum from fusiform to circular. We defined circular events as having a transverse axis of >0.8 of the longitudinal axis and fusiform events ≤ 0.8 of the longitudinal axis. Using this assay, mouse and human platelets show a temperature and time-dependent, two-dimensional shape change from fusiform to circular, consistent with their three-dimensional change from discs to spheres. The method we describe here is a valuable tool for detecting shape change differences in response to agonists or temperature and will help screening for therapeutic measures to mitigate the cold-induced storage lesion. [ABSTRACT FROM AUTHOR]

Published

2023

34. Deep learning, 3D ultrastructural analysis reveals quantitative differences in platelet and organelle packing in COVID-19/SARSCoV2 patient-derived platelets.

Author

Matharu, Sagar S., Nordmann, Cassidy S., Ottman, Kurtis R., Akkem, Rahul, Palumbo, Douglas, Cruz, Denzel R. D., Campbell, Kenneth, Sievert, Gail, Sturgill, Jamie, Porterfield, James Z., Joshi, Smita, Alfar, Hammodah R., Chi Peng, Pokrovskaya, Irina D., Kamykowski, Jeffrey A., Wood, Jeremy P., Garvy, Beth, Aronova, Maria A., Whiteheart, Sidney W., and Leapman, Richard D.

Subjects

*DEEP learning, *BLOOD platelets, *FOCUSED ion beams, *BLOOD platelet disorders, *COVID-19, *STEREOLITHOGRAPHY, *BLOOD platelet activation

Abstract

Platelets contribute to COVID-19 clinical manifestations, of which microclotting in the pulmonary vasculature has been a prominent symptom. To investigate the potential diagnostic contributions of overall platelet morphology and their a-granules and mitochondria to the understanding of platelet hyperactivation and micro-clotting, we undertook a 3D ultrastructural approach. Because differences might be small, we used the high-contrast, high-resolution technique of focused ion beam scanning EM (FIB-SEM) and employed deep learning computational methods to evaluate nearly 600 individual platelets and 30 000 included organelles within three healthy controls and three severely ill COVID-19 patients. Statistical analysis reveals that the a-granule/mitochondrion-to-plateletvolume ratio is significantly greater in COVID-19 patient platelets indicating a denser packing of organelles, and a more compact platelet. The COVID-19 patient platelets were significantly smaller -by 35% in volume - with most of the difference in organelle packing density being due to decreased platelet size. There was little to no 3D ultrastructural evidence for differential activation of the platelets from COVID-19 patients. Though limited by sample size, our studies suggest that factors outside of the platelets themselves are likely responsible for COVID-19 complications. Our studies show how deep learning 3D methodology can become the gold standard for 3D ultrastructural studies of platelets. [ABSTRACT FROM AUTHOR]

Published

2023

35. Combining human platelet proteomes and transcriptomes: possibilities and challenges.

Author

Jingnan Huang, Heemskerk, Johan W.M., and Swieringa, Frauke

Subjects

*BLOOD platelets, *TRANSCRIPTOMES, *MEGAKARYOCYTES, *POSSIBILITY, *RNA

Abstract

The anucleate human platelets contain a broad pattern of mRNAs and other RNA transcripts. The high quantitative similarity of mRNAs in megakaryocytes and platelets from different sources points to a common origin, and suggests a random redistribution of mRNA species upon proplatelet formation. A comparison of the classified platelet transcriptome (17.6k transcripts) with the identified platelet proteome (5.2k proteins) indicates an underrepresentation of: (i) nuclear but not of other organellar proteins; (ii) membrane receptors and channels with low transcript levels; (iii) transcription/translation proteins; and (iv) so far uncharacterized proteins. In this review, we discuss the technical, normalization and databasedependent possibilities and challenges to come to a complete, genome-wide platelet transcriptome and proteome. Such a reference transcriptome and proteome can serve to further elucidate intra-subject and inter-subject differences in platelets in health and disease. Applications may also lay in the aid of genetic diagnostics. [ABSTRACT FROM AUTHOR]

Published

2023

36. Cryopreservation affects platelet macromolecular composition over time after thawing and differently impacts on cancer cells behavior in vitro.

Author

Gavioli, Gaia, Razzoli, Agnese, Bedolla, Diana E., Di Bartolomeo, Erminia, Quartieri, Eleonora, Iotti, Barbara, Berni, Pamela, Birardaq, Giovanni, Vaccari, Lisa, Schiroli, Davide, Marraccini, Chiara, Baricchi, Roberto, and Merolle, Lucia

Subjects

*CANCER cells, *THAWING, *CANCER cell proliferation, *BLOOD platelets, *CELL migration

Abstract

Cryopreservation affects platelets' function, questioning their use for cancer patients. We aimed to investigate the biochemical events that occur over time after thawing to optimize transfusion timing and evaluate the effect of platelet supernatants on tumor cell behavior in vitro. We compared fresh (Fresh-PLT) with Cryopreserved platelets (Cryo-PLT) at 1 h, 3 h and 6 h after thawing. MCF-7 and HL-60 cells were cultured with Fresh- or 1 h Cryo-PLT supernatants to investigate cell proliferation, migration, and PLT-cell adhesion. We noticed a significant impairment of hemostatic activity accompanied by a post-thaw decrease of CD42b+, which identifies the CD62P--population. FTIR spectroscopy revealed a decrease in the total protein content together with changes in their conformational structure, which identified two sub-groups: 1) Fresh and 1 h Cryo-PLT; 2) 3 h and 6 h cryo-PLT. Extracellular vesicle shedding and phosphatidylserine externalization (PS) increased after thawing. Cryo-PLT supernatants inhibited cell proliferation, impaired MCF-7 cell migration, and reduced ability to adhere to tumor cells. Within the first 3 hours after thawing, irreversible alterations of biomolecular structure occur in Cryo-PLT. Nevertheless, Cryo-PLT should be considered safe for the transfusion of cancer patients because of their insufficient capability to promote cancer cell proliferation, adhesion, or migration. [ABSTRACT FROM AUTHOR]

Published

2023

37. 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

38. Atorvastatin-mediated inhibition of prenylation of Rab27b and Rap1a in platelets attenuates their prothrombotic capacity and modulates clot structure.

Author

Jalal, Mohammed M., Whyte, Claire S., Coxon, Fraser P., and Mutch, Nicola J.

Subjects

*ISOPRENYLATION, *BLOOD platelets, *BLOOD platelet aggregation, *FIBRIN, *PLATELET-rich plasma, *BLOOD platelet activation

Abstract

Statins inhibit the mevalonate pathway by impairing protein prenylation via depletion of lipid geranylgeranyl diphosphate (GGPP). Rab27b and Rap1a are small GTPase proteins involved in dense granule secretion, platelet activation, and regulation. We analyzed the impact of statins on prenylation of Rab27b and Rap1a in platelets and the downstream effects on fibrin clot properties. Whole blood thromboelastography revealed that atorvastatin (ATV) delayed clot formation time (P < .005) and attenuated clot firmness (P < .005). ATV pre-treatment inhibited platelet aggregation and clot retraction. Binding of fibrinogen and P-selectin exposure on stimulated platelets was significantly lower following pre-treatment with ATV (P < .05). Confocal microscopy revealed that ATV significantly altered the structure of platelet-rich plasma clots, consistent with the reduced fibrinogen binding. ATV enhanced lysis of Chandler model thrombi 1.4-fold versus control (P < .05). Western blotting revealed that ATV induced a dose-dependent accumulation of unprenylated Rab27b and Rap1a in the platelet membrane. ATV dose-dependently inhibited ADP release from activated platelets. Exogenous GGPP rescued the prenylation of Rab27b and Rap1a, and partially restored the ADP release defect, suggesting these changes arise from reduced prenylation of Rab27b. These data demonstrate that statins attenuate platelet aggregation, degranulation, and binding of fibrinogen thereby having a significant impact on clot contraction and structure. [ABSTRACT FROM AUTHOR]

Published

2023

39. Association between endometriosis, infertility and autoimmune antiplatelet glycoprotein VI antibodies in two patients.

Author

Loyau, Stéphane, Bauters, Anne, Trillot, Nathalie, Garcia, Cédric, Cougoul, Pierre, Pol, Hélène, Paris, Camille, Robin, Geoffroy, Rubod, Chrystèle, Payrastre, Bernard, Jandrot-Perrus, Martine, Voisin, Sophie, and Dupont, Annabelle

Subjects

*ENDOMETRIOSIS, *BLOOD platelet aggregation, *SJOGREN'S syndrome, *PLATELET count, *IMMUNOGLOBULINS, *INFERTILITY, *PELVIC pain

Abstract

The association between endometriosis and autoimmune diseases is well known, however no acquired platelet function defect has been described so far. We describe the case of two patients with endometriosis associated with an antiplatelet glycoprotein VI (anti-GPVI) antibody. The two women with deep pelvic endometriosis associated with secondary infertility presented a mild bleeding tendency, a deficient platelet aggregation response to collagen, convulxin or CRP and a severe GPVI deficiency. Immunoblot revealed a combined FcRy deficiency but no indication of GPVI cleavage. In the first case, platelet count was normal and an anti-GPVI IgG was detected in plasma. A first corticosteroids administration normalized in vitro platelet functions but further administrations were unsuccessful. Three IVF attempts failed. Conservative laparoscopic surgery was carried out after antifibrinolytic treatment without bleeding. The second case presented with a history of moderate thrombocytopenia and a weak anti-GPVI in the context of infertility and autoimmune disease, the Sjögren syndrome resolved after corticosteroids and hydroxychloroquine treatment. Acquired GPVI deficiencies are rare. It would be useful to determine whether the association with endometriosis is coincidental or not by more systematic investigations. It does not seem that in these patients, GPVI deficiency is associated with an increased risk of bleeding. [ABSTRACT FROM AUTHOR]

Published

2023

40. Multiple myeloma and its treatment contribute to increased platelet reactivity

Author

Joanne L. Mitchell, Dalia Khan, Rekha H. Rana, Neline Kriek, Amanda J. Unsworth, Tanya Sage, Alexander P. Bye, Michael Laffan, Susan Shapiro, Anjan Thakurta, Henri Grech, Karthik Ramasamy, and Jonathan M. Gibbins

Subjects

haemostasis, imid, lenalidomide, multiple myeloma, platelets, thrombosis, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Multiple myeloma (MM) and its precursor states, smoldering myeloma (SM) and monoclonal gammopathy of undetermined significance (MGUS) are associated with increased incidence of thrombosis, however the cause of this is unknown. Lenalidomide treatment of MM substantially improves patient survival, although significantly increases thrombotic risk by an unknown mechanism. This pilot study aimed to establish the impact of MM and its treatment with Lenalidomide on platelet function. We analyzed platelet function in MGUS, SM and MM compared to healthy controls. We report an increase in platelet reactivity in MGUS, SM, and MM where increases in fibrinogen binding, P-selectin exposure, altered receptor expression, elevated levels of aggregation and enhanced sensitivity to agonist stimulation were observed. We also demonstrate an increase in patient platelet reactivity post Lenalidomide treatment compared to pre-treatment. We show Lenalidomide treatment of platelets ex vivo increased reactivity that was associated with formation of larger thrombi at arterial shear rates but not venous shear rates. This study demonstrates a clear increase in platelet reactivity and prothrombotic potential in patients with MGUS, SM and MM which is elevated further upon treatment with Lenalidomide. Our observations suggest that more detailed studies are warranted to determine mechanisms of thrombotic complications to enable the development of new preventative strategies that specifically target platelets.

Published

2023

41. Tissue inhibitors of metalloproteinases (TIMPs) modulate platelet ADAM10 activity

Author

Christine Shu Mei Lee, Amandeep Kaur, Samantha J. Montague, Sarah M. Hicks, Robert K. Andrews, and Elizabeth E. Gardiner

Subjects

Adhesion, metalloproteinases, platelets, receptors, Timps, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractPlatelet-specific collagen receptor glycoprotein (GP)VI is stable on the surface of circulating platelets but undergoes ectodomain cleavage on activated platelets. Activation-dependent GPVI metalloproteolysis is primarily mediated by A Disintegrin And Metalloproteinase (ADAM) 10. Regulation of platelet ADAMs activity is not well-defined however Tissue Inhibitors of Metalloproteinases (TIMPs) may play a role. As levels of TIMPs on platelets and the control of ADAMs-mediated shedding by TIMPs has not been evaluated, we quantified the levels of TIMPs on the surface of resting and activated platelets from healthy donors by flow cytometry and multiplex ELISA. Variable levels of all TIMPs could be detected on platelets. Plasma contained significant quantities of TIMP1 and TIMP2, but only trace amounts of TIMP3 and TIMP4. Recombinant TIMP3 strongly ablated resting and activated platelet ADAM10 activity, when monitored using a quenched fluorogenic peptide substrate with ADAM10 specificity. Whilst ADAM10-specific inhibitor GI254023X or ethylenediamine tetraacetic acid (EDTA) could modulate ligand-initiated shedding of GPVI, only recombinant TIMP2 achieved a modest (~20%) inhibition. We conclude that some platelet TIMPs are able to modulate platelet ADAM10 activity but none strongly regulate ligand-dependent shedding of GPVI. Our findings provide new insights into the regulation of platelet receptor sheddase activity.

Published

2023

42. Cryopreservation affects platelet macromolecular composition over time after thawing and differently impacts on cancer cells behavior in vitro

Author

Gaia Gavioli, Agnese Razzoli, Diana E. Bedolla, Erminia Di Bartolomeo, Eleonora Quartieri, Barbara Iotti, Pamela Berni, Giovanni Birarda, Lisa Vaccari, Davide Schiroli, Chiara Marraccini, Roberto Baricchi, and Lucia Merolle

Subjects

Cancer cells, cryopreservation, FTIR spectroscopy, platelets, ROTEM, transfusions, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractCryopreservation affects platelets’ function, questioning their use for cancer patients. We aimed to investigate the biochemical events that occur over time after thawing to optimize transfusion timing and evaluate the effect of platelet supernatants on tumor cell behavior in vitro. We compared fresh (Fresh-PLT) with Cryopreserved platelets (Cryo-PLT) at 1 h, 3 h and 6 h after thawing. MCF-7 and HL-60 cells were cultured with Fresh- or 1 h Cryo-PLT supernatants to investigate cell proliferation, migration, and PLT-cell adhesion. We noticed a significant impairment of hemostatic activity accompanied by a post-thaw decrease of CD42b+ , which identifies the CD62P−-population. FTIR spectroscopy revealed a decrease in the total protein content together with changes in their conformational structure, which identified two sub-groups: 1) Fresh and 1 h Cryo-PLT; 2) 3 h and 6 h cryo-PLT. Extracellular vesicle shedding and phosphatidylserine externalization (PS) increased after thawing. Cryo-PLT supernatants inhibited cell proliferation, impaired MCF-7 cell migration, and reduced ability to adhere to tumor cells. Within the first 3 hours after thawing, irreversible alterations of biomolecular structure occur in Cryo-PLT. Nevertheless, Cryo-PLT should be considered safe for the transfusion of cancer patients because of their insufficient capability to promote cancer cell proliferation, adhesion, or migration.

Published

2023

43. Deep learning, 3D ultrastructural analysis reveals quantitative differences in platelet and organelle packing in COVID-19/SARSCoV2 patient-derived platelets

Author

Sagar S. Matharu, Cassidy S. Nordmann, Kurtis R. Ottman, Rahul Akkem, Douglas Palumbo, Denzel R. D. Cruz, Kenneth Campbell, Gail Sievert, Jamie Sturgill, James Z. Porterfield, Smita Joshi, Hammodah R. Alfar, Chi Peng, Irina D. Pokrovskaya, Jeffrey A. Kamykowski, Jeremy P. Wood, Beth Garvy, Maria A. Aronova, Sidney W. Whiteheart, Richard D. Leapman, and Brian Storrie

Subjects

3D electron microscopy, alpha-granules, COVID-19, deep learning, image analysis, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractPlatelets contribute to COVID-19 clinical manifestations, of which microclotting in the pulmonary vasculature has been a prominent symptom. To investigate the potential diagnostic contributions of overall platelet morphology and their α-granules and mitochondria to the understanding of platelet hyperactivation and micro-clotting, we undertook a 3D ultrastructural approach. Because differences might be small, we used the high-contrast, high-resolution technique of focused ion beam scanning EM (FIB-SEM) and employed deep learning computational methods to evaluate nearly 600 individual platelets and 30 000 included organelles within three healthy controls and three severely ill COVID-19 patients. Statistical analysis reveals that the α-granule/mitochondrion-to-plateletvolume ratio is significantly greater in COVID-19 patient platelets indicating a denser packing of organelles, and a more compact platelet. The COVID-19 patient platelets were significantly smaller –by 35% in volume – with most of the difference in organelle packing density being due to decreased platelet size. There was little to no 3D ultrastructural evidence for differential activation of the platelets from COVID-19 patients. Though limited by sample size, our studies suggest that factors outside of the platelets themselves are likely responsible for COVID-19 complications. Our studies show how deep learning 3D methodology can become the gold standard for 3D ultrastructural studies of platelets.

Published

2023

44. α-Synuclein is the major platelet isoform but is dispensable for activation, secretion, and thrombosis

Author

Alexis N. Smith, Smita Joshi, Harry Chanzu, Hammodah R. Alfar, Kanakanagavalli Shravani Prakhya, and Sidney W. Whiteheart

Subjects

Exocytosis, hemostasis, platelets, VAMP, α-synuclein, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

AbstractPlatelets play many roles in the vasculature ensuring proper hemostasis and maintaining integrity. These roles are facilitated, in part, by cargo molecules released from platelet granules via Soluble NSF Attachment Protein Receptor (SNARE) mediated membrane fusion, which is controlled by several protein-protein interactions. Chaperones have been characterized for t-SNAREs (i.e. Munc18b for Syntaxin-11), but none have been clearly identified for v-SNAREs. α-Synuclein has been proposed as a v-SNARE chaperone which may affect SNARE-complex assembly, fusion pore opening, and thus secretion. Despite its abundance and that it is the only isoform present, α-synuclein’s role in platelet secretion is uncharacterized. In this study, immunofluorescence showed that α-synuclein was present on punctate structures that co-stained with markers for α-granules and lysosomes and in a cytoplasmic pool. We analyzed the phenotype of α-synuclein−/− mice and their platelets. Platelets from knockout mice had a mild, agonist-dependent secretion defect but aggregation and spreading in vitro were unaffected. Consistently, thrombosis/hemostasis were unaffected in the tail-bleeding, FeCl3 carotid injury and jugular vein puncture models. None of the platelet secretory machinery examined, e.g. the v-SNAREs, were affected by α-synuclein’s loss. The results indicate that, despite its abundance, α-synuclein has only a limited role in platelet function and thrombosis.

Published

2023

45. Whole blood platelet aggregation measurement by Multiplate™: potential diagnostic inaccuracy of correcting the results for the sample platelet count

Author

Mariangela Scavone, Gian Marco Podda, Armando Tripodi, and Marco Cattaneo

Subjects

aggregation, cirrhosis, impedance aggregometry, mean platelet volume, platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Published

2023

46. Immature platelets in COVID-19

Author

Monika Wolny, Marcus Dittrich, Cornelius Knabbe, and Ingvild Birschmann

Subjects

covid-19, ecmo, immature platelet fraction, platelets, reticulated platelets, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Platelets play a critical role in immune response. Coronavirus disease 2019 (COVID-19) patients with a severe course often show pathological coagulation parameters including thrombocytopenia, and at the same time the proportion of immature platelets increases. In this study, the platelet count and the immature platelet fraction (IPF) of hospitalized patients with different oxygenation requirements was investigated daily over a course of 40 days. In addition, the platelet function of COVID-19 patients was analyzed. It was found that the number of platelets in patients with the most severe course (intubation and extracorporeal membrane oxygenation (ECMO)) was significantly lower (111.5 ∙ 106 /mL) than in the other groups (mild (no intubation, no ECMO): 203.5 ∙ 106 /mL, p

Published

2023

47. Thrombus remodelling by reversible and irreversible P2Y12 inhibitors

Author

Kjersti Tunströmer, Lars Faxälv, Pia Larsson, Tomas L. Lindahl, and Niklas Boknäs

Subjects

flow chamber, image analysis, p2y12, platelets, prasugrel, thrombus, ticagrelor, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Pharmacological inhibition of the platelet ADP-receptor P2Y12 is a cornerstone in the prevention of atherothrombotic events in adult patients with acute coronary syndrome (ACS). Thienopyridines such as clopidogrel and prasugrel exert their antithrombotic effect by means of active metabolites that irreversibly inhibit P2Y12. Due to the short half-life of these metabolites, a subpopulation of ADP-responsive platelets will form in between dosing. With increased platelet turnover rate or poor patient compliance, the fraction of ADP-responsive platelets will increase, potentially increasing the risk for new thrombotic events. In contrast, the reversible P2Y12 inhibition produced by direct-acting ADP blockers such as ticagrelor and cangrelor inhibit the entire platelet population. In this study, we evaluated the impact of these pharmacological differences on thrombus formation in an ex vivo flow chamber model. A customized image analysis pipeline was used for automatized, large-scale identification and tracking of single platelets incorporated into the thrombus, enabling quantitative analysis of the relative contribution of inhibited and uninhibited platelets to thrombus growth and consolidation. Comparative experiments were conducted using the irreversible and reversible P2Y12 inhibitors prasugrel active metabolite (PAM) and ticagrelor, respectively. Our results show that PAM inhibited thrombus platelet recruitment more gradually than ticagrelor, with a slower onset of inhibition. Further, we show that the presence of a small fraction (

Published

2023

48. The phenotype of cryopreserved platelets influences the formation of platelet-leukocyte aggregates in an in vitro model

Author

Ben Winskel-Wood, Matthew P. Padula, Denese C. Marks, and Lacey Johnson

Subjects

cryopreservation, immunology, leukocytes, platelets, thp-1, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Cryopreservation significantly alters the phenotype of platelets; generating distinct subpopulations, which may influence the formation of platelet leukocyte aggregates (PLA). PLAs are immunomodulatory and have been associated with transfusion-associated adverse events. As such, the aim of this study was to examine the effect of cryopreservation on the ability of platelets to form PLAs, using a monocyte-like cell line (THP-1). Platelets were tested pre-freeze, post-thaw and following stimulation with TRAP-6 or A23187, both alone and following co-culture with THP-1 cells for 1 and 24 hours (n = 6). Platelet subpopulations and platelet-THP-1 cell aggregates were analyzed using multi-color imaging flow cytometry using Apotracker Green (ApoT), CD42b, CD62P, CD61, and CD45. Cryopreservation resulted in the generation of activated (ApoT-/CD42b+/CD62P+), procoagulant (ApoT+/CD42b+/CD62P+) and a novel (ApoT+/CD42b+/CD62P-) platelet subpopulation. Co-incubation of cryopreserved platelets with THP-1 cells increased PLA formation compared to pre-freeze but not TRAP-6 or A23187 stimulated platelets. P-selectin on the surface membrane was correlated with increased PLA formation. Our findings demonstrate that cryopreservation increases the interaction between platelets and THP-1 cells, largely due to an increase in procoagulant platelets. Further investigation is required to determine the immunological consequences of this interaction.

Published

2023

49. What can the plasma proteome tell us about platelets (and vice versa)?

Author

Steven Bruzek, Marisol Betensky, Jorge Di Paola, Thomas Diacovo, Neil Goldenberg, and Vera Ignjatovic

Subjects

omics, plasma, platelets, proteome, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Multi-omics approaches are being used increasingly to study physiological and pathophysiologic processes. Proteomics specifically focuses on the study of proteins as functional elements and key contributors to, and markers of the phenotype, as well as targets for diagnostic and therapeutic approaches. Depending on the condition, the plasma proteome can mirror the platelet proteome, and hence play an important role in elucidating both physiologic and pathologic processes. In fact, both plasma and platelet protein signatures have been shown to be important in the setting of thrombosis-prone disease states such as atherosclerosis and cancer. Plasma and platelet proteomes are increasingly being studied as a part of a single entity, as is the case with patient-centric sample collection approaches such as capillary blood. Future studies should cut across the plasma and platelet proteome silos, taking advantage of the vast knowledge available when they are considered as part of the same studies, rather than studied as distinct entities.

Published

2023

50. How can we use proteomics to learn more about platelets?

Author

Joseph E. Aslan

Subjects

mass spectrometry, platelets, preanalytical variables, proteomics, systems biology, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Proteomics tools provide a powerful means to identify, detect, and quantify protein-related details in studies of platelet phenotype and function. Here, we consider how historical and recent advances in proteomics approaches have informed our understanding of platelet biology, and, how proteomics tools can be used going forward to advance studies of platelets. It is now apparent that the platelet proteome is comprised of thousands of different proteins, where specific changes in platelet protein systems can accompany alterations in platelet function in health and disease. Going forward, many challenges remain in how to best carry out, validate and interpret platelet proteomics experiments. Future studies of platelet protein post-translational modifications such as glycosylation, or studies that take advantage of single cell proteomics and top-down proteomics methods all represent areas of interest to profiling and more richly understanding platelets in human wellness and disease.

Published

2023