Your search keyword '"Johan W M, Heemskerk"' showing total 360 results

1. Ultra-high throughput-based screening for the discovery of antiplatelet drugs affecting receptor dependent calcium signaling dynamics

Author

Delia I. Fernández, Sara Troitiño, Vladimír Sobota, Bibian M. E. Tullemans, Jinmi Zou, Helma van den Hurk, Ángel García, Saman Honarnejad, Marijke J. E. Kuijpers, and Johan W. M. Heemskerk

Subjects

Collagen, Cytosolic calcium, Glycoprotein VI, Prestwick library, Thrombin, Thrombosis, Medicine, Science

Abstract

Abstract Distinct platelet activation patterns are elicited by the tyrosine kinase-linked collagen receptor glycoprotein VI (GPVI) and the G-protein coupled protease-activated receptors (PAR1/4) for thrombin. This is reflected in the different platelet Ca2+ responses induced by the GPVI agonist collagen-related peptide (CRP) and the PAR1/4 agonist thrombin. Using a 96 well-plate assay with human Calcium-6-loaded platelets and a panel of 22 pharmacological inhibitors, we assessed the cytosolic Ca2+ signaling domains of these receptors and developed an automated Ca2+ curve algorithm. The algorithm was used to evaluate an ultra-high throughput (UHT) based screening of 16,635 chemically diverse small molecules with orally active physicochemical properties for effects on platelets stimulated with CRP or thrombin. Stringent agonist-specific selection criteria resulted in the identification of 151 drug-like molecules, of which three hit compounds were further characterized. The dibenzyl formamide derivative ANO61 selectively modulated thrombin-induced Ca2+ responses, whereas the aromatic sulfonyl imidazole AF299 and the phenothiazine ethopropazine affected CRP-induced responses. Platelet functional assays confirmed selectivity of these hits. Ethopropazine retained its inhibitory potential in the presence of plasma, and suppressed collagen-dependent thrombus buildup at arterial shear rate. In conclusion, targeting of platelet Ca2+ signaling dynamics in a screening campaign has the potential of identifying novel platelet-inhibiting molecules.

Published

2024

2. CCL18 aggravates atherosclerosis by inducing CCR6-dependent T-cell influx and polarization

Author

Anjana Singh, Adriaan O. Kraaijeveld, Adelina Curaj, Kanin Wichapong, Linda Hammerich, Saskia C. A. de Jager, Ilze Bot, Sergei P. Atamas, Theo J. C. van Berkel, J. Wouter Jukema, Iain Comerford, Shaun R. McColl, Barend Mees, Johan W. M. Heemskerk, Gerry A. F. Nicolaes, Tilman Hackeng, Elisa Anamaria Liehn, Frank Tacke, and Erik A. L. Biessen

Subjects

chemokines, inflammation, Th17, plaque, cardiovascular, chemotaxis, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionThe CC chemokine ligand 18 (CCL18) is a chemokine highly expressed in chronic inflammation in humans. Recent observations of elevated CCL18 plasma levels in patients with acute cardiovascular syndromes prompted an investigation into the role of CCL18 in the pathogenesis of human and mouse atherosclerosis.Methods and resultsCCL18 was profoundly upregulated in ruptured human atherosclerotic plaque, particularly within macrophages. Repeated administration of CCL18 in Western-type diet–fed ApoE−/− mice or PCSK9mut-overexpressing wild type (WT) mice led to increased plaque burden, enriched in CD3+ T cells. In subsequent experimental and molecular modeling studies, we identified CCR6 as a functional receptor mediating CCL18 chemotaxis, intracellular Ca2+ flux, and downstream signaling in human Jurkat and mouse T cells. CCL18 failed to induce these effects in vitro in murine spleen T cells with CCR6 deficiency. The ability of CCR6 to act as CCL18 receptor was confirmed in vivo in an inflammation model, where subcutaneous CCL18 injection induced profound focal skin inflammation in WT but not in CCR6−/− mice. This inflammation featured edema and marked infiltration of various leukocyte subsets, including T cells with a Th17 signature, supporting CCR6’s role as a Th17 chemotactic receptor. Notably, focal overexpression of CCL18 in plaques was associated with an increased presence of CCR6+ (T) cells.DiscussionOur studies are the first to identify the CCL18/CCR6 axis as a regulator of immune responses in advanced murine and human atherosclerosis.

Published

2024

3. An agent-based approach for modelling and simulation of glycoprotein VI receptor diffusion, localisation and dimerisation in platelet lipid rafts

Author

Chukiat Tantiwong, Joanne L. Dunster, Rachel Cavill, Michael G. Tomlinson, Christoph Wierling, Johan W. M. Heemskerk, and Jonathan M. Gibbins

Subjects

Medicine, Science

Abstract

Abstract Receptor diffusion plays an essential role in cellular signalling via the plasma membrane microenvironment and receptor interactions, but the regulation is not well understood. To aid in understanding of the key determinants of receptor diffusion and signalling, we developed agent-based models (ABMs) to explore the extent of dimerisation of the platelet- and megakaryocyte-specific receptor for collagen glycoprotein VI (GPVI). This approach assessed the importance of glycolipid enriched raft-like domains within the plasma membrane that lower receptor diffusivity. Our model simulations demonstrated that GPVI dimers preferentially concentrate in confined domains and, if diffusivity within domains is decreased relative to outside of domains, dimerisation rates are increased. While an increased amount of confined domains resulted in further dimerisation, merging of domains, which may occur upon membrane rearrangements, was without effect. Modelling of the proportion of the cell membrane which constitutes lipid rafts indicated that dimerisation levels could not be explained by these alone. Crowding of receptors by other membrane proteins was also an important determinant of GPVI dimerisation. Together, these results demonstrate the value of ABM approaches in exploring the interactions on a cell surface, guiding the experimentation for new therapeutic avenues.

Published

2023

4. Quantitative and qualitative changes in platelet traits of sunitinib-treated patients with renal cell carcinoma in relation to circulating sunitinib levels: a proof-of-concept study

Author

Bibian M. E. Tullemans, Sanne L. N. Brouns, Frauke Swieringa, Siamack Sabrkhany, Franchette W. P. J. van den Berkmortel, Natascha A. J. B. Peters, Peter de Bruijn, Stijn L. W. Koolen, Johan W. M. Heemskerk, Maureen J. B. Aarts, and Marijke J. E. Kuijpers

Subjects

Platelet count, Platelet aggregation, Sunitinib, Tyrosine kinase inhibitor, Renal cell carcinoma, cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Tyrosine kinase inhibitors (TKIs), such as sunitinib, are used for cancer treatment, but may also affect platelet count and function with possible hemostatic consequences. Here, we investigated whether patient treatment with the TKI sunitinib affected quantitative and qualitative platelet traits as a function of the sunitinib level and the occurrence of bleeding. Methods Blood was collected from 20 metastatic renal cell carcinoma (mRCC) patients before treatment, and at 2 weeks, 4 weeks and 3 months after sunitinib administration. We measured blood cell counts, platelet aggregation, and concentrations of sunitinib as well as its N-desethyl metabolite in plasma, serum and isolated platelets. Progression of disease (PD) and bleeding were monitored after 3 months. Results In sunitinib-treated mRCC patients, concentrations of (N-desethyl-)sunitinib in plasma and serum were highly correlated. In the patients’ platelets the active metabolite levels were relatively increased as compared to sunitinib. On average, a sustained reduction in platelet count was observed on-treatment, which was significantly related to the inhibitor levels in plasma/serum. Principal component and correlational analysis showed that the (N-desethyl-)sunitinib levels in plasma/serum were linked to a reduction in both platelet count and collagen-induced platelet aggregation. The reduced aggregation associated in part with reported bleeding, but did not correlate to PD. Conclusion The sunitinib-induced reduction in quantitative and qualitative platelet traits may reflect the effective sunitinib levels in the patient. These novel results may serve as a proof-of-principle for other TKI-related drugs, where both platelet count and functions are affected, which could be used for therapeutic drug monitoring.

Published

2022

5. Platelet calcium signaling by G-protein coupled and ITAM-linked receptors regulating anoctamin-6 and procoagulant activity

Author

Delia I. Fernández, Marijke J. E. Kuijpers, and Johan W. M. Heemskerk

Subjects

calcium channels, glycoprotein vi, gpcr, thrombin, tmem16f, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Most agonists stimulate platelet Ca2+ rises via G-protein coupled receptors (GPCRs) or ITAM-linked receptors (ILRs). Well studied are the GPCRs stimulated by the soluble agonists thrombin (PAR1, PAR4), ADP (P2Y1, P2Y12), and thromboxane A2 (TP), signaling via phospholipase (PLC)β isoforms. The platelet ILRs glycoprotein VI (GPVI), C-type lectin-like receptor 2 (CLEC2), and FcγRIIa are stimulated by adhesive ligands or antibody complexes and signal via tyrosine protein kinases and PLCγ isoforms. Marked differences exist between the GPCR- and ILR-induced Ca2+ signaling in: (i) dependency of tyrosine phosphorylation; (ii) oscillatory versus continued Ca2+ rises by mobilization from the endoplasmic reticulum; and (iii) smaller or larger role of extracellular Ca2+ entry via STIM1/ORAI1. Co-stimulation of both types of receptors, especially by thrombin (PAR1/4) and collagen (GPVI), leads to a highly enforced Ca2+ rise, involving mitochondrial Ca2+ release, which activates the ion and phospholipid channel, anoctamin-6. This highly Ca2+-dependent process causes swelling, ballooning, and phosphatidylserine expression, establishing a unique platelet population swinging between vital and necrotic (procoagulant ‘zombie’ platelets). Additionally, the high Ca2+ status of procoagulant platelets induces a set of additional events: (i) Ca2+ dependent cleavage of signaling proteins and receptors via calpain and ADAM isoforms; (ii) microvesiculation; (iii) enhanced coagulation factor binding; and (iv) fibrin-coat formation involving transglutaminases. Given the additive roles of GPCR and ILR in Ca2+ signal generation, high-throughput screening of biomolecules or small molecules based on Ca2+ flux measurements provides a promising way to find new inhibitors interfering with prolonged high Ca2+, phosphatidylserine expression, and hence platelet procoagulant activity.

Published

2021

6. Regulation of Glycoprotein VI-Dependent Platelet Activation and Thrombus Formation by Heparan Sulfate Proteoglycan Perlecan

Author

Isabella Provenzale, Ilaria De Simone, Jonathan M. Gibbins, Johan W. M. Heemskerk, Paola E. J. van der Meijden, and Chris I. Jones

Subjects

collagen-related peptide, endorepellin, glycoprotein VI, perlecan, platelet spreading, proteoglycan, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Proteoglycans form a heterogeneous family of proteins with covalently bound sulfated glycosaminoglycans. The extracellular matrix proteoglycan perlecan has been proposed to bind to the platelet- and megakaryocyte-specific receptor G6bB, co-regulating platelet glycoprotein VI (GPVI) signaling. The derived non-sulfate proteoglycan endorepellin was previously shown to enhance platelet adhesion via the collagen receptor, integrin α2β1. Here, we compared the roles of perlecan and other matrix proteoglycans in platelet responses and thrombus formation. We used multi-color flow cytometry to measure the degranulation and integrin αIIbβ3 activation of washed platelets in response to various proteoglycans and collagen-related peptide (CRP), the GPVI agonist. Perlecan, but not endorepellin, enhanced the CRP-induced activation of platelets in a time- and concentration-dependent manner. Similar to collagen, immobilized perlecan, but not other proteoglycans, supported static platelet adhesion and spreading. In-flowed whole-blood perlecan diminished shear-dependent platelet adhesion, while it enforced GPVI-dependent thrombus formation—to a larger extent than endorepellin—to induce more contracted aggregates of activated platelets. We concluded that the sulfated proteoglycan perlecan enhances GPVI-dependent platelet responses extending to thrombus formation, but it does so at the expense of reduced adhesion of platelets under flow.

Published

2023

7. Cell-specific and divergent roles of the CD40L-CD40 axis in atherosclerotic vascular disease

Author

Michael Lacy, Christina Bürger, Annelie Shami, Maiwand Ahmadsei, Holger Winkels, Katrin Nitz, Claudia M. van Tiel, Tom T. P. Seijkens, Pascal J. H. Kusters, Ela Karshovka, Koen H. M. Prange, Yuting Wu, Sanne L. N. Brouns, Sigrid Unterlugauer, Marijke J. E. Kuijpers, Myrthe E. Reiche, Sabine Steffens, Andreas Edsfeldt, Remco T. A. Megens, Johan W. M. Heemskerk, Isabel Goncalves, Christian Weber, Norbert Gerdes, Dorothee Atzler, and Esther Lutgens

Subjects

Science

Abstract

Previous studies have shown that the CD40L-CD40 signaling axis plays a role in atherosclerosis. Here the authors investigate the cell-specific functions of the most relevant CD40L-expressing cell types in atherosclerosis. Deficiency of T cell-derived CD40L reduces and stabilizes plaques through impaired Th1 polarization while platelet-derived CD40L ameliorates atherothrombosis.

Published

2021

8. Assessment of a complete and classified platelet proteome from genome-wide transcripts of human platelets and megakaryocytes covering platelet functions

Author

Jingnan Huang, Frauke Swieringa, Fiorella A. Solari, Isabella Provenzale, Luigi Grassi, Ilaria De Simone, Constance C. F. M. J. Baaten, Rachel Cavill, Albert Sickmann, Mattia Frontini, and Johan W. M. Heemskerk

Subjects

Medicine, Science

Abstract

Abstract Novel platelet and megakaryocyte transcriptome analysis allows prediction of the full or theoretical proteome of a representative human platelet. Here, we integrated the established platelet proteomes from six cohorts of healthy subjects, encompassing 5.2 k proteins, with two novel genome-wide transcriptomes (57.8 k mRNAs). For 14.8 k protein-coding transcripts, we assigned the proteins to 21 UniProt-based classes, based on their preferential intracellular localization and presumed function. This classified transcriptome-proteome profile of platelets revealed: (i) Absence of 37.2 k genome-wide transcripts. (ii) High quantitative similarity of platelet and megakaryocyte transcriptomes (R = 0.75) for 14.8 k protein-coding genes, but not for 3.8 k RNA genes or 1.9 k pseudogenes (R = 0.43–0.54), suggesting redistribution of mRNAs upon platelet shedding from megakaryocytes. (iii) Copy numbers of 3.5 k proteins that were restricted in size by the corresponding transcript levels (iv) Near complete coverage of identified proteins in the relevant transcriptome (log2fpkm > 0.20) except for plasma-derived secretory proteins, pointing to adhesion and uptake of such proteins. (v) Underrepresentation in the identified proteome of nuclear-related, membrane and signaling proteins, as well proteins with low-level transcripts. We then constructed a prediction model, based on protein function, transcript level and (peri)nuclear localization, and calculated the achievable proteome at ~ 10 k proteins. Model validation identified 1.0 k additional proteins in the predicted classes. Network and database analysis revealed the presence of 2.4 k proteins with a possible role in thrombosis and hemostasis, and 138 proteins linked to platelet-related disorders. This genome-wide platelet transcriptome and (non)identified proteome database thus provides a scaffold for discovering the roles of unknown platelet proteins in health and disease.

Published

2021

9. Differential Regulation of GPVI-Induced Btk and Syk Activation by PKC, PKA and PP2A in Human Platelets

Author

Pengyu Zhang, Fiorella A. Solari, Johan W. M. Heemskerk, Marijke J. E. Kuijpers, Albert Sickmann, Ulrich Walter, and Kerstin Jurk

Subjects

thrombo-inflammation, platelets, protein kinases, Bruton’s tyrosine kinase, XLA, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Bruton’s tyrosine kinase (Btk) and spleen tyrosine kinase (Syk) are major signaling proteins in human platelets that are implicated in atherothrombosis and thrombo-inflammation, but the mechanisms controlling their activities are not well understood. Previously, we showed that Syk becomes phosphorylated at S297 in glycoprotein VI (GPVI)-stimulated human platelets, which limits Syk activation. Here, we tested the hypothesis that protein kinases C (PKC) and A (PKA) and protein phosphatase 2A (PP2A) jointly regulate GPVI-induced Btk activation in platelets. The GPVI agonist convulxin caused rapid, transient Btk phosphorylation at S180 (pS180↑), Y223 and Y551, while direct PKC activation strongly increased Btk pS180 and pY551. This increase in Btk pY551 was also Src family kinase (SFK)-dependent, but surprisingly Syk-independent, pointing to an alternative mechanism of Btk phosphorylation and activation. PKC inhibition abolished convulxin-stimulated Btk pS180 and Syk pS297, but markedly increased the tyrosine phosphorylation of Syk, Btk and effector phospholipase Cγ2 (PLCγ2). PKA activation increased convulxin-induced Btk activation at Y551 but strongly suppressed Btk pS180 and Syk pS297. PP2A inhibition by okadaic acid only increased Syk pS297. Both platelet aggregation and PLCγ2 phosphorylation with convulxin stimulation were Btk-dependent, as shown by the selective Btk inhibitor acalabrutinib. Together, these results revealed in GPVI-stimulated platelets a transient Syk, Btk and PLCγ2 phosphorylation at multiple sites, which are differentially regulated by PKC, PKA or PP2A. Our work thereby demonstrated the GPVI–Syk–Btk signalosome as a tightly controlled protein kinase network, in agreement with its role in atherothrombosis.

Published

2023

10. Inhibition of platelet adhesion, thrombus formation, and fibrin formation by a potent αIIbβ3 integrin inhibitor from ticks

Author

Danique L. van denKerkhof, Magdolna Nagy, Kanin Wichapong, Sanne L.N. Brouns, Johan W. M. Heemskerk, Tilman M. Hackeng, and Ingrid Dijkgraaf

Subjects

blood coagulation, synthetic chemistry techniques, platelet activation, platelet aggregation inhibitors, ticks, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Background Ticks puncture the skin of their hosts and secrete saliva, containing antiplatelet proteins, into the blood. Here, we studied disagregin, a potent platelet‐inhibiting protein derived from the salivary glands of Ornithodoros moubata, an African soft tick. Whereas conventional αIIbβ3 antagonists contain an Arg‐Gly‐Asp (RGD) sequence for platelet integrin binding, disagregin contains an Arg‐Glu‐Asp (RED) sequence, hypothesizing a different mode of inhibitory action. Objectives We aimed to compare the inhibitory effects of disagregin and its RGD variant (RGD‐disagregin) on platelet activation and to unravel the molecular basis of disagregin‐αIIbβ3 integrin interactions. Methods Disagregin and RGD‐disagregin were synthesized by tert‐butyloxycarbonyl –based solid‐phase peptide synthesis. Effects of both disagregins on platelet aggregation were assessed by light transmission aggregometry in human platelet‐rich plasma. Whole‐blood thrombus formation was investigated by perfusing blood over collagen I with and without tissue factor at a high wall‐shear rate (1000 s−1) in the presence of disagregin, RGD‐disagregin, or eptifibatide. Results Disagregin showed inhibition of collagen‐ and ADP‐induced platelet aggregation with half maximal inhibitory concentration values of 64 and 99 nM, respectively. This resembled the complete antiaggregatory effect of eptifibatide. Multiparameter assessment of thrombus formation showed highly suppressed platelet adhesion and aggregate formation with both disagregins, in contrast to eptifibatide treatment, which incompletely blocked aggregation under flow. Fibrin formation under flow was delayed by both disagregin and RGD‐disagregin (P

Published

2021

11. Mild hyperlipidemia in mice aggravates platelet responsiveness in thrombus formation and exploration of platelet proteome and lipidome

Author

Johanna P. van Geffen, Frauke Swieringa, Kim van Kuijk, Bibian M. E. Tullemans, Fiorella A. Solari, Bing Peng, Kenneth J. Clemetson, Richard W. Farndale, Ludwig J. Dubois, Albert Sickmann, René P. Zahedi, Robert Ahrends, Erik A. L. Biessen, Judith C. Sluimer, Johan W. M. Heemskerk, and Marijke J. E. Kuijpers

Subjects

Medicine, Science

Abstract

Abstract Hyperlipidemia is a well-established risk factor for cardiovascular diseases. Millions of people worldwide display mildly elevated levels of plasma lipids and cholesterol linked to diet and life-style. While the prothrombotic risk of severe hyperlipidemia has been established, the effects of moderate hyperlipidemia are less clear. Here, we studied platelet activation and arterial thrombus formation in Apoe −/− and Ldlr −/− mice fed a normal chow diet, resulting in mildly increased plasma cholesterol. In blood from both knockout mice, collagen-dependent thrombus and fibrin formation under flow were enhanced. These effects did not increase in severe hyperlipidemic blood from aged mice and upon feeding a high-fat diet (Apoe −/− mice). Bone marrow from wild-type or Ldlr −/− mice was transplanted into irradiated Ldlr −/− recipients. Markedly, thrombus formation was enhanced in blood from chimeric mice, suggesting that the hyperlipidemic environment altered the wild-type platelets, rather than the genetic modification. The platelet proteome revealed high similarity between the three genotypes, without clear indication for a common protein-based gain-of-function. The platelet lipidome revealed an altered lipid profile in mildly hyperlipidemic mice. In conclusion, in Apoe −/− and Ldlr −/− mice, modest elevation in plasma and platelet cholesterol increased platelet responsiveness in thrombus formation and ensuing fibrin formation, resulting in a prothrombotic phenotype.

Published

2020

12. Reversing direct factor Xa or thrombin inhibitors: Factor V addition to prothrombin complex concentrate is beneficial in vitro

Author

Herm Jan M. Brinkman, Frauke Swieringa, Marleen Zuurveld, Alicia Veninga, Sanne L. N. Brouns, Johan W. M. Heemskerk, and Joost C. M. Meijers

Subjects

anticoagulants, dabigatran, factor V, prothrombin complex concentrate, rivaroxaban, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Background Prothrombin complex concentrate (PCC) is a human plasma‐derived mixture of partially purified vitamin K‐dependent coagulation factors (VKCF). Current therapeutic indication is treatment and perioperative prophylaxis of bleeding in acquired VKCF deficiency. Off‐label uses include treatment of direct factor Xa‐ or thrombin inhibitor‐associated bleeds, treatment of trauma‐induced coagulopathy, and hemorrhagic complications in patients with liver disease. Objective Considering PCC as a general prohemostatic drug, we argued that its clinical efficacy can benefit from supplementation with coagulation factors that are absent in the current PCC formulation. In this study, we focused on factor V. Methods We mimicked a coagulopathy in vitro by spiking whole blood or derived plasma with the direct oral anticoagulants (DOAC) rivaroxaban or dabigatran. We studied DOAC reversal by PCC and factor V concentrate (FVC) using a thrombin generation assay, thromboelastography, fibrin generation clot lysis test, and microfluidic thrombus formation under flow. Results In DOAC‐treated plasma, PCC increased the amount of thrombin generated. The addition of FVC alone or in combination with PCC caused a partial correction of the thrombin generation lag time and clotting time. In DOAC‐treated whole blood, the combination of PCC and FVC synergistically improved clotting time under static conditions, whereas complete correction of fibrin formation was observed under flow. Clot strength and clot resistance toward tissue plasminogen activator‐induced lysis were both increased with PCC and further enhanced by additional FVC. Conclusion Our in vitro study demonstrates a beneficial effect of the combined use of PCC and FVC in DOAC reversal.

Published

2022

13. Protein C or Protein S deficiency associates with paradoxically impaired platelet‐dependent thrombus and fibrin formation under flow

Author

Sanne L. N. Brouns, Bibian M. E. Tullemans, Cristiana Bulato, Gina Perrella, Elena Campello, Luca Spiezia, Johanna P. vanGeffen, Marijke J. E. Kuijpers, René vanOerle, Henri M. H. Spronk, Paola E. J. van derMeijden, Paolo Simioni, and Johan W. M. Heemskerk

Subjects

anticoagulation, coagulation, fibrin, platelet, thrombin, thrombophilia, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Abstract Background Low plasma levels of protein C or protein S are associated with venous thromboembolism rather than myocardial infarction. The high coagulant activity in patients with thrombophilia with a (familial) defect in protein C or S is explained by defective protein C activation, involving thrombomodulin and protein S. This causes increased plasmatic thrombin generation. Objective Assess the role of platelets in the thrombus‐ and fibrin‐forming potential in patients with familial protein C or protein S deficiency under high‐shear flow conditions. Patients/Methods Whole blood from 23 patients and 15 control subjects was perfused over six glycoprotein VI–dependent microspot surfaces. By real‐time multicolor microscopic imaging, kinetics of platelet thrombus and fibrin formation were characterized in 49 parameters. Results and Conclusion Whole‐blood flow perfusion over collagen, collagen‐like peptide, and fibrin surfaces with low or high GPVI dependency indicated an unexpected impairment of platelet activation, thrombus phenotype, and fibrin formation but unchanged platelet adhesion, observed in patients with protein C deficiency and to a lesser extent protein S deficiency, when compared to controls. The defect extended from diminished phosphatidylserine exposure and thrombus contraction to delayed and suppressed fibrin formation. The mechanism was thrombomodulin independent, and may involve negative platelet priming by plasma components.

Published

2022

14. Reversible Platelet Integrin αIIbβ3 Activation and Thrombus Instability

Author

Jinmi Zou, Frauke Swieringa, Bas de Laat, Philip G. de Groot, Mark Roest, and Johan W. M. Heemskerk

Subjects

ADP, collagen, fibrinogen, integrin, platelets, thrombin, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Integrin αIIbβ3 activation is essential for platelet aggregation and, accordingly, for hemostasis and arterial thrombosis. The αIIbβ3 integrin is highly expressed on platelets and requires an activation step for binding to fibrinogen, fibrin or von Willebrand factor (VWF). A current model assumes that the process of integrin activation relies on actomyosin force-dependent molecular changes from a bent-closed and extended-closed to an extended-open conformation. In this paper we review the pathways that point to a functional reversibility of platelet αIIbβ3 activation and transient aggregation. Furthermore, we refer to mouse models indicating that genetic defects that lead to reversible platelet aggregation can also cause instable thrombus formation. We discuss the platelet agonists and signaling pathways that lead to a transient binding of ligands to integrin αIIbβ3. Our analysis points to the (autocrine) ADP P2Y1 and P2Y12 receptor signaling via phosphoinositide 3-kinases and Akt as principal pathways linked to reversible integrin activation. Downstream signaling events by protein kinase C, CalDAG-GEFI and Rap1b have not been linked to transient integrin activation. Insight into the functional reversibility of integrin activation pathways will help to better understand the effects of antiplatelet agents.

Published

2022

15. Coagulation Factor XIIIa and Activated Protein C Activate Platelets via GPVI and PAR1

Author

Ilaria De Simone, Constance C. F. M. J. Baaten, Martine Jandrot-Perrus, Jonathan M. Gibbins, Hugo ten Cate, Johan W. M. Heemskerk, Chris I. Jones, and Paola E. J. van der Meijden

Subjects

glycoprotein VI, protease-activated receptor 1, platelet activation, coagulation, coagulation factor XIIIa, activated protein C, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Platelet and coagulation activation are highly reciprocal processes driven by multi-molecular interactions. Activated platelets secrete several coagulation factors and expose phosphatidylserine, which supports the activation of coagulation factor proteins. On the other hand, the coagulation cascade generates known ligands for platelet receptors, such as thrombin and fibrin. Coagulation factor (F)Xa, (F)XIIIa and activated protein C (APC) can also bind to platelets, but the functional consequences are unclear. Here, we investigated the effects of the activated (anti)coagulation factors on platelets, other than thrombin. Multicolor flow cytometry and aggregation experiments revealed that the ‘supernatant of (hirudin-treated) coagulated plasma’ (SCP) enhanced CRP-XL-induced platelet responses, i.e., integrin αIIbβ3 activation, P-selectin exposure and aggregate formation. We demonstrated that FXIIIa in combination with APC enhanced platelet activation in solution, and separately immobilized FXIIIa and APC resulted in platelet spreading. Platelet activation by FXIIIa was inhibited by molecular blockade of glycoprotein VI (GPVI) or Syk kinase. In contrast, platelet spreading on immobilized APC was inhibited by PAR1 blockade. Immobilized, but not soluble, FXIIIa and APC also enhanced in vitro adhesion and aggregation under flow. In conclusion, in coagulation, factors other than thrombin or fibrin can induce platelet activation via GPVI and PAR receptors.

Published

2022

16. Targeting of a Conserved Epitope in Mouse and Human GPVI Differently Affects Receptor Function

Author

Stefano Navarro, Andreas Starke, Johan W. M. Heemskerk, Marijke J. E. Kuijpers, David Stegner, and Bernhard Nieswandt

Subjects

glycoprotein VI, JAQ1, platelet receptors, platelet activation, platelet inhibition, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Glycoprotein (GP) VI is the major platelet collagen receptor and a promising anti-thrombotic target. This was first demonstrated in mice using the rat monoclonal antibody JAQ1, which completely blocks the Collagen-Related Peptide (CRP)-binding site on mouse GPVI and efficiently inhibits mouse platelet adhesion, activation and aggregation on collagen. Here, we show for the first time that JAQ1 cross-reacts with human GPVI (huGPVI), but not with GPVI in other tested species, including rat, rabbit, guinea pig, swine, and dog. We further demonstrate that JAQ1 differently modulates mouse and human GPVI function. Similar to its effects on mouse GPVI (mGPVI), JAQ1 inhibits CRP-induced activation in human platelets, whereas, in stark contrast to mouse GPVI, it does not inhibit the adhesion, activation or aggregate formation of human platelets on collagen, but causes instead an increased response. This effect was also seen with platelets from newly generated human GPVI knockin mice (hGP6tg/tg). These results indicate that the binding of JAQ1 to a structurally conserved epitope in GPVI differently affects its function in human and mouse platelets.

Published

2022

17. Roles of Focal Adhesion Kinase PTK2 and Integrin αIIbβ3 Signaling in Collagen- and GPVI-Dependent Thrombus Formation under Shear

Author

Jingnan Huang, Natalie J. Jooss, Delia I. Fernández, Albert Sickmann, Ángel García, Kanin Wichapong, Ingrid Dijkgraaf, and Johan W. M. Heemskerk

Subjects

focal adhesion kinase, integrins, GPR56, platelets, thrombus formation, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Glycoprotein (GP)VI and integrin αIIbβ3 are key signaling receptors in collagen-dependent platelet aggregation and in arterial thrombus formation under shear. The multiple downstream signaling pathways are still poorly understood. Here, we focused on disclosing the integrin-dependent roles of focal adhesion kinase (protein tyrosine kinase 2, PTK2), the shear-dependent collagen receptor GPR56 (ADGRG1 gene), and calcium and integrin-binding protein 1 (CIB1). We designed and synthetized peptides that interfered with integrin αIIb binding (pCIB and pCIBm) or mimicked the activation of GPR56 (pGRP). The results show that the combination of pGRP with PTK2 inhibition or of pGRP with pCIB > pCIBm in additive ways suppressed collagen- and GPVI-dependent platelet activation, thrombus buildup, and contraction. Microscopic thrombus formation was assessed by eight parameters (with script descriptions enclosed). The suppressive rather than activating effects of pGRP were confined to blood flow at a high shear rate. Blockage of PTK2 or interference of CIB1 no more than slightly affected thrombus formation at a low shear rate. Peptides did not influence GPVI-induced aggregation and Ca2+ signaling in the absence of shear. Together, these data reveal a shear-dependent signaling axis of PTK2, integrin αIIbβ3, and CIB1 in collagen- and GPVI-dependent thrombus formation, which is modulated by GPR56 and exclusively at high shear. This work thereby supports the role of PTK2 in integrin αIIbβ3 activation and signaling.

Published

2022

18. Platelet glycoprotein V spatio-temporally controls fibrin formation

Author

Sarah Beck, Patricia Öftering, Renhao Li, Katherina Hemmen, Magdolna Nagy, Yingchun Wang, Alessandro Zarpellon, Michael K. Schuhmann, Guido Stoll, Zaverio M. Ruggeri, Katrin G. Heinze, Johan W. M. Heemskerk, Wolfram Ruf, David Stegner, and Bernhard Nieswandt

Subjects

Article

Abstract

The activation of platelets and coagulation at vascular injury sites is crucial for hemostasis but can promote thrombosis and inflammation in vascular pathologies. Here, we delineate an unexpected spatio-temporal control mechanism of thrombin activity that is platelet orchestrated and locally limits excessive fibrin formation after initial hemostatic platelet deposition. During platelet activation, the abundant platelet glycoprotein (GP)V is cleaved by thrombin. We demonstrate, with genetic and pharmacological approaches, that thrombin-mediated shedding of GPV does not primarily regulate platelet activation in thrombus formation but rather has a distinct function after platelet deposition and specifically limits thrombin-dependent generation of fibrin, a crucial mediator of vascular thrombo-inflammation. Genetic or pharmacologic defects in hemostatic platelet function are unexpectedly attenuated by specific blockade of GPV shedding, indicating that the spatio-temporal control of thrombin-dependent fibrin generation also represents a potential therapeutic target to improve hemostasis.

Published

2023

19. Platelet Membrane Receptor Proteolysis: Implications for Platelet Function

Author

Jiayu Wu, Johan W. M. Heemskerk, and Constance C. F. M. J. Baaten

Subjects

ADAM, calpain, caspase, coagulation factors, MMP, platelets, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

The activities of adhesion and signaling receptors in platelets are controlled by several mechanisms. An important way of regulation is provided by proteolytic cleavage of several of these receptors, leading to either a gain or a loss of platelet function. The proteases involved are of different origins and types: (i) present as precursor in plasma, (ii) secreted into the plasma by activated platelets or other blood cells, or (iii) intracellularly activated and cleaving cytosolic receptor domains. We provide a comprehensive overview of the proteases acting on the platelet membrane. We describe how these are activated, which are their target proteins, and how their proteolytic activity modulates platelet functions. The review focuses on coagulation-related proteases, plasmin, matrix metalloproteinases, ADAM(TS) isoforms, cathepsins, caspases, and calpains. We also describe how the proteolytic activities are determined by different platelet populations in a thrombus and conversely how proteolysis contributes to the formation of such populations.

Published

2021

20. Galectin-1 and platelet factor 4 (CXCL4) induce complementary platelet responses in vitro.

Author

Annemiek Dickhout, Bibian M E Tullemans, Johan W M Heemskerk, Victor L J L Thijssen, Marijke J E Kuijpers, and Rory R Koenen

Subjects

Medicine, Science

Abstract

Galectin-1 (gal-1) is a carbohydrate-binding lectin with important functions in angiogenesis, immune response, hemostasis and inflammation. Comparable functions are exerted by platelet factor 4 (CXCL4), a chemokine stored in the α-granules of platelets. Previously, gal-1 was found to activate platelets through integrin αIIbβ3. Both gal-1 and CXCL4 have high affinities for polysaccharides, and thus may mutually influence their functions. The aim of this study was to investigate a possible synergism of gal-1 and CXCL4 in platelet activation. Platelets were treated with increasing concentrations of gal-1, CXCL4 or both, and aggregation, integrin activation, P-selectin and phosphatidyl serine (PS) exposure were determined by light transmission aggregometry and by flow cytometry. To investigate the influence of cell surface sialic acid, platelets were treated with neuraminidase prior to stimulation. Gal-1 and CXCL4 were found to colocalize on the platelet surface. Stimulation with gal-1 led to integrin αIIbβ3 activation and to robust platelet aggregation, while CXCL4 weakly triggered aggregation and primarily induced P-selectin expression. Co-incubation of gal-1 and CXCL4 potentiated platelet aggregation compared with gal-1 alone. Whereas neither gal-1 and CXCL4 induced PS-exposure on platelets, prior removal of surface sialic acid strongly potentiated PS exposure. In addition, neuraminidase treatment increased the binding of gal-1 to platelets and lowered the activation threshold for gal-1. However, CXCL4 did not affect binding of gal-1 to platelets. Taken together, stimulation of platelets with gal-1 and CXCL4 led to distinct and complementary activation profiles, with additive rather than synergistic effects.

Published

2021

21. Long-term platelet priming after glycoprotein VI stimulation in comparison to Protease-Activating Receptor (PAR) stimulation.

Author

Jinmi Zou, Jiayu Wu, Mark Roest, and Johan W M Heemskerk

Subjects

Medicine, Science

Abstract

Platelets can respond to multiple antagonists and agonists, implying that their activation state is a consequence of past exposure to these substances. While platelets are often considered as one-time responsive cells, they likely can respond to sequential application of inhibitors and stimuli. We hypothesized that the ability of platelets to sequentially respond depends on the time and type of repeated agonist application. The present proof-of-concept data show that iloprost (cAMP elevation), tirofiban (integrin αIIbβ3 blocker) and Syk kinase inhibition subacutely modulated platelet aggregation, i.e. halted this process even when applied after agonist. In comparison to thrombin-activated receptor (PAR) stimulation, glycoprotein VI (GPVI) stimulation was less sensitive to time-dependent blockage of aggregation, with Syk inhibition as an exception. Furthermore, cytosolic Ca2+ measurements indicated that, when compared to PAR, prior GPVI stimulation induced a more persistent, priming activation state of platelets that influenced the response to a next agent. Overall, these data point to an unexpected priming memory of activated platelets in subacutely responding to another inhibitor or stimulus, with a higher versatility and faster offset after PAR stimulation than after GPVI stimulation.

Published

2021

22. Molecular Mechanisms of Hemostasis, Thrombosis and Thrombo-Inflammation

Author

Marijke J. E. Kuijpers, Johan W. M. Heemskerk, and Kerstin Jurk

Subjects

n/a, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In the present decade, we are seeing a rapid increase in available genetics and multiomics information on blood and vascular components of the human and mammalian circulation, involved in haemostasis, athero- and venous thrombosis, and thrombo-inflammation [...]

Published

2022

23. MicroRNA-26b Attenuates Platelet Adhesion and Aggregation in Mice

Author

Linsey J. F. Peters, Constance C. F. M. J. Baaten, Sanne L. Maas, Chang Lu, Magdolna Nagy, Natalie J. Jooss, Kiril Bidzhekov, Donato Santovito, Daniel Moreno-Andrés, Joachim Jankowski, Erik A. L. Biessen, Yvonne Döring, Johan W. M. Heemskerk, Christian Weber, Marijke J. E. Kuijpers, and Emiel P. C. van der Vorst

Subjects

thrombosis, platelets, microRNAs, microRNA-26b, cardiovascular diseases, Biology (General), QH301-705.5

Abstract

Platelets are key regulators of haemostasis, making platelet dysfunction a major driver of thrombosis. Numerous processes that determine platelet function are influenced by microRNAs (miRs). MiR-26b is one of the highest-expressed miRs in healthy platelets, and its expression in platelets is changed in a diseased state. However, the exact effect of this miR on platelet function has not been studied yet. In this study, we made use of a whole-body knockout of miR-26b in ApoE-deficient mice in order to determine its impact on platelet function, thrombus formation and platelet signalling both ex vivo and in vivo. We show that a whole-body deficiency of miR-26b exacerbated platelet adhesion and aggregation ex vivo. Additionally, in vivo, platelets adhered faster, and larger thrombi were formed in mice lacking miR-26b. Moreover, isolated platelets from miR-26b-deficient mice showed a hyperactivated Src and EGFR signalling. Taken together, we show here for the first time that miR-26b attenuates platelet adhesion and aggregation, possibly through Src and EGFR signalling.

Published

2022

24. 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

25. Structure-Based Cyclic Glycoprotein Ibα-Derived Peptides Interfering with von Willebrand Factor-Binding, Affecting Platelet Aggregation under Shear

Author

Johana Hrdinova, Delia I. Fernández, Bogac Ercig, Bibian M. E. Tullemans, Dennis P. L. Suylen, Stijn M. Agten, Kerstin Jurk, Tilman M. Hackeng, Karen Vanhoorelbeke, Jan Voorberg, Chris P. M. Reutelingsperger, Kanin Wichapong, Johan W. M. Heemskerk, and Gerry A. F. Nicolaes

Subjects

glycoprotein Ib, in silico peptide design, platelets, thrombus, von Willebrand factor, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The plasmatic von Willebrand factor (VWF) circulates in a compact form unable to bind platelets. Upon shear stress, the VWF A1 domain is exposed, allowing VWF-binding to platelet glycoprotein Ib-V-IX (GPIbα chain). For a better understanding of the role of this interaction in cardiovascular disease, molecules are needed to specifically interfere with the opened VWF A1 domain interaction with GPIbα. Therefore, we in silico designed and chemically synthetized stable cyclic peptides interfering with the platelet-binding of the VWF A1 domain per se or complexed with botrocetin. Selected peptides (26–34 amino acids) with the lowest-binding free energy were: the monocyclic mono- vOn Willebrand factoR-GPIbα InTerference (ORbIT) peptide and bicyclic bi-ORbIT peptide. Interference of the peptides in the binding of VWF to GPIb-V-IX interaction was retained by flow cytometry in comparison with the blocking of anti-VWF A1 domain antibody CLB-RAg35. In collagen and VWF-dependent whole-blood thrombus formation at a high shear rate, CLB-RAg35 suppressed stable platelet adhesion as well as the formation of multilayered thrombi. Both peptides phenotypically mimicked these changes, although they were less potent than CLB-RAg35. The second-round generation of an improved peptide, namely opt-mono-ORbIT (28 amino acids), showed an increased inhibitory activity under flow. Accordingly, our structure-based design of peptides resulted in physiologically effective peptide-based inhibitors, even for convoluted complexes such as GPIbα-VWF A1.

Published

2022

26. Role of Tyrosine Kinase Syk in Thrombus Stabilisation at High Shear

Author

Gina Perrella, Samantha J. Montague, Helena C. Brown, Lourdes Garcia Quintanilla, Alexandre Slater, David Stegner, Mark Thomas, Johan W. M. Heemskerk, and Steve P. Watson

Subjects

disaggregation, platelet, Syk, thrombus, tyrosine kinase, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Understanding the pathways involved in the formation and stability of the core and shell regions of a platelet-rich arterial thrombus may result in new ways to treat arterial thrombosis. The distinguishing feature between these two regions is the absence of fibrin in the shell which indicates that in vitro flow-based assays over thrombogenic surfaces, in the absence of coagulation, can be used to resemble this region. In this study, we have investigated the contribution of Syk tyrosine kinase in the stability of platelet aggregates (or thrombi) formed on collagen or atherosclerotic plaque homogenate at arterial shear (1000 s−1). We show that post-perfusion of the Syk inhibitor PRT-060318 over preformed thrombi on both surfaces enhances thrombus breakdown and platelet detachment. The resulting loss of thrombus stability led to a reduction in thrombus contractile score which could be detected as early as 3 min after perfusion of the Syk inhibitor. A similar loss of thrombus stability was observed with ticagrelor and indomethacin, inhibitors of platelet adenosine diphosphate (ADP) receptor and thromboxane A2 (TxA2), respectively, and in the presence of the Src inhibitor, dasatinib. In contrast, the Btk inhibitor, ibrutinib, causes only a minor decrease in thrombus contractile score. Weak thrombus breakdown is also seen with the blocking GPVI nanobody, Nb21, which indicates, at best, a minor contribution of collagen to the stability of the platelet aggregate. These results show that Syk regulates thrombus stability in the absence of fibrin in human platelets under flow and provide evidence that this involves pathways additional to activation of GPVI by collagen.

Published

2022

27. High-throughput measurement of human platelet aggregation under flow: application in hemostasis and beyond

Author

Sanne L. N. Brouns, Johanna P. van Geffen, and Johan W. M. Heemskerk

Subjects

adhesion, fibrin procoagulant, thrombus, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

In recent years, considerable progress has been made in understanding the mechanisms involved in platelet activation during hemostasis and thrombosis. Parallel-plate flow chambers and other microfluidic devices have markedly contributed to this insight. Conversely, such flow devices are now increasingly used to monitor the combined processes of platelet aggregation, thrombus formation, and coagulation in human blood. Currently, by combining microspotting and multi-color fluorescence microscopy, this technology offers the capability of high-throughput measurement of platelet activation processes, even in small blood samples. Here we review the potential of flow chamber devices for complex (multiparameter) platelet and coagulation phenotyping, focusing on patients with (genetic) platelet- or coagulation-based bleeding disorders as well as monitoring of antithrombotic medication. Animal studies are not discussed.

Published

2018

28. Platelet Activation Mechanisms and Consequences of Immune Thrombocytopenia

Author

Siyu Sun, Rolf T. Urbanus, Hugo ten Cate, Philip G. de Groot, Bas de Laat, Johan W. M. Heemskerk, and Mark Roest

Subjects

autoimmune disorders, immune thrombocytopenia, platelet, thrombosis, auto-antibodies, Cytology, QH573-671

Abstract

Autoimmune disorders are often associated with low platelet count or thrombocytopenia. In immune-induced thrombocytopenia (IIT), a common mechanism is increased platelet activity, which can have an increased risk of thrombosis. In addition, or alternatively, auto-antibodies suppress platelet formation or augment platelet clearance. Effects of the auto-antibodies are linked to the unique structural and functional characteristics of platelets. Conversely, prior platelet activation may contribute to the innate and adaptive immune responses. Extensive interplay between platelets, coagulation and complement activation processes may aggravate the pathology. Here, we present an overview of the reported molecular causes and consequences of IIT in the most common forms of autoimmune disorders. These include idiopathic thrombocytopenic purpura (ITP), systemic lupus erythematosus (SLE), antiphospholipid syndrome (APS), drug-induced thrombocytopenia (DITP), heparin-induced thrombocytopenia (HIT), COVID-19 vaccine-induced thrombosis with thrombocytopenia (VITT), thrombotic thrombocytopenia purpura (TTP), and hemolysis, the elevated liver enzymes and low platelet (HELLP) syndrome. We focus on the platelet receptors that bind auto-antibodies, the immune complexes, damage-associated molecular patterns (DAMPs) and complement factors. In addition, we review how circulating platelets serve as a reservoir of immunomodulatory molecules. By this update on the molecular mechanisms and the roles of platelets in the pathogenesis of autoimmune diseases, we highlight platelet-based pathways that can predispose for thrombocytopenia and are linked thrombotic or bleeding events.

Published

2021

29. Temporal Roles of Platelet and Coagulation Pathways in Collagen- and Tissue Factor-Induced Thrombus Formation

Author

Stefano Navarro, David Stegner, Bernhard Nieswandt, Johan W. M. Heemskerk, and Marijke J. E. Kuijpers

Subjects

coagulation, fibrin, glycoprotein VI, platelet receptors, spatiotemporal thrombus, thrombin, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

In hemostasis and thrombosis, the complex process of thrombus formation involves different molecular pathways of platelet and coagulation activation. These pathways are considered as operating together at the same time, but this has not been investigated. The objective of our study was to elucidate the time-dependency of key pathways of thrombus and clot formation, initiated by collagen and tissue factor surfaces, where coagulation is triggered via the extrinsic route. Therefore, we adapted a microfluidics whole-blood assay with the Maastricht flow chamber to acutely block molecular pathways by pharmacological intervention at desired time points. Application of the technique revealed crucial roles of glycoprotein VI (GPVI)-induced platelet signaling via Syk kinase as well as factor VIIa-induced thrombin generation, which were confined to the first minutes of thrombus buildup. A novel anti-GPVI Fab EMF-1 was used for this purpose. In addition, platelet activation with the protease-activating receptors 1/4 (PAR1/4) and integrin αIIbβ3 appeared to be prolongedly active and extended to later stages of thrombus and clot formation. This work thereby revealed a more persistent contribution of thrombin receptor-induced platelet activation than of collagen receptor-induced platelet activation to the thrombotic process.

Published

2021

30. Multiparameter Evaluation of the Platelet-Inhibitory Effects of Tyrosine Kinase Inhibitors Used for Cancer Treatment

Author

Bibian M. E. Tullemans, Alicia Veninga, Delia I. Fernandez, Maureen J. B. Aarts, Johannes A. Eble, Paola E. J. van der Meijden, Johan W. M. Heemskerk, and Marijke J. E. Kuijpers

Subjects

platelet activation, aggregation, bleeding, thrombus formation, tyrosine kinase inhibitors, antiplatelet treatment, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Current antiplatelet drugs for the treatment of arterial thrombosis often coincide with increased bleeding risk. Several tyrosine kinase inhibitors (TKIs) for cancer treatment inhibit platelet function, with minor reported bleeding symptoms. The aim of this study was to compare the antiplatelet properties of eight TKIs to explore their possible repurposing as antiplatelet drugs. Samples of whole blood, platelet-rich plasma (PRP), or isolated platelets from healthy donors were treated with TKI or the vehicle. Measurements of platelet aggregation, activation, intracellular calcium mobilization, and whole-blood thrombus formation under flow were performed. Dasatinib and sunitinib dose-dependently reduced collagen-induced aggregation in PRP and washed platelets; pazopanib, cabozantinib, and vatalanib inhibited this response in washed platelets only; and fostamatinib, axitinib, and lapatinib showed no/limited effects. Fostamatinib reduced thrombus formation by approximately 50% on collagen and other substrates. Pazopanib, sunitinib, dasatinib, axitinib, and vatalanib mildly reduced thrombus formation on collagen by 10–50%. Intracellular calcium responses in isolated platelets were inhibited by dasatinib (>90%), fostamatinib (57%), sunitinib (77%), and pazopanib (82%). Upon glycoprotein-VI receptor stimulation, fostamatinib, cabozantinib, and vatalanib decreased highly activated platelet populations by approximately 15%, while increasing resting populations by 39%. In conclusion, the TKIs with the highest affinities for platelet-expressed molecular targets most strongly inhibited platelet functions. Dasatinib, fostamatinib, sunitinib, and pazopanib interfered in early collagen receptor-induced molecular-signaling compared with cabozantinib and vatalanib. Fostamatinib, sunitinib, pazopanib, and vatalanib may be promising for future evaluation as antiplatelet drugs.

Published

2021

31. Molecular Proteomics and Signalling of Human Platelets in Health and Disease

Author

Jingnan Huang, Pengyu Zhang, Fiorella A. Solari, Albert Sickmann, Angel Garcia, Kerstin Jurk, and Johan W. M. Heemskerk

Subjects

platelets, post-translational modification, proteins, signalling, receptors, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Platelets are small anucleate blood cells that play vital roles in haemostasis and thrombosis, besides other physiological and pathophysiological processes. These roles are tightly regulated by a complex network of signalling pathways. Mass spectrometry-based proteomic techniques are contributing not only to the identification and quantification of new platelet proteins, but also reveal post-translational modifications of these molecules, such as acetylation, glycosylation and phosphorylation. Moreover, target proteomic analysis of platelets can provide molecular biomarkers for genetic aberrations with established or non-established links to platelet dysfunctions. In this report, we review 67 reports regarding platelet proteomic analysis and signalling on a molecular base. Collectively, these provide detailed insight into the: (i) technical developments and limitations of the assessment of platelet (sub)proteomes; (ii) molecular protein changes upon ageing of platelets; (iii) complexity of platelet signalling pathways and functions in response to collagen, rhodocytin, thrombin, thromboxane A2 and ADP; (iv) proteomic effects of endothelial-derived mediators such as prostacyclin and the anti-platelet drug aspirin; and (v) molecular protein changes in platelets from patients with congenital disorders or cardiovascular disease. However, sample sizes are still low and the roles of differentially expressed proteins are often unknown. Based on the practical and technical possibilities and limitations, we provide a perspective for further improvements of the platelet proteomic field.

Published

2021

32. Rapid Internalization and Nuclear Translocation of CCL5 and CXCL4 in Endothelial Cells

Author

Annemiek Dickhout, Dawid M. Kaczor, Alexandra C. A. Heinzmann, Sanne L. N. Brouns, Johan W. M. Heemskerk, Marc A. M. J. van Zandvoort, and Rory R. Koenen

Subjects

RANTES, platelet factor 4, chemokine, endothelial cell, monocyte, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The chemokines CCL5 and CXCL4 are deposited by platelets onto endothelial cells, inducing monocyte arrest. Here, the fate of CCL5 and CXCL4 after endothelial deposition was investigated. Human umbilical vein endothelial cells (HUVECs) and EA.hy926 cells were incubated with CCL5 or CXCL4 for up to 120 min, and chemokine uptake was analyzed by microscopy and by ELISA. Intracellular calcium signaling was visualized upon chemokine treatment, and monocyte arrest was evaluated under laminar flow. Whereas CXCL4 remained partly on the cell surface, all of the CCL5 was internalized into endothelial cells. Endocytosis of CCL5 and CXCL4 was shown as a rapid and active process that primarily depended on dynamin, clathrin, and G protein-coupled receptors (GPCRs), but not on surface proteoglycans. Intracellular calcium signals were increased after chemokine treatment. Confocal microscopy and ELISA measurements in cell organelle fractions indicated that both chemokines accumulated in the nucleus. Internalization did not affect leukocyte arrest, as pretreatment of chemokines and subsequent washing did not alter monocyte adhesion to endothelial cells. Endothelial cells rapidly and actively internalize CCL5 and CXCL4 by clathrin and dynamin-dependent endocytosis, where the chemokines appear to be directed to the nucleus. These findings expand our knowledge of how chemokines attract leukocytes to sites of inflammation.

Published

2021

33. Use of microfluidics to assess the platelet-based control of coagulation

Author

Magdolna Nagy, Johan W. M. Heemskerk, and Frauke Swieringa

Subjects

fibrin, platelet, thrombin, thrombus, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

This paper provides an overview of the various types of microfluidic devices that are employed to study the complex processes of platelet activation and blood coagulation in whole blood under flow conditions. We elaborate on how these devices are used to detect impaired platelet-dependent fibrin formation in blood from mice or patients with specific bleeding disorders. We provide a practical guide on how to assess formation of a platelet–fibrin thrombus under flow, using equipment that is present in most laboratories. In addition, we describe current insights on how blood flow and shear rate alter the location of platelet populations, von Willebrand factor, coagulation factors, and fibrin in a growing thrombus. Finally, we discuss possibilities and limitations for the clinical use of microfluidic devices to evaluate a hemostatic or prothrombotic tendency in patient blood samples.

Published

2017

34. The Microbiota Promotes Arterial Thrombosis in Low-Density Lipoprotein Receptor-Deficient Mice

Author

Klytaimnistra Kiouptsi, Sven Jäckel, Giulia Pontarollo, Alexandra Grill, Marijke J. E. Kuijpers, Eivor Wilms, Christian Weber, Felix Sommer, Magdolna Nagy, Carlos Neideck, Yvonne Jansen, Stefanie Ascher, Henning Formes, Cornelia Karwot, Franziska Bayer, Bettina Kollar, Saravanan Subramaniam, Michael Molitor, Philip Wenzel, Philip Rosenstiel, Hristo Todorov, Susanne Gerber, Ulrich Walter, Kerstin Jurk, Johan W. M. Heemskerk, Emiel P. C. van der Vorst, Yvonne Döring, and Christoph Reinhardt

Subjects

gut microbiota, germfree, low-density lipoprotein receptor, arterial thrombosis, atherothrombosis, carotid artery, Microbiology, QR1-502

Abstract

ABSTRACT Atherosclerotic plaque development depends on chronic inflammation of the arterial wall. A dysbiotic gut microbiota can cause low-grade inflammation, and microbiota composition was linked to cardiovascular disease risk. However, the role of this environmental factor in atherothrombosis remains undefined. To analyze the impact of gut microbiota on atherothrombosis, we rederived low-density lipoprotein receptor-deficient (Ldlr−/−) mice as germfree (GF) and kept these mice for 16 weeks on an atherogenic high-fat Western diet (HFD) under GF isolator conditions and under conventionally raised specific-pathogen-free conditions (CONV-R). In spite of reduced diversity of the cecal gut microbiome, caused by atherogenic HFD, GF Ldlr−/− mice and CONV-R Ldlr−/− mice exhibited atherosclerotic lesions of comparable sizes in the common carotid artery. In contrast to HFD-fed mice, showing no difference in total cholesterol levels, CONV-R Ldlr−/− mice fed control diet (CD) had significantly reduced total plasma cholesterol, very-low-density lipoprotein (VLDL), and LDL levels compared with GF Ldlr−/− mice. Myeloid cell counts in blood as well as leukocyte adhesion to the vessel wall at the common carotid artery of GF Ldlr−/− mice on HFD were diminished compared to CONV-R Ldlr−/− controls. Plasma cytokine profiling revealed reduced levels of the proinflammatory chemokines CCL7 and CXCL1 in GF Ldlr−/− mice, whereas the T-cell-related interleukin 9 (IL-9) and IL-27 were elevated. In the atherothrombosis model of ultrasound-induced rupture of the common carotid artery plaque, thrombus area was significantly reduced in GF Ldlr−/− mice relative to CONV-R Ldlr−/− mice. Ex vivo, this atherothrombotic phenotype was explained by decreased adhesion-dependent platelet activation and thrombus growth of HFD-fed GF Ldlr−/− mice on type III collagen. IMPORTANCE Our results demonstrate a functional role for the commensal microbiota in atherothrombosis. In a ferric chloride injury model of the carotid artery, GF C57BL/6J mice had increased occlusion times compared to colonized controls. Interestingly, in late atherosclerosis, HFD-fed GF Ldlr−/− mice had reduced plaque rupture-induced thrombus growth in the carotid artery and diminished ex vivo thrombus formation under arterial flow conditions.

Published

2019

35. Impact of Deficiency of Intrinsic Coagulation Factors XI and XII on Ex Vivo Thrombus Formation and Clot Lysis

Author

José W. P. Govers-Riemslag, Joke Konings, Judith M. E. M. Cosemans, Johanna P. van Geffen, Bas de Laat, Johan W. M. Heemskerk, Yesim Dargaud, and Hugo ten Cate

Subjects

clot lysis, factor xii, factor xi, deficiency, thrombus formation, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

The contributions of coagulation factor XI (FXI) and FXII to human clot formation is not fully known. Patients with deficiency in FXI have a variable mild bleeding risk, whereas FXII deficiency is not associated with bleeding. These phenotypes make FXII and FXI attractive target proteins in anticoagulant therapy. Here, we studied the mechanisms of fibrin clot formation, stability, and fibrinolytic degradation in patients with severe FXI or FXII deficiency. Thrombin generation was triggered in platelet-poor (PPP) and platelet-rich plasma (PRP) with the biological FXII trigger sulfatides. Intrinsic and extrinsic thrombus formation and degradation in whole blood were determined with rotational thromboelastometry (ROTEM). Clot formation under flow was assessed by perfusion of whole blood over collagen microspots with(out) tissue factor (TF). Thrombin generation and clot formation were delayed in FXII- and FXI-deficient patients triggered with sulfatides. In FXI-deficient plasma, this delay was more pronounced in PRP compared to PPP. In whole blood of FXII-deficient patients, clots were smaller but resistance to fibrinolysis was normal. In whole blood of FXI-deficient patients, clot formation was normal but the time to complete fibrinolysis was prolonged. In flow chamber experiments triggered with collagen/TF, platelet coverage was reduced in severe compared with moderate FXI deficiency, and fibrin formation was impaired. We conclude that quantitative defects in FXII and FXI have a substantial impact on contact activation-triggered coagulation. Furthermore, FXI deficiency has a dose-dependent suppressing effect on flow-mediated and platelet/TF-dependent clot formation. These last data highlight the contribution of particularly FXI to hemostasis.

Published

2019

36. Comparative Analysis of Microfluidics Thrombus Formation in Multiple Genetically Modified Mice: Link to Thrombosis and Hemostasis

Author

Magdolna Nagy, Johanna P. van Geffen, David Stegner, David J. Adams, Attila Braun, Susanne M. de Witt, Margitta Elvers, Mitchell J. Geer, Marijke J. E. Kuijpers, Karl Kunzelmann, Jun Mori, Cécile Oury, Joachim Pircher, Irina Pleines, Alastair W. Poole, Yotis A. Senis, Remco Verdoold, Christian Weber, Bernhard Nieswandt, Johan W. M. Heemskerk, and Constance C. F. M. J. Baaten

Subjects

arterial thrombus formation, bleeding, collagen, glycoprotein VI, platelets, microfluidics, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Genetically modified mice are indispensable for establishing the roles of platelets in arterial thrombosis and hemostasis. Microfluidics assays using anticoagulated whole blood are commonly used as integrative proxy tests for platelet function in mice. In the present study, we quantified the changes in collagen-dependent thrombus formation for 38 different strains of (genetically) modified mice, all measured with the same microfluidics chamber. The mice included were deficient in platelet receptors, protein kinases or phosphatases, small GTPases or other signaling or scaffold proteins. By standardized re-analysis of high-resolution microscopic images, detailed information was obtained on altered platelet adhesion, aggregation and/or activation. For a subset of 11 mouse strains, these platelet functions were further evaluated in rhodocytin- and laminin-dependent thrombus formation, thus allowing a comparison of glycoprotein VI (GPVI), C-type lectin-like receptor 2 (CLEC2) and integrin α6β1 pathways. High homogeneity was found between wild-type mice datasets concerning adhesion and aggregation parameters. Quantitative comparison for the 38 modified mouse strains resulted in a matrix visualizing the impact of the respective (genetic) deficiency on thrombus formation with detailed insight into the type and extent of altered thrombus signatures. Network analysis revealed strong clusters of genes involved in GPVI signaling and Ca2+ homeostasis. The majority of mice demonstrating an antithrombotic phenotype in vivo displayed with a larger or smaller reduction in multi-parameter analysis of collagen-dependent thrombus formation in vitro. Remarkably, in only approximately half of the mouse strains that displayed reduced arterial thrombosis in vivo, this was accompanied by impaired hemostasis. This was also reflected by comparing in vitro thrombus formation (by microfluidics) with alterations in in vivo bleeding time. In conclusion, the presently developed multi-parameter analysis of thrombus formation using microfluidics can be used to: (i) determine the severity of platelet abnormalities; (ii) distinguish between altered platelet adhesion, aggregation and activation; and (iii) elucidate both collagen and non-collagen dependent alterations of thrombus formation. This approach may thereby aid in the better understanding and better assessment of genetic variation that affect in vivo arterial thrombosis and hemostasis.

Published

2019

37. Targeting platelet-derived CXCL12 impedes arterial thrombosis

Author

Julian Leberzammer, Stijn M. Agten, Xavier Blanchet, Rundan Duan, Hans Ippel, Remco T. A. Megens, Christian Schulz, Maria Aslani, Johan Duchene, Yvonne Döring, Natalie J. Jooss, Pengyu Zhang, Richard Brandl, Konstantin Stark, Wolfgang Siess, Kerstin Jurk, Johan W. M. Heemskerk, Tilman M. Hackeng, Kevin H. Mayo, Christian Weber, Philipp von Hundelshausen, Biochemie, RS: Carim - B01 Blood proteins & engineering, Biomedische Technologie, and RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis

Subjects

Blood Platelets, EXPRESSION, Platelet Aggregation, FACTOR-I, Immunology, 610 Medicine & health, Platelet Glycoprotein GPIIb-IIIa Complex, Biochemistry, ACTIVATION, Mice, GPVI, Agammaglobulinaemia Tyrosine Kinase, Animals, CXCR4, P-SELECTIN, Thrombosis, Cell Biology, Hematology, Platelet Activation, Chemokine CXCL12, biological factors, ATHEROSCLEROSIS, CHEMOKINES, BTK, embryonic structures, Collagen, biological phenomena, cell phenomena, and immunity, SDF-1-ALPHA

Abstract

The prevention and treatment of arterial thrombosis continue to be clinically challenging, and understanding the relevant molecular mechanisms in detail may facilitate the quest to identify novel targets and therapeutic approaches that improve protection from ischemic and bleeding events. The chemokine CXCL12 augments collagen-induced platelet aggregation by activating its receptor CXCR4. Here we show that inhibition of CXCR4 attenuates platelet aggregation induced by collagen or human plaque homogenate under static and arterial flow conditions by antagonizing the action of platelet-secreted CXCL12. We further show that platelet-specific CXCL12 deficiency in mice limits arterial thrombosis by affecting thrombus growth and stability without increasing tail bleeding time. Accordingly, neointimal lesion formation after carotid artery injury was attenuated in these mice. Mechanistically, CXCL12 activated via CXCR4 a signaling cascade involving Bruton’s tyrosine kinase (Btk) that led to integrin αIIbβ3 activation, platelet aggregation, and granule release. The heterodimeric interaction between CXCL12 and CCL5 can inhibit CXCL12-mediated effects as mimicked by CCL5-derived peptides such as [VREY]4. An improved variant of this peptide, i[VREY]4, binds to CXCL12 in a complex with CXCR4 on the surface of activated platelets, thereby inhibiting Btk activation and preventing platelet CXCL12-dependent arterial thrombosis. In contrast to standard antiplatelet therapies such as aspirin or P2Y12 inhibition, i[VREY]4 reduced CXCL12-induced platelet aggregation and yet did not prolong in vitro bleeding time. We provide evidence that platelet-derived CXCL12 is involved in arterial thrombosis and can be specifically targeted by peptides that harbor potential therapeutic value against atherothrombosis.

Published

2022

38. Toward Zero Variance in Proteomics Sample Preparation

Author

Stefan Loroch, Dominik Kopczynski, Adriana C. Schneider, Cornelia Schumbrutzki, Ingo Feldmann, Eleftherios Panagiotidis, Yvonne Reinders, Roman Sakson, Fiorella A. Solari, Alicia Vening, Frauke Swieringa, Johan W. M. Heemskerk, Maria Grandoch, Thomas Dandekar, Albert Sickmann, Biochemie, and RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis

Subjects

Chromatography, sample preparation, ROBUST, Chromatography, Liquid/methods, Reproducibility of Results, General Chemistry, Peptides/analysis, PF96, Biochemistry, Mass Spectrometry, COVERAGE, Mice, proteomics, FASP, Liquid/methods, Animals, Humans, Proteomics/methods, Peptides, Mass Spectrometry/methods, ORBITRAP MASS-SPECTROMETER, Chromatography, Liquid, automation

Abstract

As novel liquid chromatography-mass spectrometry (LC-MS) technologies for proteomics offer a substantial increase in LC-MS runs per day, robust and reproducible sample preparation emerges as a new bottleneck for throughput. We introduce a novel strategy for positive-pressure 96-well filter-aided sample preparation (PF96) on a commercial positive-pressure solid-phase extraction device. PF96 allows for a five-fold increase in throughput in conjunction with extraordinary reproducibility with Pearson product-moment correlations on the protein level of r = 0.9993, as demonstrated for mouse heart tissue lysate in 40 technical replicates. The targeted quantification of 16 peptides in the presence of stable-isotope-labeled reference peptides confirms that PF96 variance is barely assessable against technical variation from nanoLC-MS instrumentation. We further demonstrate that protein loads of 36-60 μg result in optimal peptide recovery, but lower amounts ≥3 μg can also be processed reproducibly. In summary, the reproducibility, simplicity, and economy of time provide PF96 a promising future in biomedical and clinical research.

Published

2022

39. Multiparameter platelet function analysis of bleeding patients with a prolonged platelet function analyser closure time

Author

Floor C. J. I. Heubel‐Moenen, Sanne L. N. Brouns, Linda Herfs, Lara S. Boerenkamp, Natalie J. Jooss, Rick J. H. Wetzels, Paul W. M. Verhezen, Patric Machiels, Karyn Megy, Kate Downes, Johan W. M. Heemskerk, Erik A. M. Beckers, Yvonne M. C. Henskens, Interne Geneeskunde, RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis, Biochemie, RS: GROW - R2 - Basic and Translational Cancer Biology, MUMC+: MA Hematologie (9), Central Diagnostic Lab, RS: Carim - B04 Clinical thrombosis and Haemostasis, MUMC+: DA CDL Algemeen (9), Heubel-Moenen, Floor CJI [0000-0002-3281-926X], and Apollo - University of Cambridge Repository

Subjects

Blood Platelets, bleeding disorders, VON-WILLEBRAND-DISEASE, Hemostasis, Platelet Aggregation, Platelet Function Tests, MEASURE THROMBUS FORMATION, DISORDERS, platelet function, PFA-100, Hemorrhage, Thrombosis, genetics of thrombosis and haemostasis, CLINICAL UTILITY, Hematology, diagnostic haematology, DEFECTS, DIAGNOSIS, von Willebrand Diseases, flow, von Willebrand Factor, PRIMARY HEMOSTASIS, Humans, ASSAY, SYSTEM

Abstract

Patients referred for evaluation of bleeding symptoms occasionally have a prolonged platelet function analyser (PFA) closure time, without evidence for von Willebrand disease or impaired platelet aggregation. The aim of this study was to establish a shear-dependent platelet function defect in these patients. Patients were included based on high bleeding score and prior PFA prolongation. Common tests of von Willebrand factor (VWF) and platelet function and exome sequencing were performed. Microfluidic analysis of shear-dependent collagen-induced whole-blood thrombus formation was performed. In 14 PFA-only patients, compared to healthy volunteers, microfluidic tests showed significantly lower platelet adhesion and thrombus formation parameters. This was accompanied by lower integrin activation, phosphatidylserine exposure and P-selectin expression. Principal components analysis indicated VWF as primary explaining variable of PFA prolongation, whereas conventional platelet aggregation primarily explained the reduced thrombus parameters under shear. In five patients with severe microfluidic abnormalities, conventional platelet aggregation was in the lowest range of normal. No causal variants in Mendelian genes known to cause bleeding or platelet disorders were identified. Multiparameter assessment of whole-blood thrombus formation under shear indicates single or combined effects of low-normal VWF and low-normal platelet aggregation in these patients, suggesting a shear-dependent platelet function defect, not detected by static conventional haemostatic tests.

Published

2022

40. Tyrosine Kinase Inhibitor Pazopanib Inhibits Platelet Procoagulant Activity in Renal Cell Carcinoma Patients

Author

Bibian M. E. Tullemans, Magdolna Nagy, Siamack Sabrkhany, Arjan W. Griffioen, Mirjam G. A. oude Egbrink, Maureen Aarts, Johan W. M. Heemskerk, and Marijke J. E. Kuijpers

Subjects

platelets, thrombus, tyrosine kinase inhibitor, phosphatidylserine, pazopanib, procoagulant activity, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

Pazopanib is an angiostatic tyrosine kinase inhibitor (TKI) presently used for cancer treatment, particularly in patients with renal cell carcinoma (RCC). This treatment can be accompanied by mild bleeding as an adverse effect. Given the role of protein tyrosine kinases in platelet activation processes, we investigated whether and how pazopanib can affect platelet functions in purified systems and during treatment of advanced RCC patients. In isolated platelets from healthy volunteers, pazopanib dose-dependently reduced collagen-induced integrin activation and secretion, as well as platelet aggregation. Pazopanib addition diminished glycoprotein (GP) VI-dependent tyrosine phosphorylation of multiple platelet proteins, including the tyrosine kinase Syk. Furthermore, pazopanib inhibited GPVI-induced Ca2+ elevation, resulting in reduced exposure of the procoagulant phospholipid phosphatidylserine (PS). Upon perfusion of control blood over a collagen surface, pazopanib inhibited thrombus size as well as PS exposure. Blood samples from 10 RCC patients were also analyzed before and after 14 days of pazopanib treatment as monotherapy. This treatment caused an overall lowering in platelet count, with 3 out of 10 patients experiencing mild bleeding. Platelets isolated from pazopanib-treated patients showed a significant lowering of PS exposure upon activation. In addition, platelet procoagulant activity was inhibited in thrombi formed under flow conditions. Control experiments indicated that higher pazopanib concentrations were required to inhibit GPVI-mediated PS exposure in the presence of plasma. Together, these results indicated that pazopanib suppresses GPVI-induced platelet activation responses in a way partly antagonized by the presence of plasma. In treated cancer patients, pazopanib effects were confined to a reduction in GPVI-dependent PS exposure. Together with the reduced platelet count, this may explain the mild bleeding tendency observed in pazopanib-treated patients.

Published

2018

41. Impaired mitochondrial activity explains platelet dysfunction in thrombocytopenic cancer patients undergoing chemotherapy

Author

Constance C. F. M. J. Baaten, Floor C. J. I. Moenen, Yvonne M. C. Henskens, Frauke Swieringa, Rick J. H. Wetzels, René van Oerle, Harry F. G. Heijnen, Hugo ten Cate, Graham P. Holloway, Erik A. M. Beckers, Johan W. M. Heemskerk, and Paola E. J. van der Meijden

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Severe thrombocytopenia (≤50×109 platelets/L) due to hematological malignancy and intensive chemotherapy is associated with an increased risk of clinically significant bleeding. Since the bleeding risk is not linked to the platelet count only, other hemostatic factors must be involved. We studied platelet function in 77 patients with acute leukemia, multiple myeloma or malignant lymphoma, who experienced chemotherapy-induced thrombocytopenia. Platelets from all patients - independent of disease or treatment type - were to a variable extent compromised in Ca2+ flux, integrin a β activation and P-selectin expression when stimulated with a panelIIbof3 agonists. The patients’ platelets were also impaired in spreading on fibrinogen. Whereas the Ca2+ store content was unaffected, the patients’ platelets showed ongoing phosphatidylserine exposure, which was not due to apoptotic caspase activity. Interestingly, mitochondrial function was markedly reduced in platelets from a representative subset of patients, as evidenced by a low mitochondrial membrane potential (P

Published

2018

42. Platelet extracellular vesicles induce a pro-inflammatory smooth muscle cell phenotype

Author

Tanja Vajen, Birke J. Benedikter, Alexandra C. A. Heinzmann, Elena M. Vasina, Yvonne Henskens, Martin Parsons, Patricia B. Maguire, Frank R. Stassen, Johan W. M. Heemskerk, Leon J. Schurgers, and Rory R. Koenen

Subjects

Platelet factor 4, cytokine, synthetic phenotype, vascular remodeling, pathway analysis, proteomics, CX3CR1, Cytology, QH573-671

Abstract

Extracellular vesicles (EVs) are mediators of cell communication during health and disease, and abundantly released by platelets upon activation or during ageing. Platelet EVs exert modulatory effects on immune and vascular cells. Platelet EVs may modulate the function of vascular smooth muscle cells (SMC). Platelet EVs were isolated from platelet-rich plasma and incubated with SMC in order to assess binding, proliferation, migration and pro-inflammatory phenotype of the cells. Platelet EVs firmly bound to resting SMC through the platelet integrin αIIbβ3, while binding also occurred in a CX3CL1–CX3CR1-dependent manner after cytokine stimulation. Platelet EVs increased SMC migration comparable to platelet derived growth factor or platelet factor 4 and induced SMC proliferation, which relied on CD40- and P-selectin interactions. Flow-resistant monocyte adhesion to platelet EV-treated SMC was increased compared with resting SMC. Again, this adhesion depended on integrin αIIbβ3 and P-selectin, and to a lesser extent on CD40 and CX3CR1. Treatment of SMC with platelet EVs induced interleukin 6 secretion. Finally, platelet EVs induced a synthetic SMC morphology and decreased calponin expression. Collectively, these data indicate that platelet EVs exert a strong immunomodulatory activity on SMC. In particular, platelet EVs induce a switch towards a pro-inflammatory phenotype, stimulating vascular remodelling.

Published

2017

43. High fibrinogen gamma ' levels in patient plasma increase clot formation a arterial and venous shear

Author

Fraser L. Macrae, Johan W. M. Heemskerk, Frauke Swieringa, Robert A. S. Ariëns, Biochemie, RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis, and RS: Carim - B01 Blood proteins & engineering

Subjects

medicine.medical_specialty, Lysis, GENES, INHIBITION, Fibrinogen, Fibrin, Thrombosis and Hemostasis, THROMBOEMBOLISM, SPLICE VARIANT, Internal medicine, BINDING, medicine, Humans, Platelet, THROMBIN GENERATION, RISK, biology, Chemistry, Fibrinogens, Abnormal, Hematology, ASSOCIATION, FACTOR-XIII, medicine.disease, Factor XIII, Thrombosis, Venous thrombosis, Endocrinology, Coagulation, biology.protein, CHAIN, Blood Coagulation Tests, medicine.drug

Abstract

Fibrinogen γ' accounts for 3% to 40% of plasma fibrinogen. Earlier studies indicated that fibrinogen γ' forms altered fibrin clots under static conditions, whereas clinically, altered plasma γ' levels are associated with arterial and venous thrombosis. However, the effects of static vs flow conditions on the role of γ′ throughout the pathophysiological range is unknown. This study explores the effects of γ' levels on clot formation and structure in static and flow conditions. Coagulation of plasma samples with low (n = 41; 3%), normal (n = 45; 10%), or high (n = 33; 30%) γ′ levels were compared with that of purified fibrinogen mixtures with increasing ratios of γ′ (3%, 10%, 30%). Clots were analyzed by confocal microscopy, permeation, turbidity, and lysis techniques. In a novel 2-step flow-perfusion model, fibrinogen-deficient plasma repleted with increasing ratios of γ′ (3%, 10%, 30%) or plasmas with low (n = 5, 3%) or high (n = 5, 30%) γ′ were flowed over preformed platelet aggregates at arterial (500 s−1) and venous (150 s−1) shear rates. Increasing γ′ percentages within the pathophysiological range (3%-30%) did not result in any change in clot-formation rates; however, it led to significantly higher clot density, thinner fibers, and slower lysis in static conditions. Under flow at arterial shear, high γ′ (30%) led to faster (+44.1%-75.3%) and increased (+104%-123%) fibrin deposition, with clots exhibiting a larger volume (+253%-655%) and height (+130%-146%). These trends were magnified at venous shear. Overall, our findings demonstrate the significant impact of pathophysiological fibrinogen γ′ levels on clot structure and provide new flow-dependent mechanisms to explain how γ′ increases thrombosis risk.

Published

2021

44. Multiparameter microfluidics assay of thrombus formation reveals increased sensitivity to contraction and antiplatelet agents at physiological temperature

Author

Rene van Oerle, Natalie J Jooss, Linda Herfs, Yvonne M. C. Henskens, Johan W. M. Heemskerk, Mike Kozlowski, Patric Machiels, Floor C J I Heubel-Moenen, Frauke Swieringa, Biochemie, RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis, MUMC+: MA Hematologie (9), Interne Geneeskunde, MUMC+: DA CDL Analytisch cluster 1K (9), MUMC+: DA CDL Algemeen (9), RS: Carim - B04 Clinical thrombosis and Haemostasis, and Faculteit FHML Centraal

Subjects

Blood Platelets, Platelet Aggregation, Multiparameter assay, DISORDERS, Microfluidics, 030204 cardiovascular system & hematology, DISEASE, 03 medical and health sciences, Thromboxane A2, chemistry.chemical_compound, 0302 clinical medicine, Platelet Adhesiveness, medicine, WHOLE-BLOOD, Humans, TOOL, Platelet, Thrombus, Whole blood, Aspirin, Hemostasis, PLATELET-FUNCTION, Temperature, Thrombosis, Hematology, DEFECTS, medicine.disease, Clopidogrel, COLLAGEN, chemistry, 030220 oncology & carcinogenesis, CLOPIDOGREL, Platelet Aggregation Inhibitors, Biomedical engineering, medicine.drug

Abstract

Introduction: Current developments to assess qualitative and quantitative platelet traits in flowed whole-blood are based on microfluidic devices that mostly operate at room temperature. However, operation at physiological temperature (37 degrees;C) may increase the assay's sensitivity, and facilitates the comparison to other platelet function tests of the diagnostic laboratory.Materials and methods: We adapted the conventional microspot-based microfluidic device with a simple thermocoupled pre-heating module. Automated analysis of microscopic images assisted in obtaining five timedependent parameters of thrombus formation over collagen microspots (shear rate 1000 s- 1). These modifications allowed rapid testing of control and patient blood samples at physiological temperature.Results and conclusion: The higher temperature enhanced platelet adhesion and aggregation as well as late thrombus characteristics such as size and contraction, when compared to room temperature. Moreover, assessment at 37 degrees C indicated a time-dependent impairment of the thrombus parameters in blood from patients taking common antiplatelet medication, i.e. aspirin and/or clopidogrel. This pointed to increased contribution of the autocrine platelet agonists thromboxane A2 and ADP in the buildup of contracted thrombi under flow. Overall, this study underlined the advantage of multiparameter assessment of microfluidic thrombus formation in detecting an acquired platelet dysfunction, when operating at physiological temperature. This work may bring microfluidics tests closer to the diagnostic laboratory.Introduction: Current developments to assess qualitative and quantitative platelet traits in flowed whole-blood are based on microfluidic devices that mostly operate at room temperature. However, operation at physiological temperature (37 degrees C) may increase the assay's sensitivity, and facilitates the comparison to other platelet function tests of the diagnostic laboratory.Materials and methods: We adapted the conventional microspot-based microfluidic device with a simple thermocoupled pre-heating module. Automated analysis of microscopic images assisted in obtaining five timedependent parameters of thrombus formation over collagen microspots (shear rate 1000 s- 1). These modifications allowed rapid testing of control and patient blood samples at physiological temperature.Results and conclusion: The higher temperature enhanced platelet adhesion and aggregation as well as late thrombus characteristics such as size and contraction, when compared to room temperature. Moreover, assessment at 37 degrees C indicated a time-dependent impairment of the thrombus parameters in blood from patients taking common antiplatelet medication, i.e. aspirin and/or clopidogrel. This pointed to increased contribution of the autocrine platelet agonists thromboxane A2 and ADP in the buildup of contracted thrombi under flow. Overall, this study underlined the advantage of multiparameter assessment of microfluidic thrombus formation in detecting an acquired platelet dysfunction, when operating at physiological temperature. This work may bring microfluidics tests closer to the diagnostic laboratory.

Published

2021

45. Whole Blood Based Multiparameter Assessment of Thrombus Formation in Standard Microfluidic Devices to Proxy In Vivo Haemostasis and Thrombosis

Author

Isabella Provenzale, Sanne L. N. Brouns, Paola E. J. van der Meijden, Frauke Swieringa, and Johan W. M. Heemskerk

Subjects

collagen, platelet, thrombus, Mechanical engineering and machinery, TJ1-1570

Abstract

Microfluidic assays are versatile tests which, using only small amounts of blood, enable high throughput analyses of platelet function in several minutes. In combination with fluorescence microscopy, these flow tests allow real-time visualisation of platelet activation with the possibility of examining combinatorial effects of wall shear rate, coagulation and modulation by endothelial cells. In particular, the ability to use blood and blood cells from healthy subjects or patients makes this technology promising, both for research and (pre)clinical diagnostic purposes. In the present review, we describe how microfluidic devices are used to assess the roles of platelets in thrombosis and haemostasis. We place emphasis on technical aspects and on experimental designs that make the concept of “blood-vessel-component-on-a-chip” an attractive, rapidly developing technology for the study of the complex biological processes of blood coagulability in the presence of flow.

Published

2019

46. Clinical Protocol to Prevent Thrombogenic Effect of Liver-Derived Mesenchymal Cells for Cell-Based Therapies

Author

Louise Coppin, Mustapha Najimi, Julie Bodart, Marie-Sophie Rouchon, Patrick van der Smissen, Stéphane Eeckhoudt, Géraldine Dahlqvist, Diego Castanares-Zapatero, Mina Komuta, Sanne L. Brouns, Constance C. Baaten, Johan W. M. Heemskerk, Sandrine Horman, Nathalie Belmonte, Etienne Sokal, and Xavier Stéphenne

Subjects

cell- and tissue-based therapy, liver transplantation, mesenchymal stem cells, thrombosis, anticoagulants, Cytology, QH573-671

Abstract

The efficacy of mesenchymal stem cell infusion is currently tested in numerous clinical trials. However, therapy-induced thrombotic consequences have been reported in several patients. The aim of this study was to optimize protocols for heterologous human adult liver-derived progenitor cell (HHALPC) infusion, in order to eliminate acute thrombogenesis in liver-based metabolic or acute decompensated cirrhotic (ADC) patients. In rats, thrombotic effects were absent when HHALPCs were infused at low cell dose (5 × 106 cells/kg), or at high cell dose (5 × 107 cells/kg) when combined with anticoagulants. When HHALPCs were exposed to human blood in a whole blood perfusion assay, blocking of the tissue factor (TF) coagulation pathway suppressed fibrin generation and platelet activation. In a Chandler tubing loop model, HHALPCs induced less explosive activation of coagulation with blood from ADC patients, when compared to blood from healthy controls, without alterations in coagulation factor levels other than fibrinogen. These studies confirm a link between TF and thrombogenesis, when TF-expressing cells are exposed to human blood. This phenomenon however, could be controlled using either a low, or a high cell dose combined with anticoagulants. In clinical practice, this points to the suitability of a low HHALPC dose infusion to cirrhotic patients, provided that platelet and fibrinogen levels are monitored.

Published

2019

47. Inhibition of platelet adhesion, thrombus formation, and fibrin formation by a potent αIIbβ3 integrin inhibitor from ticks

Author

Sanne L. N. Brouns, Magdolna Nagy, Tilman M. Hackeng, Johan W. M. Heemskerk, Ingrid Dijkgraaf, Danique L. van den Kerkhof, Kanin Wichapong, Biochemie, RS: Carim - B01 Blood proteins & engineering, RS: Carim - B04 Clinical thrombosis and Haemostasis, and RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis

Subjects

PROTEINS, Pharmacology, DISAGREGIN, Fibrin, blood coagulation, ticks, ORNITHODOROS SAVIGNYI ACARI, medicine, platelet activation, Platelet, KNOWLEDGE, Platelet activation, Thrombus, platelet aggregation inhibitors, GLYCOPROTEIN-IIB-IIIA, Integrin binding, ANTAGONIST, biology, RECEPTOR, Chemistry, lcsh:RC633-647.5, Hematology, lcsh:Diseases of the blood and blood-forming organs, AGGREGATION, medicine.disease, Original Articles ‐ Thrombosis, synthetic chemistry techniques, APYRASE, Eptifibatide, biology.protein, Platelet aggregation inhibitor, Original Article, Glycoprotein IIb/IIIa, medicine.drug, SOFT TICK

Abstract

Background: Ticks puncture the skin of their hosts and secrete saliva, containing antiplatelet proteins, into the blood. Here, we studied disagregin, a potent platelet-inhibiting protein derived from the salivary glands of Ornithodoros moubata, an African soft tick. Whereas conventional alpha IIb beta 3 antagonists contain an Arg-Gly-Asp (RGD) sequence for platelet integrin binding, disagregin contains an Arg-Glu-Asp (RED) sequence, hypothesizing a different mode of inhibitory action.Objectives: We aimed to compare the inhibitory effects of disagregin and its RGD variant (RGD-disagregin) on platelet activation and to unravel the molecular basis of disagregin-alpha IIb beta 3 integrin interactions.Methods: Disagregin and RGD-disagregin were synthesized by tert-butyloxycarbonyl -based solid-phase peptide synthesis. Effects of both disagregins on platelet aggregation were assessed by light transmission aggregometry in human platelet-rich plasma. Whole-blood thrombus formation was investigated by perfusing blood over collagen I with and without tissue factor at a high wall-shear rate (1000 s(-1)) in the presence of disagregin, RGD-disagregin, or eptifibatide.Results: Disagregin showed inhibition of collagen- and ADP-induced platelet aggregation with half maximal inhibitory concentration values of 64 and 99 nM, respectively. This resembled the complete antiaggregatory effect of eptifibatide. Multiparameter assessment of thrombus formation showed highly suppressed platelet adhesion and aggregate formation with both disagregins, in contrast to eptifibatide treatment, which incompletely blocked aggregation under flow. Fibrin formation under flow was delayed by both disagregin and RGD-disagregin (P Conclusions: Both alpha IIb beta 3-blocking disagregins have a strong potential to suppress collagen-tissue factor-mediated platelet adhesion, thrombus formation, and fibrin formation. Both disagregins can be seen as potential new alpha IIb beta 3 inhibitors.

Published

2021

48. Complementary roles of platelet αIIbβ3 integrin, phosphatidylserine exposure and cytoskeletal rearrangement in the release of extracellular vesicles

Author

Johan W. M. Heemskerk, Rory R. Koenen, Alexandra C.A. Heinzmann, Tanja Vajen, Tilman M. Hackeng, Daniëlle Coenen, Judith M.E.M. Cosemans, Mieke F.A. Karel, Dennis Suylen, Nicole Meulendijks, Magdolna Nagy, Biochemie, RS: Carim - B01 Blood proteins & engineering, RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis, and RS: Carim - B04 Clinical thrombosis and Haemostasis

Subjects

0301 basic medicine, Integrins, SCOTT-SYNDROME, IMMUNE, Integrin, ADHESION, 030204 cardiovascular system & hematology, ACTIVATION, 03 medical and health sciences, Blood platelets, 0302 clinical medicine, Thrombasthenia, Scott syndrome, medicine, AMINOPHOSPHOLIPID EXPOSURE, SWITCH, Platelet, Platelet activation, Cytoskeleton, MICROVESICLES, OUTSIDE-IN, biology, Chemistry, Actin cytoskeleton, Convulxin, Extracellular vesicles, medicine.disease, MICROPARTICLE FORMATION, 030104 developmental biology, Biophysics, biology.protein, MEMBRANE, Cardiology and Cardiovascular Medicine

Abstract

Background and aims: Platelets can release extracellular vesicles (EVs) upon stimulation with various agonists. Interestingly, platelets from patients with Glanzmann thrombasthenia have reduced EV release. These platelets lack functional alpha(IIb)beta(3) integrins, indicating that alpha(IIb)beta(3) integrin is critical in vesicle release. Integrin activation is central in platelet function and is associated with e.g. adhesion, aggregation and cytoskeletal rearrangement. However, while platelet activation pathways are widely known, the mechanisms underlying EV release remain uncharacterized. We investigated the role of integrin alpha(IIb)beta(3), phosphatidyl serine (PS) exposure, cytoskeletal rearrangement and their associated signalling pathways in EV release.Methods: EVs were isolated from activated platelets. Platelet activation status was measured by multicolour flow cytometry. A panel of pharmacologic inhibitors was used to interfere in specific signalling pathways. EV release was quantified enzymatically based on membrane PS content and nanoparticle tracking analysis. In addition, real-time visualization of EV shedding with confocal microscopy and EVs with Cryo-TEM imaging was performed.Results: Platelet activation with convulxin resulted in higher EV release than with activation by thrombin. Kinetic measurements indicated that EV release followed the pattern of alpha(IIb)beta(3) integrin activation and subsequent closure paralleled by PS exposure. Prevention of alpha(IIb)beta(3) activation with the inhibitor tirofiban dramatically suppressed EV release. Similar results were obtained using a alpha(IIb)beta(3)-deficient platelets from patients with Glanzmann thrombasthenia. Inhibition of actin cytoskeleton rearrangement decreased EV release, whereas inhibition of individual signalling targets upstream of cytoskeletal rearrangement showed no such effects.Conclusion: Platelet EV release requires three main events: integrin activation and closure, PS exposure, and cytoskeletal rearrangement.

Published

2020

49. Flow studies on human GPVI-deficient blood under coagulating and noncoagulating conditions

Author

Neil V. Morgan, Lorena Azocar, Gina Perrella, Jeremy A. Pike, Magdolna Nagy, Elizabeth E. Gardiner, Amanda Dalby, Johan W. M. Heemskerk, Steve P. Watson, Juan Francisco Miquel, Lourdes Garcia Quintanilla, Diego Mezzano, M. Francisca Becerra, RS: Carim - B04 Clinical thrombosis and Haemostasis, Biochemie, and RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis

Subjects

Blood Platelets, INVOLVEMENT, 0301 basic medicine, ALPHA-2-BETA-1 INTEGRIN, VON-WILLEBRAND-FACTOR, Population, Fc receptor, Platelet Membrane Glycoproteins, 030204 cardiovascular system & hematology, Thrombosis and Hemostasis, ALPHA(2)BETA(1), 03 medical and health sciences, 0302 clinical medicine, Thrombin, Von Willebrand factor, Laminin, von Willebrand Factor, medicine, Humans, Platelet, education, education.field_of_study, biology, Chemistry, Hematology, Blood Coagulation Disorders, Molecular biology, COLLAGEN, FIBRIN, THROMBUS FORMATION, PLATELET-ADHESION, Transmembrane domain, 030104 developmental biology, biology.protein, GLYCOPROTEIN-VI, GPVI, RECEPTOR GAMMA-CHAIN, medicine.drug

Abstract

The role of glycoprotein VI (GPVI) in platelets was investigated in 3 families bearing an insertion within the GP6 gene that introduces a premature stop codon prior to the transmembrane domain, leading to expression of a truncated protein in the cytoplasm devoid of the transmembrane region. Western blotting and flow cytometry of GP6hom (homozygous) platelets confirmed loss of the full protein. The level of the Fc receptor γ-chain, which associates with GPVI in the membrane, was partially reduced, but expression of other receptors and signaling proteins was not altered. Spreading of platelets on collagen and von Willebrand factor (which supports partial spreading) was abolished in GP6hom platelets, and spreading on uncoated glass was reduced. Anticoagulated whole blood flowed over immobilized collagen or a mixture of von Willebrand factor, laminin, and rhodocytin (noncollagen surface) generated stable platelet aggregates that express phosphatidylserine (PS). Both responses were blocked on the 2 surfaces in GP6hom individuals, but adhesion was not altered. Thrombin generation was partially reduced in GP6hom blood. The frequency of the GP6het (heterozygous) variant in a representative sample of the Chilean population (1212 donors) is 2.9%, indicating that there are ∼4000 GP6hom individuals in Chile. These results demonstrate that GPVI supports aggregation and PS exposure under flow on collagen and noncollagen surfaces, but not adhesion. The retention of adhesion may contribute to the mild bleeding diathesis of GP6hom patients and account for why so few of the estimated 4000 GP6hom individuals in Chile have been identified.

Published

2020

50. Crystal Clots as Therapeutic Target in Cholesterol Crystal Embolism

Author

Diana Möckel, Chongxu Shi, Hans-Joachim Anders, Johan W. M. Heemskerk, Maike Baues, Luying Yang, Paola Romagnani, Shrikant R. Mulay, Barbara M. Klinkhammer, Peter Boor, Tobias Bäuerle, Tehyung Kim, Sanne L. N. Brouns, Twan Lammers, Attila Braun, Maria Elena Melica, Stefanie Steiger, Biochemie, and RS: Carim - B03 Cell biochemistry of thrombosis and haemostasis

Subjects

0301 basic medicine, Male, Physiology, medicine.medical_treatment, necroptosis, ACUTE KIDNEY INJURY, Inflammation, 030204 cardiovascular system & hematology, Bioinformatics, Kidney, DISEASE, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, ULTRASTRUCTURE, INFLAMMATION, TRANSCUTANEOUS MEASUREMENT, medicine, Animals, ATHEROEMBOLIC OCCLUSION, Embolization, Renal Insufficiency, fibrin, Embolism, Cholesterol, MEDIATES NECROPTOSIS, business.industry, Cholesterol, NEUTROPHIL EXTRACELLULAR TRAPS, medicine.disease, EMBOLIZATION, Thrombosis, endothelial cells, Mice, Inbred C57BL, THROMBOSIS, 030104 developmental biology, Embolism, chemistry, Molecular targets, medicine.symptom, Cardiology and Cardiovascular Medicine, business, Complication, extracellular traps

Abstract

Rationale: Cholesterol crystal embolism can be a life-threatening complication of advanced atherosclerosis. Pathophysiology and molecular targets for treatment are largely unknown. Objective: We aimed to develop a new animal model of cholesterol crystal embolism to dissect the molecular mechanisms of cholesterol crystal (CC)–driven arterial occlusion, tissue infarction, and organ failure. Methods and Results: C57BL/6J mice were injected with CC into the left kidney artery. Primary end point was glomerular filtration rate (GFR). CC caused crystal clots occluding intrarenal arteries and a dose-dependent drop in GFR, followed by GFR recovery within 4 weeks, that is, acute kidney disease. In contrast, the extent of kidney infarction was more variable. Blocking necroptosis using mixed lineage kinase domain–like deficient mice or necrostatin-1s treatment protected from kidney infarction but not from GFR loss because arterial obstructions persisted, identifying crystal clots as a primary target to prevent organ failure. CC involved platelets, neutrophils, fibrin, and extracellular DNA. Neutrophil depletion or inhibition of the release of neutrophil extracellular traps had little effects, but platelet P2Y12 receptor antagonism with clopidogrel, fibrinolysis with urokinase, or DNA digestion with recombinant DNase I all prevented arterial occlusions, GFR loss, and kidney infarction. The window-of-opportunity was Conclusions: CC embolism causes arterial obstructions and organ failure via the formation of crystal clots with fibrin, platelets, and extracellular DNA as critical components. Therefore, our model enables to unravel the pathogenesis of the CC embolism syndrome as a basis for both prophylaxis and targeted therapy.

Published

2020