Your search keyword '"Olga Vitseva"' showing total 14 results

1. The Dynamic Platelet Transcriptome in Obesity and Weight Loss

Author

Kahraman Tanriverdi, Olga Vitseva, Martin G. Larson, Ravi V. Shah, Aferdita Spahillari, Jane E. Freedman, Alexander R. Pico, Robert R. Kitchen, Daniel Levy, Jian Rong, Mark D. Iafrati, Sajani Shah, Marzieh Ezzaty Mirhashemi, and Danielle Demarco

Subjects

Adult, Blood Platelets, Male, 0301 basic medicine, medicine.medical_specialty, Time Factors, Platelet Aggregation, Bariatric Surgery, Inflammation, 030204 cardiovascular system & hematology, Biology, medicine.disease_cause, Risk Assessment, Article, Transcriptome, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Weight loss, Internal medicine, Weight Loss, Gene expression, medicine, Humans, Gene Regulatory Networks, Platelet, Longitudinal Studies, Obesity, Prospective Studies, RNA-Seq, Aged, Gene Expression Profiling, Incidence, Cardiometabolic Risk Factors, High-Throughput Nucleotide Sequencing, Middle Aged, medicine.disease, Phenotype, Treatment Outcome, 030104 developmental biology, Endocrinology, Gene Expression Regulation, Cardiovascular Diseases, Female, medicine.symptom, Cardiology and Cardiovascular Medicine, Oxidative stress

Abstract

Objective: Adiposity is associated with oxidative stress, inflammation, and glucose intolerance. Previous data suggest that platelet gene expression is associated with key cardiometabolic phenotypes, including body mass index but stable in healthy individuals over time. However, modulation of gene expression in platelets in response to metabolic shifts (eg, weight reduction) is unknown and may be important to defining mechanism. Approach and Results: Platelet RNA sequencing and aggregation were performed from 21 individuals with massive weight loss (>45 kg) following bariatric surgery. Based on RNA sequencing data, we measured the expression of 67 genes from isolated platelet RNA using high-throughput quantitative reverse transcription quantitative PCR in 1864 FHS (Framingham Heart Study) participants. Many transcripts not previously studied in platelets were differentially expressed with bariatric surgical weight loss, appeared specific to platelets (eg, not differentially expressed in leukocytes), and were enriched for a nonalcoholic fatty liver disease pathway. Platelet aggregation studies did not detect alteration in platelet function after significant weight loss. Linear regression models demonstrated several platelet genes modestly associated with cross-sectional cardiometabolic phenotypes, including body mass index. There were no associations between studied transcripts and incident diabetes or cardiovascular end points. Conclusions: In summary, while there is no change in platelet aggregation function after significant weight loss, the human platelet experiences a dramatic transcriptional shift that implicates pathways potentially relevant to improved cardiometabolic risk postweight loss (eg, nonalcoholic fatty liver disease). Further studies are needed to determine the mechanistic importance of these observations.

Published

2021

2. The role of platelets in mediating a response to human influenza infection

Author

Olga Vitseva, Heather A. Corkrey, Giorgia Manni, Evelyn A. Kurt-Jones, Robert W. Finberg, Lauren Clancy, Jeffrey J. Rade, Catherine J. Pang, Milka Koupenova, Daniel Levy, Jennifer P. Wang, Chen Yao, and Jane E. Freedman

Subjects

0301 basic medicine, Male, Neutrophils, General Physics and Astronomy, 02 engineering and technology, medicine.disease_cause, Extracellular Traps, Influenza A virus, Platelet, Myocardial infarction, Receptor, lcsh:Science, Aged, 80 and over, Mice, Knockout, Multidisciplinary, Membrane Glycoproteins, virus diseases, Complement C3, Middle Aged, 021001 nanoscience & nanotechnology, 3. Good health, Female, medicine.symptom, 0210 nano-technology, Adult, Blood Platelets, Science, Vascular occlusion, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, Immune system, Influenza, Human, medicine, Animals, Humans, Platelet activation, Aged, business.industry, General Chemistry, TLR7, medicine.disease, Platelet Activation, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Toll-Like Receptor 7, Immunology, lcsh:Q, business

Abstract

Influenza infection increases the incidence of myocardial infarction but the reason is unknown. Platelets mediate vascular occlusion through thrombotic functions but are also recognized to have immunomodulatory activity. To determine if platelet processes are activated during influenza infection, we collected blood from 18 patients with acute influenza infection. Microscopy reveals activated platelets, many containing viral particles and extracellular-DNA associated with platelets. To understand the mechanism, we isolate human platelets and treat them with influenza A virus. Viral-engulfment leads to C3 release from platelets as a function of TLR7 and C3 leads to neutrophil-DNA release and aggregation. TLR7 specificity is confirmed in murine models lacking the receptor, and platelet depletion models support platelet-mediated C3 and neutrophil-DNA release post-influenza infection. These findings demonstrate that the initial intrinsic defense against influenza is mediated by platelet–neutrophil cross-communication that tightly regulates host immune and complement responses but can also lead to thrombotic vascular occlusion., Influenza viremia is rare in human blood and not well studied. Here, the authors show that influenza can be found in human platelets and that platelet engulfment of influenza A results in TLR7-dependent C3 release, which in turn promotes neutrophil-DNA release and formation of platelet-DNA aggregates.

Published

2019

3. SARS-CoV-2 Initiates Programmed Cell Death in Platelets

Author

Milka Koupenova, Heather A. Corkrey, Kahraman Tanriverdi, Robert W. Finberg, Alyssa Cousineau, Ping Liu, Mohan Somasundaran, Scott J. Cameron, Rohan Bhandari, Jeffrey J. Rade, Matthew Godwin, Shaukat Soofi, Olga Vitseva, Jennifer P. Wang, Krishna Mohan Parsi, René Maehr, and Jane E. Freedman

Subjects

0301 basic medicine, Adult, Blood Platelets, Male, Programmed cell death, Physiology, viruses, Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), Necroptosis, Blotting, Western, Inflammation, Apoptosis, 030204 cardiovascular system & hematology, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Medicine, Humans, Platelet, A549 cell, business.industry, SARS-CoV-2, Serine Endopeptidases, COVID-19, 030104 developmental biology, A549 Cells, Angiotensin-converting enzyme 2, Immunology, Host-Pathogen Interactions, Female, Angiotensin-Converting Enzyme 2, medicine.symptom, Cardiology and Cardiovascular Medicine, business

Abstract

Rationale: Coronavirus disease 2019 (COVID-19) is characterized by increased incidence of microthrombosis with hyperactive platelets sporadically containing viral RNA. It is unclear if SARS-CoV-2 (severe acute respiratory syndrome, corona virus-2) directly alters platelet activation or if these changes are a reaction to infection-mediated global inflammatory alterations. Importantly, the direct effect of SARS-CoV-2 on platelets has yet to be studied. Objective: To characterize the direct SARS-CoV-2–platelet interactions using in vitro studies with purified infectious virions and samples from infected patients. Methods and Results: Platelet RNA analyzed by ARTIC v3 sequencing for SARS-CoV-2 showed presence of fragmented viral genome in all patients with COVID-19. Immunofluorescent imaging of platelets from patients with COVID-19 confirmed presence of SARS-CoV-2 proteins, whereas there was no detection of viral RNA by real-time quantitative polymerase chain reaction. Transmission electron microscopy of platelets incubated with purified SARS-CoV-2 virions demonstrated rapid internalization and digestion leading to distinct morphological changes and resulted in a release of extracellular vesicles. Interactions between SARS-CoV-2 and platelets occurred with or without ACE (angiotensin-converting enzyme) 2 presence as measured by immunofluorescence. Transmission electron microscopy showed that SARS-CoV-2 virions became internalized when they were attached to microparticles, bypassing the need for ACE2. Enrichment analysis of platelet transcriptome from patients with acute COVID-19, compared with those with clinical thrombosis, suggested upregulation of pathways related to virally mediated cell death, specifically necroptosis and apoptosis. Platelets incubated with infectious virus appeared to undergo cell death in 30 minutes postincubation as assessed by transmission electron microscopy and platelets from patients with COVID-19 showed evidence of increased markers of apoptosis and necroptosis by Western blot. Immunofluorescence confirmed colocalization of SARS-CoV-2 with phospho-MLKL (mixed lineage kinase domain-like pseudokinase) and caspase 3 on nonpermeabilized platelets in vitro and in COVID-19 platelets. Conclusions: Platelets internalize SARS-CoV-2 virions, directly or attached to microparticles, and viral internalization leads to rapid digestion, programmed cell death, and extracellular vesicle release. During COVID-19, platelets mediate a rapid response to SARS-CoV-2 and this response can contribute to dysregulated immunity and thrombosis.

Published

2021

4. Characterization of the platelet transcriptome by RNA sequencing in patients with acute myocardial infarction

Author

Olga Vitseva, Nada Esa, David D. McManus, Yanqin Yang, Yoshiyuki Wakabayashi, Andrew D. Johnson, John D. Eicher, Jane E. Freedman, and Jun Zhu

Subjects

Blood Platelets, Male, 0301 basic medicine, Platelet Aggregation, Platelet Function Tests, Population, Myocardial Infarction, RNA-Seq, Article, Transcriptome, Electrocardiography, 03 medical and health sciences, Risk Factors, Humans, Medicine, Platelet, Platelet activation, education, Aged, Aged, 80 and over, education.field_of_study, PDGFB, PDGFC, Sequence Analysis, RNA, business.industry, Gene Expression Profiling, Hematology, General Medicine, Middle Aged, Platelet Activation, 030104 developmental biology, Gene Expression Regulation, Hemostasis, Immunology, Female, business

Abstract

Transcripts in platelets are largely produced in precursor megakaryocytes but remain physiologically active as platelets translate RNAs and regulate protein/RNA levels. Recent studies using transcriptome sequencing (RNA-seq) characterized the platelet transcriptome in limited number of non-diseased individuals. Here, we expand upon these RNA-seq studies by completing RNA-seq in platelets from 32 patients with acute myocardial infarction (MI). Our goals were to characterize the platelet transcriptome using a population of patients with acute MI and relate gene expression to platelet aggregation measures and ST-segment elevation MI (STEMI) (n = 16) vs. non-STEMI (NSTEMI) (n = 16) subtypes. Similar to other studies, we detected 9565 expressed transcripts, including several known platelet-enriched markers (e.g. PPBP, OST4). Our RNA-seq data strongly correlated with independently ascertained platelet expression data and showed enrichment for platelet-related pathways (e.g. wound response, hemostasis, and platelet activation), as well as actin-related and post-transcriptional processes. Several transcripts displayed suggestively higher (FBXL4, ECHDC3, KCNE1, TAOK2, AURKB, ERG, and FKBP5) and lower (MIAT, PVRL3, and PZP) expression in STEMI platelets compared to NSTEMI. We also identified transcripts correlated with platelet aggregation to TRAP (ATP6V1G2, SLC2A3), collagen (CEACAM1, ITGA2), and ADP (PDGFB, PDGFC, ST3GAL6). Our study adds to current platelet gene expression resources by providing transcriptome-wide analyses in platelets isolated from patients with acute MI. In concert with prior studies, we identify various genes for further study in regards to platelet function and acute MI. Future platelet RNA-seq studies examining more diverse sets of healthy and diseased samples will add to our understanding of platelet thrombotic and non-thrombotic functions.

Published

2015

5. Stimulation of Toll-Like Receptor 2 in Human Platelets Induces a Thromboinflammatory Response Through Activation of Phosphoinositide 3-Kinase

Author

Caroline A. Genco, Sybille Rex, Price Blair, Olga Vitseva, Chie Hayashi, Lea M. Beaulieu, Jane E. Freedman, Mark D. Iafrati, Subrata Chakrabarti, and Kahraman Tanriverdi

Subjects

Blood Platelets, Physiology, Integrin, Inflammation, Biology, Article, Proinflammatory cytokine, Mice, Phosphatidylinositol 3-Kinases, Bacteroidaceae Infections, Leukocytes, medicine, Animals, Humans, Protease-activated receptor, Platelet, Toll-like receptor, Innate immune system, Mice, Mutant Strains, Toll-Like Receptor 2, Cell biology, Mice, Inbred C57BL, TLR2, Immunology, biology.protein, medicine.symptom, Cardiology and Cardiovascular Medicine, Porphyromonas gingivalis, Proto-Oncogene Proteins c-akt

Abstract

Cells of the innate immune system use Toll-like receptors (TLRs) to initiate the proinflammatory response to microbial infection. Recent studies have shown acute infections are associated with a transient increase in the risk of vascular thrombotic events. Although platelets play a central role in acute thrombosis and accumulating evidence demonstrates their role in inflammation and innate immunity, investigations into the expression and functionality of platelet TLRs have been limited. In the present study, we demonstrate that human platelets express TLR2, TLR1, and TLR6. Incubation of isolated platelets with Pam3CSK4, a synthetic TLR2/TLR1 agonist, directly induced platelet aggregation and adhesion to collagen. These functional responses were inhibited in TLR2-deficient mice and, in human platelets, by pretreatment with TLR2-blocking antibody. Stimulation of platelet TLR2 also increased P-selectin surface expression, activation of integrin αIIbβ3, generation of reactive oxygen species, and, in human whole blood, formation of platelet–neutrophil heterotypic aggregates. TLR2 stimulation also activated the phosphoinositide 3-kinase (PI3-K)/Akt signaling pathway in platelets, and inhibition of PI3-K significantly reduced Pam3CSK4-induced platelet responses. In vivo challenge with livePorphyromonas gingivalis, a Gram-negative pathogenic bacterium that uses TLR2 for innate immune signaling, also induced significant formation of platelet–neutrophil aggregates in wild-type but not TLR2-deficient mice. Together, these data provide the first demonstration that human platelets express functional TLR2 capable of recognizing bacterial components and activating the platelet thrombotic and/or inflammatory pathways. This work substantiates the role of platelets in the immune and inflammatory response and suggests a mechanism by which bacteria could directly activate platelets.

Published

2009

6. Immune versus thrombotic stimulation of platelets differentially regulates signalling pathways, intracellular protein-protein interactions, and α-granule release

Author

David H. Perlman, Lea M. Beaulieu, Jane E. Freedman, Olga Vitseva, Sybille Rex, Catherine E. Costello, Price Blair, and Mark E. McComb

Subjects

Blood Platelets, Proteomics, Inflammation, Stimulation, Cell Communication, Biology, Cytoplasmic Granules, p38 Mitogen-Activated Protein Kinases, Article, Lipopeptides, Phosphatidylinositol 3-Kinases, Thrombin, medicine, Humans, Platelet, Platelet activation, Phosphorylation, Extracellular Signal-Regulated MAP Kinases, Protein kinase B, Thrombosis, Hematology, Platelet Activation, Toll-Like Receptor 2, Cell biology, Adenosine Diphosphate, TLR2, Biochemistry, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Signal transduction, medicine.symptom, Factor XIIIa, Proto-Oncogene Proteins c-akt, Signal Transduction, medicine.drug

Abstract

SummaryIn addition to haemostasis, platelets mediate inflammation and clearance of bacteria from the bloodstream. As with platelet-platelet interactions, platelet-bacteria interactions involve cytoskeletal rearrangements and release of granular content. Stimulation of the immune Toll-like receptor 2 (TLR2) on the platelet surface, activates phosphoinositide-3-kinase (PI3K) and causes platelet activation and plateletdependent thrombosis. It remains unknown if platelet activation by immune versus thrombotic pathways leads to the differential regulation of signal transduction, protein-protein interactions, and α-granule release, and the physiological relevance of these potential differences. We investigated these processes after immune versus thrombotic platelet stimulation. We examined selected signalling pathways and found that phosphorylation kinetics of Akt, ERK1/2 and p38 differed dramatically between agonists. Next, we investigated platelet protein-protein interactions by mass spectrometry (MS)-based proteomics specifically targeting cytosolic factor XIIIa (FXIIIa) because of its function as a cytoskeleton-crosslinking protein whose binding partners have limited characterisation. Four FXIIIa-binding proteins were identified, two of which are novel interactions: FXIIIa-focal adhesion kinase (FAK) and FXIIIa-gelsolin. The binding of FAK to FXIIIa was found to be altered differentially by immune versus thrombotic stimulation. Lastly, we studied the effect of thrombin versus Pam3CSK4 stimulation on α-granule release and observed differential release patterns for selected granule proteins and decreased fibrin clot formation compared with thrombin. The inhibition of PI3K caused a decrease in protein release after Pam3CSK4 -but not after thrombin-stimulation. In summary, stimulation of platelets by either thrombotic or immune receptors leads to markedly different signalling responses and granular protein release consistent with differential contribution to coagulation and thrombosis.

Published

2009

7. Platelet functional and transcriptional changes induced by intralipid infusion

Author

Kahraman Tanriverdi, Naomi M. Hamburg, Olga Vitseva, Lea M. Beaulieu, Joseph A. Vita, Jane E. Freedman, Eric Mick, and Alper Kucukural

Subjects

0301 basic medicine, Adult, Blood Platelets, Male, medicine.medical_specialty, Oligomycin, Platelet Aggregation, Transcription, Genetic, Motility, Inflammation, 030204 cardiovascular system & hematology, Mitochondrion, Biology, Diet, High-Fat, 03 medical and health sciences, chemistry.chemical_compound, Young Adult, 0302 clinical medicine, Internal medicine, Gene expression, medicine, Humans, RNA, Small Nucleolar, Platelet, RNA, Messenger, Infusions, Intravenous, Phospholipids, Aged, Hematology, Heparin, Middle Aged, medicine.disease, Thrombosis, Healthy Volunteers, Soybean Oil, MicroRNAs, 030104 developmental biology, Endocrinology, chemistry, Biochemistry, Emulsions, Female, medicine.symptom, medicine.drug

Abstract

SummaryMultiple studies have shown the effects of long-term exposure to high-fat or western diets on the vascular system. There is limited knowledge on the acute effects of high circulating fat levels, specifically on platelets, which have a role in many processes, including thrombosis and inflammation. This study investigated the effects of acute, high-fat exposure on platelet function and transcript profile. Twenty healthy participants were given an intravenous infusion of 20% Intralipid emulsion and heparin over 6 hours. Blood samples were taken prior to and the day after infusion to measure platelet function and transcript expression levels. Platelet aggregation was not significantly affected by Intralipid infusion, but, when mitochondria function was inhibited by carbonyl cyanide 3-chlorophenylhydrazone (CCCP) or oligomycin, platelet aggregation was higher in the post-infusion state compared to baseline. Through RNA sequencing, and verified by RT-qPCR, 902 miRNAs and 617 mRNAs were affected by Intralipid infusion. MicroRNAs increased include miR-4259 and miR-346, while miR-517b and miR-517c are both decreased. Pathway analysis identified two clusters significantly enriched, including cell motility. In conclusion, acute exposure to high fat affects mitochondrial-dependent platelet function, as well as the transcript profile.

Published

2015

8. CD40 Ligand Influences Platelet Release of Reactive Oxygen Intermediates

Author

Olga Vitseva, Subrata Chakrabarti, Sonia Varghese, Kahraman Tanriverdi, and Jane E. Freedman

Subjects

Blood Platelets, CD40 Ligand, Nitric Oxide, medicine.disease_cause, p38 Mitogen-Activated Protein Kinases, Nitric oxide, Mice, Phosphatidylinositol 3-Kinases, chemistry.chemical_compound, medicine, Animals, Platelet, Platelet activation, Phosphorylation, Protein kinase B, Reactive nitrogen species, chemistry.chemical_classification, Reactive oxygen species, Chemistry, Thrombosis, Atherosclerosis, Reactive Nitrogen Species, Mice, Mutant Strains, Recombinant Proteins, Cell biology, Oxidative Stress, Solubility, Biochemistry, Reactive Oxygen Species, Cardiology and Cardiovascular Medicine, Proto-Oncogene Proteins c-akt, Oxidative stress

Abstract

Objective— Soluble CD40 ligand (sCD40L) has been recently implicated in the pathogenesis of atherosclerosis. Elevated levels of sCD40L in acute coronary syndrome patients suggests enhanced platelet function; however, the exact mechanism by which this occurs is unknown. In this study, we examined the effect of sCD40L on platelet function and reactive oxygen and nitrogen species (RONS) generation. Methods and Results— Platelet stimulation in the presence of recombinant sCD40L (rsCD40L) led to enhanced generation of RONS as measured by DCFHDA oxidation and confocal microscopy. Incubation with rsCD40L led to enhanced platelet P-selectin expression, aggregation, and platelet-leukocyte conjugation. Platelets isolated from CD40L-deficient mice had decreased agonist-induced NO release as compared with wild-type mice. Incubation of platelets with rsCD40L enhanced stimulation-induced p38 MAP kinase and Akt phosphorylation. Conclusion— Soluble CD40L enhances platelet activation, aggregation, and platelet-leukocyte conjugation, as well as increases stimulation-induced platelet release of RONS through activation of Akt and p38 MAP kinase signaling pathways. These data suggest that sCD40L regulates platelet-dependent inflammatory and thrombotic responses that contribute to the pathogenesis of atherothrombosis.

Published

2005

9. Grape Seed and Skin Extracts Inhibit Platelet Function and Release of Reactive Oxygen Intermediates

Author

Jane E. Freedman, Subrata Chakrabarti, Olga Vitseva, John D. Folts, and Sonia Varghese

Subjects

Blood Platelets, Antioxidant, Platelet Aggregation, medicine.medical_treatment, CD40 Ligand, Nitric Oxide, Nitric oxide, chemistry.chemical_compound, Reference Values, Superoxides, medicine, Humans, Vitis, Platelet, Food science, Sugar, Incubation, Pharmacology, chemistry.chemical_classification, Reactive oxygen species, Microscopy, Confocal, Plant Extracts, Superoxide, fungi, food and beverages, Free Radical Scavengers, Purple Grape Juice, chemistry, Biochemistry, Seeds, Reactive Oxygen Species, Cardiology and Cardiovascular Medicine

Abstract

Red wine and purple grape juice contain polymeric flavonoids with antioxidant properties believed to be protective against cardiovascular events but the alcohol and sugar content of these beverages has curtailed their medicinal use. Acute cardiac events are also associated with enhanced inflammation and thrombosis. In this study, the extracts from grape skins or seeds were examined for their anti-inflammatory properties and effect on platelet release of reactive oxygen intermediates. Incubation of platelets with seed or skin extract led to a decrease in platelet aggregation from 68.8+/-19.8% to 45+/-3.6% for seeds and to 27+/-7.2% for skin, respectively (P

Published

2005

10. Platelet-TLR7 mediates host survival and platelet count during viral infection in the absence of platelet-dependent thrombosis

Author

Eric Mick, Evelyn A. Kurt-Jones, Milka Koupenova, Katya Ravid, Christopher R. MacKay, Jane E. Freedman, Lea M. Beaulieu, Emelia J. Benjamin, and Olga Vitseva

Subjects

Blood Platelets, Male, Neutrophils, media_common.quotation_subject, Immunology, Cell, Lipopolysaccharide Receptors, Stimulation, Biology, Biochemistry, Virus, Cell Degranulation, Mice, Immune system, medicine, Cardiovirus Infections, Animals, Humans, Platelet, Encephalomyocarditis virus, Internalization, Receptor, media_common, Mice, Knockout, Membrane Glycoproteins, Platelet Count, Secretory Vesicles, virus diseases, Thrombosis, Cell Biology, Hematology, TLR7, medicine.anatomical_structure, Toll-Like Receptor 7, Female

Abstract

Viral infections have been associated with reduced platelet counts, the biological significance of which has remained elusive. Here, we show that infection with encephalomyocarditis virus (EMCV) rapidly reduces platelet count, and this response is attributed to platelet Toll-like receptor 7 (TLR7). Platelet-TLR7 stimulation mediates formation of large platelet-neutrophil aggregates, both in mouse and human blood. Intriguingly, this process results in internalization of platelet CD41-fragments by neutrophils, as assessed biochemically and visualized by microscopy, with no influence on platelet prothrombotic properties. The mechanism includes TLR7-mediated platelet granule release, translocation of P-selectin to the cell surface, and a consequent increase in platelet-neutrophil adhesion. Viral infection of platelet-depleted mice also led to increased mortality. Transfusion of wild-type, TLR7-expressing platelets into TLR7-deficient mice caused a drop in platelet count and increased survival post EMCV infection. Thus, this study identifies a new link between platelets and their response to single-stranded RNA viruses that involves activation of TLR7. Finally, platelet-TLR7 stimulation is independent of thrombosis and has implications to the host immune response and survival.

Published

2014

11. Platelets and platelet-like particles mediate intercellular RNA transfer

Author

Antonina Risitano, Olga Vitseva, Lea M. Beaulieu, and Jane E. Freedman

Subjects

Blood Platelets, Cell signaling, Gene Transfer, Horizontal, Immunology, Cell Communication, Biology, Biochemistry, Mice, Immune system, Nucleated cell, Cell-Derived Microparticles, Paracrine Communication, Human Umbilical Vein Endothelial Cells, Animals, Humans, Platelet, Protease-activated receptor, Cells, Cultured, Mice, Knockout, Messenger RNA, RNA, Cell Biology, Hematology, Non-coding RNA, Platelets and Thrombopoiesis, Coculture Techniques, Cell biology, Mice, Inbred C57BL

Abstract

The role of platelets in hemostasis and thrombosis is clearly established; however, the mechanisms by which platelets mediate inflammatory and immune pathways are less well understood. Platelets interact and modulate the function of blood and vascular cells by releasing bioactive molecules. Although the platelet is anucleate, it contains transcripts that may mirror disease. Platelet mRNA is only associated with low-level protein translation; however, platelets have a unique membrane structure allowing for the passage of small molecules, leading to the possibility that its cytoplasmic RNA may be passed to nucleated cells. To examine this question, platelet-like particles with labeled RNA were cocultured with vascular cells. Coculture of platelet-like particles with activated THP-1, monocytic, and endothelial cells led to visual and functional RNA transfer. Posttransfer microarray gene expression analysis of THP-1 cells showed an increase in HBG1/HBG2 and HBA1/HBA2 expression that was directly related to the transfer. Infusion of wild-type platelets into a TLR2-deficient mouse model established in vivo confirmation of select platelet RNA transfer to leukocytes. By specifically transferring green fluorescent protein, we also observed external RNA was functional in the recipient cells. The observation that platelets possess the capacity to transfer cytosolic RNA suggests a new function for platelets in the regulation of vascular homeostasis.

Published

2012

12. The effect of dipyridamole on vascular cell-derived reactive oxygen species

Author

Subrata Chakrabarti, Olga Vitseva, David Iyu, Sonia Varghese, and Jane E. Freedman

Subjects

Blood Platelets, Antioxidant, medicine.medical_treatment, Vasodilation, Pharmacology, In Vitro Techniques, medicine.disease_cause, Nitric Oxide, Antioxidants, Nitric oxide, chemistry.chemical_compound, tert-Butylhydroperoxide, Superoxides, Oxazines, medicine, Humans, Platelet, CD40 Antigens, Coloring Agents, Cells, Cultured, chemistry.chemical_classification, Reactive oxygen species, CD40, Microscopy, Confocal, biology, Endothelial Cells, Thrombosis, Dipyridamole, Flow Cytometry, Reactive Nitrogen Species, chemistry, Biochemistry, Xanthenes, biology.protein, Molecular Medicine, Reactive Oxygen Species, Oxidation-Reduction, Oxidative stress, Platelet Aggregation Inhibitors, medicine.drug, Muscle Contraction

Abstract

Platelet and vascular stimulation leads to release of reactive oxygen species (ROS) that are known to influence vascular reactivity and thrombosis. Dipyridamole is a vasodilator and platelet inhibitor that has previously been shown to have direct antioxidant properties. The antioxidant effects of dipyridamole on vascular cell-derived ROS are not known; therefore, dipyridamole was incubated with endothelial cells and platelets and cellular redox status and release of endogenous ROS were assessed. Dipyridamole decreased intracellular basal ROS generation from endothelial cells as measured by DCFDA (2',7'-dichlorodihydrofluorescein diacetate) oxidation. Incubation of endothelial cells with dipyridamole also attenuated t-butylhydroperoxide-induced oxidative stress. Using a redox-sensitive fluorescent dye, dipyridamole improved cellular activity after treatment with t-butylhydroperoxide. Incubation with dipyridamole did not alter platelet release of nitric oxide or hydrogen peroxide but significantly attenuated superoxide release. Using flow cytometry and confocal microscopy, dipyridamole decreased platelet ROS generation. Dipyridamole also suppressed platelet-soluble CD40 ligand release. In summary, at therapeutically relevant concentrations, dipyridamole suppresses the formation of ROS in platelets and endothelial cells and improves cellular redox status. These data suggest that the redox-dependent properties of dipyridamole have a direct effect on vascular cells.

Published

2005

13. Plasma, serum, and platelet expression of CD40 ligand in adults with cardiovascular disease

Author

Sybille Rex, Peter J. Mason, Anne A. Albers, Subrata Chakrabarti, Sonia Varghese, Jane E. Freedman, and Olga Vitseva

Subjects

Adult, Blood Platelets, Male, medicine.medical_specialty, Platelet Function Tests, CD40 Ligand, Blood Pressure, Coronary Artery Disease, Internal medicine, Blood plasma, Gene expression, medicine, Humans, Platelet, Platelet activation, Aged, Aged, 80 and over, CD40, biology, business.industry, Platelet Count, Middle Aged, Ligand (biochemistry), Platelet Activation, Thromboxane B2, Endocrinology, C-Reactive Protein, Cardiovascular Diseases, Circulatory system, biology.protein, Biomarker (medicine), Female, Cardiology and Cardiovascular Medicine, business, Biomarkers

Abstract

The application of soluble CD40 ligand (sCD40L) as a biomarker has garnered great scientific and clinical interest. However, there are many uncertainties with regard to the biology of sCD40L. Although presumed to be a marker of platelet activation, relative levels in plasma, serum, and platelet expression are unknown, as is the optimal method for its measurement. We measured CD40L from serum, platelet-poor plasma, and platelet surface in adults who had stable cardiovascular disease (CVD) and those who had unstable CVD (n = 40). Plasma sCD40L did not differ significantly between groups. Serum sCD40L was significantly lower (1.4 +/- 1.3 vs 5.2 +/- 3.7 ng/ml, p0.001) and platelet membrane CD40L expression was higher (1.4 +/- 0.7% vs 0.9 +/- 0.6%, p = 0.03) in unstable compared with stable CVD. When the 2 groups were considered together, there was a significant correlation between plasma and serum sCD40L levels (rho = 0.4, p = 0.02) and negative correlations between plasma (rho = -0.3, p = 0.04) and serum (rho = -0.4, p = 0.01) sCD40L levels with platelet membrane CD40L expression. In unstable CVD, the correlation between sCD40L measurements was poor. Consistent with enhanced platelet activation, there was a positive correlation between platelet aggregation and surface CD40L expression (rho = 0.5, p = 0.02) and between platelet expression of CD40L and P-selectin (rho = 0.4, p = 0.05) in unstable CVD. There was no correlation between CD40L and platelet count or C-reactive protein. Only surface expression of CD40L compared with platelet-derived (plasma) or total (serum) CD40L level proved a reliable marker of platelet function in patients who had stable CVD and those who had unstable CVD. In conclusion, our data demonstrate the complex nature of CD40L and highlight the distinct processes of expression, shedding, and clearance of this ligand in patient populations.

Published

2005

14. The effects of tamoxifen and its metabolites on platelet function and release of reactive oxygen intermediates

Author

Jane E. Freedman, Olga Vitseva, David A. Flockhart, Sonia Varghese, and Y. Jin

Subjects

Blood Platelets, Male, medicine.medical_specialty, Platelet Aggregation, Pharmacology, Nitric Oxide, Nitric oxide, Superoxide dismutase, chemistry.chemical_compound, Internal medicine, medicine, Humans, Platelet, Platelet activation, skin and connective tissue diseases, Incubation, chemistry.chemical_classification, Reactive oxygen species, NADPH oxidase, biology, Estradiol, Estrogen Antagonists, NADPH Oxidases, Phosphoproteins, Tamoxifen, Endocrinology, chemistry, biology.protein, Molecular Medicine, Female, Reactive Oxygen Species, hormones, hormone substitutes, and hormone antagonists, medicine.drug

Abstract

Tamoxifen is effective in the prevention and treatment of breast cancer, but its use is associated with an increased risk of thrombosis. The mechanism for this effect is unknown. Reactive oxygen intermediates enhance platelet-dependent thrombosis, and in oncological studies, tamoxifen has been shown to increase production of reactive oxygen species. Therefore, the effects of tamoxifen and its bioactive metabolites on platelet activity and platelet reactive oxygen species were determined. Platelets were incubated with tamoxifen or the metabolites 4-hydroxy-tamoxifen (4-OH), N-desmethyl tamoxifen, or 4-hydroxy-N-desmethyl tamoxifen (endoxifen). Tamoxifen metabolites have been previously shown to possess enhanced bioactivity, and consistent with this observation, tamoxifen metabolites but not tamoxifen modestly increased platelet aggregation. These effects were similar with platelets isolated from male or female subjects. Platelet nitric oxide release or cGMP levels were not altered by incubation with tamoxifen or any of its metabolites. Incubation with tamoxifen metabolites increased stimulation-dependent platelet superoxide release [8.1 +/- 1.6 arbitrary units (a.u.) for control versus 15.2 +/- 3.5 a.u. for 4-OH; P < 0.01]. Coincubation with a superoxide dismutase mimetic eliminated the tamoxifen metabolite-induced enhancement of platelet aggregation. Corresponding to increased superoxide release, incubation with tamoxifen metabolites enhanced the functional activation of NADPH oxidase as determined by phosphorylation of its subunits p47(phox) and p67(phox). In summary, incubation of platelets with the active metabolites of tamoxifen increases stimulation-dependent superoxide release through a NADPH oxidase-dependent mechanism. This results in modest changes in platelet function and seems to be consistent with previous oncological studies demonstrating tamoxifen-dependent increase in reactive oxygen species generation.

Published

2004