Your search keyword '"Blood Platelets ultrastructure"' showing total 3,754 results

1. Time-dependent ultrastructural changes during venous thrombogenesis and thrombus resolution.

Author

Chernysh IN, Mukhopadhyay S, Johnson TA, Brooks JA, Sarkar R, Weisel JW, and Antalis TM

Subjects

Animals, Mice, Time Factors, Plasminogen Activator Inhibitor 1 metabolism, Plasminogen Activator Inhibitor 1 genetics, Fibrin metabolism, Fibrin ultrastructure, Mice, Inbred C57BL, Disease Models, Animal, Mice, Knockout, Blood Platelets metabolism, Blood Platelets ultrastructure, Male, Venous Thrombosis pathology, Venous Thrombosis blood, Venous Thrombosis genetics, Microscopy, Electron, Scanning

Abstract

Background: Deep vein thrombosis is a common vascular event that can result in debilitating morbidity and even death due to pulmonary embolism. Clinically, patients with faster resolution of a venous thrombus have improved prognosis, but the detailed structural information regarding changes that occur in a resolving thrombus over time is lacking., Objectives: To define the spatial-morphologic characteristics of venous thrombus formation, propagation, and resolution at the submicron level over time., Methods: Using a murine model of stasis-induced deep vein thrombosis along with scanning electron microscopy and immunohistology, we determine the specific structural, compositional, and morphologic characteristics of venous thrombi formed after 4 days and identify the changes that take place during resolution by day 7. Comparison is made with the structure and composition of venous thrombi formed in mice genetically deficient in plasminogen activator inhibitor type 1., Results: As venous thrombus resolution progresses, fibrin exists in different structural forms, and there are dynamic cellular changes in the compositions of leukocytes, platelet aggregates, and red blood cells. Intrathrombus microvesicles are present that are not evident by histology, and red blood cells in the form of polyhedrocytes are an indicator of clot contraction. Structural evidence of fibrinolysis is observed early during thrombogenesis and is accelerated by plasminogen activator inhibitor type 1 deficiency., Conclusion: The results reveal unique, detailed ultrastructural and compositional insights along with documentation of the dynamic changes that occur during accelerated resolution that are not evident by standard pathologic procedures and can be applied to inform diagnosis and effectiveness of thrombolytic treatments to improve patient outcomes., Competing Interests: Declaration of competing interests There are no competing interests to disclose., (Published by Elsevier Inc.)

Published

2024

2. "Ultrastructural changes of platelets in COVID-19 and chronic viral hepatitis patients ".

Author

Mohamed Hassan AS, Abo Gaziah SSA, Ezzelregal Awad HG, Hegab Abdelhady SM, Talaat Elkhafif NA, and Hassan Mostafa NB

Subjects

Humans, Male, Female, Middle Aged, Adult, SARS-CoV-2, Fibrin Fibrinogen Degradation Products analysis, Platelet Count, Hepatitis C, Chronic complications, Hepatitis C, Chronic blood, Hepatitis C, Chronic pathology, Aged, Platelet Factor 4 blood, Platelet Activation, COVID-19 complications, COVID-19 blood, COVID-19 pathology, Blood Platelets ultrastructure

Abstract

Platelet-viral interactions are evolving as a new concern. Coagulation disorder is a major consequence of the COVID-19 infection. In chronic hepatitis virus infections, defect in coagulation factors, thrombocytopenia and platelet function abnormalities are common. A SARS-CoV-2 infection on top of chronic viral hepatitis infection can be common in areas where viral hepatitis is endemic. Here, we investigate the platelet ultrastructural changes and estimate the serum platelet factor-4 (PF-4), ferritin, CRP, and D-dimer in COVID-19 patients ( n  = 60), COVID-19 patients with associated chronic viral hepatitis ( n  = 20), and healthy subjects ( n  = 20). Ultrastructural changes were demonstrated in all test groups, denoting platelet activation. In chronic viral hepatitis patients, Platelet ultrastrustural apoptotic changes were also seen. Significantly high levels of PF-4 were confirmed in moderate and severe COVID-19 patients (P.value <0.001), with a cut off value of 17 ng/ml for predicting disease severity. A positive correlation of PF-4 with the level of serum ferritin, CRP, and D-dimer ( p value < 0.001) was noted, while negatively correlated with platelet count and platelet granule count ( p value < 0.001). In our study, chronic viral hepatitis patients presented mild COVID-19 signs, and their PF-4 level was comparable with the subgroup of mild COVID-19 infection. The platelet's critical role in COVID-19 coagulopathy and chronic viral hepatitis is evidenced by the ultrastructural changes and the high levels of PF4. Moreover, a dual viral infection poses a substantial burden on the platelets, necessitating close monitoring of the patient's coagulation profile.

Published

2024

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

Author

Matharu SS, Nordmann CS, Ottman KR, Akkem R, Palumbo D, Cruz DRD, Campbell K, Sievert G, Sturgill J, Porterfield JZ, Joshi S, Alfar HR, Peng C, Pokrovskaya ID, Kamykowski JA, Wood JP, Garvy B, Aronova MA, Whiteheart SW, Leapman RD, and Storrie B

Subjects

Humans, RNA, Viral, SARS-CoV-2, Blood Platelets ultrastructure, Organelles, Deep Learning, COVID-19

Abstract

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

Published

2023

4. A GP1BA Variant in a Czech Family with Monoallelic Bernard-Soulier Syndrome.

Author

Skalníková M, Staňo Kozubík K, Trizuljak J, Vrzalová Z, Radová L, Réblová K, Holbová R, Kurucová T, Svozilová H, Štika J, Blaháková I, Dvořáčková B, Prudková M, Stehlíková O, Šmída M, Křen L, Smejkal P, Pospíšilová Š, and Doubek M

Subjects

Bernard-Soulier Syndrome blood, Blood Platelets metabolism, Blood Platelets ultrastructure, Czech Republic, DNA Mutational Analysis, Female, Genetic Association Studies, Humans, Immunophenotyping, Male, Pedigree, Platelet Count, Platelet Glycoprotein GPIb-IX Complex metabolism, Thrombocytopenia blood, Thrombocytopenia diagnosis, Alleles, Bernard-Soulier Syndrome diagnosis, Bernard-Soulier Syndrome genetics, Genetic Predisposition to Disease, Genetic Variation, Phenotype, Platelet Glycoprotein GPIb-IX Complex genetics

Abstract

Bernard-Soulier syndrome (BSS) is a rare inherited disorder characterized by unusually large platelets, low platelet count, and prolonged bleeding time. BSS is usually inherited in an autosomal recessive (AR) mode of inheritance due to a deficiency of the GPIb-IX-V complex also known as the von Willebrand factor (VWF) receptor. We investigated a family with macrothrombocytopenia, a mild bleeding tendency, slightly lowered platelet aggregation tests, and suspected autosomal dominant (AD) inheritance. We have detected a heterozygous GP1BA likely pathogenic variant, causing monoallelic BSS. A germline GP1BA gene variant (NM&#95;000173:c.98G > A:p.C33Y), segregating with the macrothrombocytopenia, was detected by whole-exome sequencing. In silico analysis of the protein structure of the novel GPIbα variant revealed a potential structural defect, which could impact proper protein folding and subsequent binding to VWF. Flow cytometry, immunoblot, and electron microscopy demonstrated further differences between p.C33Y GP1BA carriers and healthy controls. Here, we provide a detailed insight into its clinical presentation and phenotype. Moreover, the here described case first presents an mBSS patient with two previous ischemic strokes.

Published

2022

5. Increased Circulating Cell-Free DNA in Eosinophilic Granulomatosis With Polyangiitis: Implications for Eosinophil Extracellular Traps and Immunothrombosis.

Author

Hashimoto T, Ueki S, Kamide Y, Miyabe Y, Fukuchi M, Yokoyama Y, Furukawa T, Azuma N, Oka N, Takeuchi H, Kanno K, Ishida-Yamamoto A, Taniguchi M, Hashiramoto A, and Matsui K

Subjects

Aged, Antibodies, Antineutrophil Cytoplasmic blood, Antibodies, Antineutrophil Cytoplasmic immunology, Biomarkers, Blood Platelets immunology, Blood Platelets metabolism, Blood Platelets pathology, Blood Platelets ultrastructure, Diagnosis, Differential, Disease Susceptibility immunology, Extracellular Traps immunology, Extracellular Traps metabolism, Female, Fibrin Fibrinogen Degradation Products, Granulomatosis with Polyangiitis diagnosis, Granulomatosis with Polyangiitis therapy, Humans, Immunosuppressive Agents therapeutic use, Kidney Function Tests, Leukocyte Count, Liquid Biopsy methods, Male, Microscopic Polyangiitis diagnosis, Middle Aged, Platelet Aggregation, Cell-Free Nucleic Acids, Eosinophils immunology, Eosinophils metabolism, Eosinophils pathology, Granulomatosis with Polyangiitis etiology, Granulomatosis with Polyangiitis metabolism, Thromboinflammation complications, Thromboinflammation diagnosis, Thromboinflammation etiology, Thromboinflammation immunology

Abstract

Background: Endogenous DNA derived from nuclei or mitochondria is released into the blood circulation as cell-free DNA (cfDNA) following cell damage or death. cfDNA is associated with various pathological conditions; however, its clinical significance in antineutrophil cytoplasmic antibody-associated vasculitis (AAV) remains unclear. This study aimed to evaluate the clinical significance of cfDNA in AAV., Methods: We enrolled 35 patients with AAV, including 10 with eosinophilic granulomatosis with polyangiitis (EGPA), 13 with microscopic polyangiitis, and 12 with granulomatosis with polyangiitis. Serum cf-nuclear DNA (cf-nDNA) and cf-mitochondrial DNA (cf-mtDNA) levels were measured by quantitative polymerase chain reaction before and after the initiation of immunosuppressive therapy. Tissue samples from EGPA patients were examined by immunofluorescence and transmission electron microscopy. The structure of eosinophil extracellular traps (EETs) and neutrophil extracellular traps (NETs) and stability against DNase were assessed in vitro . Platelet adhesion of EETs were also assessed., Results: Serum cf-nDNA and cf-mtDNA levels were significantly higher in AAV than in healthy controls, with the highest levels in EGPA; however, serum DNase activities were comparable among all groups. cf-nDNA and cf-mtDNA decreased after treatment and were associated with disease activity only in EGPA. Blood eosinophil count and plasma D-dimer levels were significantly correlated with cf-nDNA in EGPA and cf-mtDNA. EGPA tissue samples showed lytic eosinophils and EETs in small-vessel thrombi. The structure of EETs showed bolder net-like chromatin threads in vitro and EETs showed greater stability against DNase than NETs. EETs provided a scaffold for platelet adhesion., Conclusion: cfDNA was increased in EGPA, associated with disease activity. The presence of DNase-resistant EETs in small-vessel thrombi might contribute to higher concentration of cfDNA and the occurrence of immunothrombosis in EGPA., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Hashimoto, Ueki, Kamide, Miyabe, Fukuchi, Yokoyama, Furukawa, Azuma, Oka, Takeuchi, Kanno, Ishida-Yamamoto, Taniguchi, Hashiramoto and Matsui.)

Published

2022

6. Severe Congenital Thrombocytopenia Characterized by Decreased Platelet Sialylation and Moderate Complement Activation Caused by Novel Compound Heterozygous Variants in GNE .

Author

Smolag KI, Fager Ferrari M, Zetterberg E, Leinoe E, Ek T, Blom AM, Rossing M, and Martin M

Subjects

Adolescent, Alleles, Blood Platelets immunology, Blood Platelets ultrastructure, Complement System Proteins immunology, Complement System Proteins metabolism, Genetic Association Studies, Genetic Predisposition to Disease, Hemolysis, Humans, Leukocytes metabolism, Leukocytes pathology, Male, N-Acetylneuraminic Acid metabolism, Phenotype, Platelet Function Tests, Thrombocytopenia blood, Whole Genome Sequencing, Blood Platelets metabolism, Complement Activation immunology, Heterozygote, Multienzyme Complexes genetics, Mutation, Thrombocytopenia diagnosis, Thrombocytopenia etiology

Abstract

Background: Hereditary thrombocytopenias constitute a genetically heterogeneous cause of increased bleeding. We report a case of a 17-year-old boy suffering from severe macrothrombocytopenia throughout his life. Whole genome sequencing revealed the presence of two compound heterozygous variants in GNE encoding the enzyme UDP- N -acetyl-glucosamine-2-epimerase/ N -acetylmannosamine kinase, crucial for sialic acid biosynthesis. Sialic acid is required for normal platelet life span, and biallelic variants in GNE have previously been associated with isolated macrothrombocytopenia. Furthermore, sialic acid constitutes a key ligand for complement factor H (FH), an important inhibitor of the complement system, protecting host cells from indiscriminate attack., Methods: Sialic acid expression and FH binding to platelets and leukocytes was evaluated by flow cytometry. The binding of FH to erythrocytes was assessed indirectly by measuring the rate of complement mediated hemolysis. Complement activation was determined by measuring levels of C3bBbP (alternative pathway), C4d (classical/lectin pathway) and soluble terminal complement complex assays., Results: The proband exhibited markedly decreased expression of sialic acid on platelets and leukocytes. Consequently, the binding of FH was strongly reduced and moderate activation of the alternative and classical/lectin complement pathways was observed, together with an increased rate of erythrocyte lysis., Conclusion: We report two previously undescribed variants in GNE causing severe congenital macrothrombocytopenia in a compound heterozygous state, as a consequence of decreased platelet sialylation. The decreased sialylation of platelets, leukocytes and erythrocytes affects the binding of FH, leading to moderate complement activation and increased hemolysis., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Smolag, Fager Ferrari, Zetterberg, Leinoe, Ek, Blom, Rossing and Martin.)

Published

2021

7. Platelet Function, Role in Thrombosis, Inflammation, and Consequences in Chronic Myeloproliferative Disorders.

Author

Repsold L and Joubert AM

Subjects

Animals, Blood Platelets ultrastructure, Chronic Disease, Humans, Receptors, Cell Surface metabolism, Blood Platelets pathology, Inflammation blood, Inflammation pathology, Myeloproliferative Disorders blood, Myeloproliferative Disorders physiopathology, Thrombosis blood, Thrombosis physiopathology

Abstract

Platelets are conventionally defined as playing a vital role in homeostasis and thrombosis. This role has over the years transformed as knowledge regarding platelets has expanded to include inflammation, cancer progression, and metastasis. Upon platelet activation and subsequent aggregation, platelets release a host of various factors, including numerous pro-inflammatory factors. These pro-inflammatory factors are recruiters and activators of leukocytes, aiding in platelets' immune regulating function and inflammatory function. These various platelet functions are interrelated; activation of the inflammatory function results in thrombosis and, moreover, in various disease conditions, can result in worsened or chronic pathogenesis, including cancer. The role and contribution of platelets in a multitude of pathophysiological events during hemostasis, thrombosis, inflammation, cancer progression, and metastasis is an important focus for ongoing research. Platelet activation as discussed here is present in all platelet functionalities and can result in a multitude of factors and signaling pathways being activated. The cross-talk between inflammation, cancer, and platelets is therefore an ideal target for research and treatment strategies through antiplatelet therapy. Despite the knowledge implicating platelets in these mentioned processes, there is, nevertheless, limited literature available on the involvement and impact of platelets in many diseases, including myeloproliferative neoplasms. The extensive role platelets play in the processes discussed here is irrefutable, yet we do not fully understand the complete interrelation and extent of these processes.

Published

2021

8. Essential role of zyxin in platelet biogenesis and glycoprotein Ib-IX surface expression.

Author

Yan R, Ge X, Pang N, Ye H, Yuan L, Cheng B, Zhou K, Yang M, Sun Y, Zhang S, Ding Z, Luo J, Ruan C, and Dai K

Subjects

Actin Cytoskeleton metabolism, Actin Cytoskeleton ultrastructure, Animals, Blood Platelets ultrastructure, Bone Marrow ultrastructure, Cell Adhesion Molecules metabolism, Cell Differentiation, Cell Line, Female, Fibrinogen pharmacology, Humans, Lysosomes metabolism, Male, Megakaryocytes metabolism, Megakaryocytes ultrastructure, Mice, Mice, Inbred C57BL, Microfilament Proteins metabolism, Microtubules metabolism, Microtubules ultrastructure, Mutant Proteins metabolism, Phosphoproteins metabolism, Platelet Count, Protein Binding drug effects, Proteolysis, Proteomics, RNA, Messenger genetics, RNA, Messenger metabolism, Thrombin pharmacology, Thrombocytopenia, Zyxin deficiency, Blood Platelets metabolism, Cell Membrane metabolism, Platelet Glycoprotein GPIb-IX Complex metabolism, Zyxin metabolism

Abstract

Platelets are generated from the cytoplasm of megakaryocytes (MKs) via actin cytoskeleton reorganization. Zyxin is a focal adhesion protein and wildly expressed in eukaryotes to regulate actin remodeling. Zyxin is upregulated during megakaryocytic differentiation; however, the role of zyxin in thrombopoiesis is unknown. Here we show that zyxin ablation results in profound macrothrombocytopenia. Platelet lifespan and thrombopoietin level were comparable between wild-type and zyxin-deficient mice, but MK maturation, demarcation membrane system formation, and proplatelet generation were obviously impaired in the absence of zyxin. Differential proteomic analysis of proteins associated with macrothrombocytopenia revealed that glycoprotein (GP) Ib-IX was significantly reduced in zyxin-deficient platelets. Moreover, GPIb-IX surface level was decreased in zyxin-deficient MKs. Knockdown of zyxin in a human megakaryocytic cell line resulted in GPIbα degradation by lysosomes leading to the reduction of GPIb-IX surface level. We further found that zyxin was colocalized with vasodilator-stimulated phosphoprotein (VASP), and loss of zyxin caused diffuse distribution of VASP and actin cytoskeleton disorganization in both platelets and MKs. Reconstitution of zyxin with VASP binding site in zyxin-deficient hematopoietic progenitor cell-derived MKs restored GPIb-IX surface expression and proplatelet generation. Taken together, our findings identify zyxin as a regulator of platelet biogenesis and GPIb-IX surface expression through VASP-mediated cytoskeleton reorganization, suggesting possible pathogenesis of macrothrombocytopenia., (© 2021. The Author(s).)

Published

2021

9. The strategy of modulation blood responses by surface modification with different functional groups on polyester film.

Author

Zhong R, He Z, Zhang X, Han D, Wang H, and Liu J

Subjects

Adsorption, Blood Coagulation drug effects, Blood Platelets drug effects, Blood Platelets metabolism, Blood Platelets ultrastructure, Complement Activation drug effects, Fibrinogen metabolism, Hemolysis drug effects, Humans, Hydrophobic and Hydrophilic Interactions, Materials Testing, Photoelectron Spectroscopy, Platelet Adhesiveness drug effects, Spectroscopy, Fourier Transform Infrared, Surface Properties, Erythrocytes drug effects, Polyesters chemistry, Polyesters pharmacology

Abstract

A main problem in the design of blood-contacting biomaterials has been the deficiency of a systematic understanding of blood-biomaterial interactions and the strategy to modulate blood responses. In this work, different functional groups including carboxyl (COOH), hydroxyl (OH) and zwitterionic sulfobetaine group (⊕N((CH 3 ) 2 )(CH 2 ) 3 SO 3-○- , SMDB) were grafted on the poly (butylene terephthalate) (PBT) film to study how the functional groups modulate blood responses and in terms of interaction with the coagulation system, the complement system, and platelets. The results showed protein absorption and platelet adhesion was stronger on the PBT bearing COOH group than PBT films bearing OH and zwitterionic sulfobetaine groups (total protein (μg/cm 2 ): 32.92 ± 5.89 vs. 22.02 ± 1.44 vs. 19.09 ± 1.59; platelet adhesion (/mm 2 ): 1,626.7 ± 120.1 vs. 1,395.6 ± 363.3 vs. 1,102.2 ± 373.7), which had a rougher and negatively charged surface, and the coagulation system was inhibited by binding fibrinogen (Fg) and coagulation factors. Meanwhile, PBT-PSMDB showed anticoagulant property and induced platelet activation. As a result, complement formation on these two films were less than PBT bearing OH groups by inhibiting the coagulation system (C3a (ng/ml): 3,745.4 ± 143.9 vs. 3,290.9 ± 249.7 vs. 4,887.9 ± 88.9; C5a (ng/ml): 22.1 ± 2.6 vs. 22.3 ± 1.8 vs. 27.9 ± 2.0). On the other hand, PBT bearing OH groups did not facilitate remarkable platelet adhesion and activation, and had no influence on platelet aggregation, hypotonic shock response, and coagulation system. The above results showed that the blood responses were highly interlinked, and could be modulated by grafting with different functional groups on the biomaterial surfaces. These findings may help identify a strategy to design materials with better hemocompatibility for blood contact, filtration, and purification applications., (© 2021 Wiley Periodicals LLC.)

Published

2021

10. Impact of olokizumab on platelets, leukocytes and erythrocytes during mild COVID-19.

Author

Buryachkovskaya L, Lomakin N, Melkumyants A, Docenko J, and Serebruany V

Subjects

Anti-Inflammatory Agents adverse effects, Antibodies, Monoclonal, Humanized adverse effects, Blood Platelets ultrastructure, COVID-19 blood, COVID-19 diagnosis, Case-Control Studies, Erythrocytes ultrastructure, Humans, Leukocytes ultrastructure, Microscopy, Electron, Scanning, Prospective Studies, Treatment Outcome, Anti-Inflammatory Agents therapeutic use, Antibodies, Monoclonal, Humanized therapeutic use, Blood Platelets drug effects, Erythrocytes drug effects, Leukocytes drug effects, COVID-19 Drug Treatment

Abstract

No abstract present., Competing Interests: The authors declare no conflict of interest., (© 2021 The Author(s). Published by IMR Press.)

Published

2021

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

Author

Koupenova M, Corkrey HA, Vitseva O, Tanriverdi K, Somasundaran M, Liu P, Soofi S, Bhandari R, Godwin M, Parsi KM, Cousineau A, Maehr R, Wang JP, Cameron SJ, Rade J, Finberg RW, and Freedman JE

Subjects

A549 Cells, Adult, Blood Platelets ultrastructure, Blood Platelets virology, Blotting, Western, COVID-19 blood, COVID-19 virology, Female, Host-Pathogen Interactions, Humans, Male, Microscopy, Electron, Transmission, Necroptosis, SARS-CoV-2 physiology, Angiotensin-Converting Enzyme 2 metabolism, Apoptosis, Blood Platelets metabolism, COVID-19 metabolism, Serine Endopeptidases metabolism

Abstract

[Figure: see text].

Published

2021

12. miR-204-5p and Platelet Function Regulation: Insight into a Mechanism Mediated by CDC42 and GPIIbIIIa.

Author

Garcia A, Dunoyer-Geindre S, Nolli S, Strassel C, Reny JL, and Fontana P

Subjects

Blood Platelets ultrastructure, Humans, Megakaryocytes ultrastructure, MicroRNAs genetics, Phenotype, Platelet Glycoprotein GPIIb-IIIa Complex genetics, Signal Transduction, cdc42 GTP-Binding Protein genetics, Blood Platelets metabolism, Megakaryocytes metabolism, MicroRNAs metabolism, Platelet Glycoprotein GPIIb-IIIa Complex metabolism, Thrombopoiesis, cdc42 GTP-Binding Protein metabolism

Abstract

Background: Several platelet-derived microRNAs are associated with platelet reactivity (PR) and clinical outcome in cardiovascular patients. We previously showed an association between miR-204-5p and PR in stable cardiovascular patients, but data on functional mechanisms are lacking., Aims: To validate miR-204-5p as a regulator of PR in platelet-like structures (PLS) derived from human megakaryocytes and to address mechanistic issues., Methods: Human hematopoietic stem cells were differentiated into megakaryocytes, enabling the transfection of miR-204-5p and the recovery of subsequent PLS. The morphology of transfected megakaryocytes and PLS was characterized using flow cytometry and microscopy. The functional impact of miR-204-5p was assessed using a flow assay, the quantification of the activated form of the GPIIbIIIa receptor, and a fibrinogen-binding assay. Quantitative polymerase chain reaction and western blot were used to evaluate the impact of miR-204-5p on a validated target, CDC42. The impact of CDC42 modulation was investigated using a silencing strategy., Results: miR-204-5p transfection induced cytoskeletal changes in megakaryocytes associated with the retracted protrusion of proPLS, but it had no impact on the number of PLS released. Functional assays showed that the PLS produced by megakaryocytes transfected with miR-204-5p were more reactive than controls. This phenotype is mediated by the regulation of GPIIbIIIa expression, a key contributor in platelet-fibrinogen interaction. Similar results were obtained after CDC42 silencing, suggesting that miR-204-5p regulates PR, at least in part, via CDC42 downregulation., Conclusion: We functionally validated miR-204-5p as a regulator of the PR that occurs through CDC42 downregulation and regulation of fibrinogen receptor expression., Competing Interests: None declared., (The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/).)

Published

2021

13. Altered platelet and coagulation function in moderate-to-severe COVID-19.

Author

Litvinov RI, Evtugina NG, Peshkova AD, Safiullina SI, Andrianova IA, Khabirova AI, Nagaswami C, Khismatullin RR, Sannikova SS, and Weisel JW

Subjects

Adult, Aged, Aged, 80 and over, Anticoagulants therapeutic use, Blood Coagulation Disorders drug therapy, Blood Platelets ultrastructure, Female, Humans, Inflammation etiology, Male, Middle Aged, Patient Acuity, Thrombocytopenia etiology, Treatment Outcome, Young Adult, COVID-19 Drug Treatment, Blood Coagulation Disorders etiology, Blood Platelet Disorders etiology, COVID-19 complications

Abstract

To reveal if coagulopathies relate to the course of COVID-19, we examined 255 patients with moderate and severe COVID-19, receiving anticoagulants and immunosuppressive drugs. Coagulopathy manifested predominantly as hypercoagulability that correlated directly with systemic inflammation, disease severity, comorbidities, and mortality risk. The prolonged clotting tests in about ¼ of cases were associated with high levels of C-reactive protein and antiphospholipid antibodies, which impeded coagulation in vitro. Contraction of blood clots was hindered in about ½ of patients, especially in severe and fatal cases, and correlated directly with prothrombotic parameters. A decrease in platelet contractility was due to moderate thrombocytopenia in combination with platelet dysfunction. Clots with impaired contraction were porous, had a low content of compressed polyhedral erythrocytes (polyhedrocytes) and an even distribution of fibrin, suggesting that the uncompacted intravital clots are more obstructive but patients could also be prone to bleeding. The absence of consumption coagulopathy suggests the predominance of local and/or regional microthrombosis rather than disseminated intravascular coagulation. The results obtained (i) confirm the importance of hemostatic disorders in COVID-19 and their relation to systemic inflammation; (ii) justify monitoring of hemostasis, including the kinetics of blood clot contraction; (iii) substantiate the active prophylaxis of thrombotic complications in COVID-19., (© 2021. The Author(s).)

Published

2021

14. Super-resolution imaging reveals cytoskeleton-dependent organelle rearrangement within platelets at intermediate stages of maturation.

Author

Go S, Jeong D, Chung J, Kim GH, Song J, Moon E, Huh YH, and Kim D

Subjects

Adult, Cell Movement, Female, Humans, Male, Microscopy, Electron, Transmission, Microscopy, Fluorescence, Middle Aged, Stochastic Processes, Young Adult, Actins chemistry, Blood Platelets ultrastructure, Microtubules ultrastructure

Abstract

A steady supply of platelets maintains their levels in the blood, and this is achieved by the generation of progeny from platelet intermediates. Using systematic super-resolution microscopy, we examine the ultrastructural organization of various organelles in different platelet intermediates to understand the mechanism of organelle redistribution and sorting in platelet intermediate maturation as the early step of platelet progeny production. We observe the dynamic interconversion between the intermediates and find that microtubules are responsible for controlling the overall shape of platelet intermediates. Super-resolution images show that most of the organelles are located near the cell periphery in oval preplatelets and confined to the bulbous tips in proplatelets. We also find that the distribution of the dense tubular system and α granules is regulated by actin, whereas that of mitochondria and dense granules is governed by microtubules. Altogether, our results call for a reassessment of organelle redistribution in platelet intermediates., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

15. Sphingosine-1-phosphate modulates PAR1-mediated human platelet activation in a concentration-dependent biphasic manner.

Author

Liu H, Jackson ML, Goudswaard LJ, Moore SF, Hutchinson JL, and Hers I

Subjects

Blood Platelets drug effects, Blood Platelets ultrastructure, Carrier Proteins pharmacology, Cell Shape drug effects, Dose-Response Relationship, Drug, Humans, Lysophospholipids agonists, Lysophospholipids antagonists & inhibitors, Peptide Fragments pharmacology, Peptides pharmacology, Phosphotransferases (Alcohol Group Acceptor) antagonists & inhibitors, Phosphotransferases (Alcohol Group Acceptor) physiology, Platelet Aggregation drug effects, Receptor, PAR-1 agonists, Sphingosine agonists, Sphingosine antagonists & inhibitors, Sphingosine pharmacology, Sphingosine-1-Phosphate Receptors physiology, Lysophospholipids pharmacology, Platelet Activation drug effects, Sphingosine analogs & derivatives, Sphingosine-1-Phosphate Receptors drug effects

Abstract

Sphingosine 1-phosphate (S1P) is a bioactive signalling sphingolipid that is increased in diseases such as obesity and diabetes. S1P can modulate platelet function, however the direction of effect and S1P receptors (S1PRs) involved are controversial. Here we describe the role of S1P in regulating human platelet function and identify the receptor subtypes responsible for S1P priming. Human platelets were treated with protease-activated receptor 1 (PAR-1)-activating peptide in the presence or absence of S1P, S1PR agonists or antagonists, and sphingosine kinases inhibitors. S1P alone did not induce platelet aggregation but at low concentrations S1P enhanced PAR1-mediated platelet responses, whereas PAR1 responses were inhibited by high concentrations of S1P. This biphasic effect was mimicked by pan-S1PR agonists. Specific agonists revealed that S1PR 1 receptor activation has a positive priming effect, S1PR 2 and S1PR 3 have no effect on platelet function, whereas S1PR 4 and S1PR 5 receptor activation have an inhibitory effect on PAR-1 mediated platelet function. Although platelets express both sphingosine kinase 1/2, enzymes which phosphorylate sphingosine to produce S1P, only dual and SphK2 inhibition reduced platelet function. These results support a role for SphK2-mediated S1P generation in concentration-dependent positive and negative priming of platelet function, through S1PR1 and S1PR4/5 receptors, respectively., (© 2021. The Author(s).)

Published

2021

16. DNAse-dependent, NET-independent pathway of thrombus formation in vivo.

Author

Carminita E, Crescence L, Brouilly N, Altié A, Panicot-Dubois L, and Dubois C

Subjects

Adenosine metabolism, Adenosine Diphosphate metabolism, Adenosine Triphosphate metabolism, Animals, Blood Platelets metabolism, Blood Platelets ultrastructure, Fibrin metabolism, Humans, Hydrolysis, Lasers, Leukocyte Elastase metabolism, Mice, Inbred C57BL, Models, Biological, Neutrophil Activation, Neutrophils metabolism, Platelet Activation, Protein-Arginine Deiminase Type 4 metabolism, Mice, Deoxyribonuclease I metabolism, Extracellular Traps metabolism, Thrombosis metabolism

Abstract

The contribution of NETs (neutrophil extracellular traps) to thrombus formation has been intensively documented in both arterial and venous thrombosis in mice. We previously demonstrated that adenosine triphosphate (ATP)-activated neutrophils play a key role in initiating the tissue factor-dependent activation of the coagulation cascade, leading to thrombus formation following laser-induced injury. Here, we investigated the contribution of NETs to thrombus formation in a laser-induced injury model. In vivo, treatment of mice with DNase-I significantly inhibited the accumulation of polymorphonuclear neutrophils at the site of injury, neutrophil elastase secretion, and platelet thrombus formation within seconds following injury. Surprisingly, electron microscopy of the thrombus revealed that neutrophils present at the site of laser-induced injury did not form NETs. In vitro, ATP, the main neutrophil agonist present at the site of laser-induced injury, induced the overexpression of PAD4 and CitH3 but not NETosis. However, compared to no treatment, the addition of DNase-I was sufficient to cleave ATP and adenosine diphosphate (ADP) in adenosine. Human and mouse platelet aggregation by ADP and neutrophil activation by ATP were also significantly reduced in the presence of DNase-I. We conclude that following laser-induced injury, neutrophils but not NETs are involved in thrombus formation. Treatment with DNase-I induces the hydrolysis of ATP and ADP, leading to the generation of adenosine and the inhibition of thrombus formation in vivo., Competing Interests: The authors declare no competing interest.

Published

2021

17. Structural analysis of resting mouse platelets by 3D-EM reveals an unexpected variation in α-granule shape.

Author

Pokrovskaya I, Tobin M, Desai R, Aronova MA, Kamykowski JA, Zhang G, Joshi S, Whiteheart SW, Leapman RD, and Storrie B

Subjects

Animals, Humans, Mice, Blood Platelets ultrastructure, Imaging, Three-Dimensional methods

Abstract

Mice and mouse platelets are major experimental models for hemostasis and thrombosis; however, important physiological data from this model has received little to no quantitative, 3D ultrastructural analysis. We used state-of-the-art, serial block imaging scanning electron microscopy (SBF-SEM, nominal Z-step size was 35 nm) to image resting platelets from C57BL/6 mice. α-Granules were identified morphologically and rendered in 3D space. The quantitative analysis revealed that mouse α-granules typically had a variable, elongated, rod shape, different from the round/ovoid shape of human α-granules. This variation in length was confirmed qualitatively by higher-resolution, focused ion beam (FIB) SEM at a nominal 5 nm Z-step size. The unexpected α-granule shape raises novel questions regarding α-granule biogenesis and dynamics. Does the variation arise at the level of the megakaryocyte and α-granule biogenesis or from differences in α-granule dynamics and organelle fusion/fission events within circulating platelets? Further quantitative analysis revealed that the two major organelles in circulating platelets, α-granules and mitochondria, displayed a stronger linear relationship between organelle number/volume and platelet size, i.e., a scaling in number and volume to platelet size, than found in human platelets suggestive of a tighter mechanistic regulation of their inclusion during platelet biogenesis. In conclusion, the overall spatial arrangement of organelles within mouse platelets was similar to that of resting human platelets, with mouse α-granules clustered closely together with little space for interdigitation of other organelles.

Published

2021

18. Microelectromechanical System Measurement of Platelet Contraction: Direct Interrogation of Myosin Light Chain Phosphorylation.

Author

George MJ, Litvinov J, Aroom K, Spangler LJ, Caplan H, Wade CE, Cox CS Jr, and Gill BS

Subjects

Algorithms, Biosensing Techniques, Blood Platelets ultrastructure, Enzyme-Linked Immunosorbent Assay, Micro-Electrical-Mechanical Systems instrumentation, Models, Theoretical, Myosin Light Chains metabolism, Phosphorylation, Platelet Function Tests instrumentation, Blood Platelets physiology, Micro-Electrical-Mechanical Systems methods, Platelet Function Tests methods

Abstract

Myosin Light Chain (MLC) regulates platelet contraction through its phosphorylation by Myosin Light Chain Kinase (MLCK) or dephosphorylation by Myosin Light Chain Phosphatase (MLCP). The correlation between platelet contraction force and levels of MLC phosphorylation is unknown. We investigate the relationship between platelet contraction force and MLC phosphorylation using a novel microelectromechanical (MEMS) based clot contraction sensor (CCS). The MLCK and MLCP pair were interrogated by inhibitors and activators of platelet function. The CCS was fabricated from silicon using photolithography techniques and force was validated over a range of deflection for different chip spring constants. The force of platelet contraction measured by the clot contraction sensor (CCS) was compared to the degree of MLC phosphorylation by Western Blotting (WB) and ELISA. Stimulators of MLC phosphorylation produced higher contraction force, higher phosphorylated MLC signal in ELISA and higher intensity bands in WB. Inhibitors of MLC phosphorylation produced the opposite. Contraction force is linearly related to levels of phosphorylated MLC. Direct measurements of clot contractile force are possible using a MEMS sensor platform and correlate linearly with the degree of MLC phosphorylation during coagulation. Measured force represents the mechanical output of the actin/myosin motor in platelets regulated by myosin light chain phosphorylation.

Published

2021

19. Highly impaired platelet ultrastructure in two families with novel IKZF5 variants.

Author

Leinoe E, Kjaersgaard M, Zetterberg E, Ostrowski S, Greinacher A, and Rossing M

Subjects

Child, Preschool, Female, Gene Expression Regulation, Humans, Middle Aged, Blood Platelets ultrastructure, Genetic Variation genetics, Ikaros Transcription Factor metabolism

Abstract

Heterozygous variants in the IKZF5 gene, encoding transcription factor Pegasus, were recently discovered to be causal of inherited thrombocytopenia (IT). We screened 90 patients suspected of inherited thrombocytopenia for variants in 101 genes associated with inherited bleeding disorders and report the clinical presentation of two Danish families with novel variants in IKZF5. Platelet ultrastructure and cytoskeleton were evaluated by immunofluorescent microscopy (IF) and found to be highly abnormal, demonstrating severe disturbances of distribution and expression of non-muscular myosin, filamin, β-tubulin and α tubulin. Number of alpha granules were reduced, and platelets elongated when evaluated by TEM. In both families a child carrying a rare IKZF5 variant was affected by developmental delay. The proband of family A presented with recurrent infections and was examined for an immunodeficiency. The concentration of naive B-cells was found moderately reduced by leucocyte subpopulation examination, indicating an impaired cellular immunity. T-cells were marginally low with reduced share and concentration of CD45RApos, CD31pos, CD4pos recent thymic immigrants as signs of reduced thymic output. The novel IKZF5 variants co-segregated with thrombocytopenia in both families and both probands had significant bleeding tendency. Through comprehensive characterizations of the platelet morphology and function linked to the specific phenotypes we add novel insight to IKZF5 -associated thrombocytopenia, which may help to identify and classify more cases with IKZF5 associated IT.

Published

2021

20. Type II Grass Carp Reovirus Infects Leukocytes but Not Erythrocytes and Thrombocytes in Grass Carp ( Ctenopharyngodon idella ).

Author

Yang L and Su J

Subjects

Animals, Blood Platelets metabolism, Blood Platelets ultrastructure, Blood Platelets virology, Cells, Cultured, Erythrocytes metabolism, Erythrocytes ultrastructure, Erythrocytes virology, Flow Cytometry, Leukocytes metabolism, Leukocytes ultrastructure, Reoviridae ultrastructure, Viral Load, Carps, Fish Diseases virology, Leukocytes virology, Reoviridae physiology, Reoviridae Infections veterinary

Abstract

Grass carp reovirus (GCRV) causes serious losses to the grass carp industry. At present, infectious tissues of GCRV have been studied, but target cells remain unclear. In this study, peripheral blood cells were isolated, cultured, and infected with GCRV. Using quantitative real-time polymerase chain reaction (qRT-PCR), Western Blot, indirect immunofluorescence, flow cytometry, and transmission electron microscopy observation, a model of GCRV infected blood cells in vitro was established. The experimental results showed GCRV could be detectable in leukocytes only, while erythrocytes and thrombocytes could not. The virus particles in leukocytes are wrapped by empty membrane vesicles that resemble phagocytic vesicles. The empty membrane vesicles of leukocytes are different from virus inclusion bodies in C. idella kidney (CIK) cells. Meanwhile, the expression levels of IFN1 , IL-1β , Mx2 , TNFα were significantly up-regulated in leukocytes, indicating that GCRV could cause the production of the related immune responses. Therefore, GCRV can infect leukocytes in vitro, but not infect erythrocytes and thrombocytes. Leukocytes are target cells in blood cells of GCRV infections. This study lays a theoretical foundation for the study of the GCRV infection mechanism and anti-GCRV immunity.

Published

2021

21. Human blood contains circulating cell-free mitochondria, but are they really functional?

Author

Stier A

Subjects

Adult, Blood Platelets cytology, Blood Platelets metabolism, Cell Respiration, Cell-Free System chemistry, Cell-Free System metabolism, Energy Metabolism, Female, Humans, Male, Mitochondria chemistry, Mitochondria physiology, Oxidation-Reduction, Oxidative Phosphorylation, Oxygen Consumption, Blood metabolism, Blood Platelets ultrastructure, Mitochondria metabolism

Abstract

Dache et al. ( FASEB J 34: 3616-3630, 2020) recently reported the presence of respiratory-competent cell-free mitochondria in human blood (up to 3.7 × 10 6 per mL of blood), providing exciting perspectives on the potential role of these extracellular mitochondria. Although their evidence for the presence of cell-free mitochondria in human blood is compelling, their conclusion that these cell-free mitochondria are respiratory competent or functional has to be reevaluated. To this end, we evaluated the functionality of cell-free mitochondria in human blood using high-resolution respirometry and mitochondria extracted from platelets of the same blood samples as positive controls. Although cell-free mitochondria were present in human plasma (i.e., significant MitoTracker Green fluorescence and complex IV activity), there was no evidence suggesting that their mitochondrial electron transport system (ETS) was functional (i.e., respiration rate not significantly different from 0; no significant responses to ADP, uncoupler, or mitochondrial inhibitors oligomycin and antimycin A). Yet, in vitro complex IV activity was detectable and even slightly higher than levels found in mitochondria extracted from platelets, suggesting that cell-free mitochondria in human blood are likely to only retain a nonfunctional part of the ETS. Despite being unlikely to be fully functional in the narrow sense (i.e., capable of oxidative phosphorylation), circulating cell-free mitochondria may have significant physiological roles that remain to be elucidated. NEW & NOTEWORTHY The recently reported cell-free mitochondria in human blood have been thought to be respiratory competent, giving rise to speculation about their biological function(s). By characterizing their bioenergetics in vitro, we show that circulating cell-free mitochondria are unlikely to be functional in vivo since they display no potential for oxidative phosphorylation.

Published

2021

22. Human platelets labeled at two discrete biotin densities are functional in vitro and are detected in vivo in the murine circulation: A promising approach to monitor platelet survival in vivo in clinical research.

Author

Ravanat C, Pongérard A, Freund M, Heim V, Rudwill F, Ziessel C, Eckly A, Proamer F, Isola H, and Gachet C

Subjects

Animals, Biotin analysis, Biotinylation, Blood Platelets chemistry, Blood Platelets ultrastructure, Cell Survival, Female, Humans, Mice, Platelet Count, Platelet Transfusion, Staining and Labeling, Biotin analogs & derivatives, Blood Platelets cytology, Cell Tracking, Succinimides analysis

Abstract

Background: The production of platelet concentrates (PCs) is evolving, and their survival capacity needs in vivo evaluation. This requires that the transfused platelets (PLTs) be distinguished from those of the recipient. Labeling at various biotin (Bio) densities allows one to concurrently trace multiple PLT populations, as reported for red blood cells., Study Design and Methods: A method is described to label human PLTs at two densities of Bio for future clinical trials. Injectable-grade PLTs were prepared in a sterile environment, using injectable-grade buffers and good manufacturing practices (GMP)-grade Sulfo-NHS-Biotin. Sulfo-NHS-Biotin concentrations were chosen to maintain PLT integrity and avoid potential alloimmunization while enabling the detection of circulating BioPLTs. The impact of biotinylation on human PLT recirculation was evaluated in vivo in a severe immunodeficient mouse model using ex vivo flow cytometry., Results: BioPLTs labeled with 1.2 or 10 μg/ml Sulfo-NHS-Biotin displayed normal ultrastructure and retained aggregation and secretion capacity and normal expression of the main surface glycoproteins. The procedure avoided detrimental PLT activation or apoptosis signals. Transfused human BioPLT populations could be distinguished from one another and from unlabeled circulating mouse PLTs, and their survival was comparable to that of unlabeled human PLTs in the mouse model., Conclusions: Provided low Sulfo-NHS-Biotin concentrations (<10 μg/ml) are used, injectable-grade BioPLTs comply with safety regulations, conserve PLT integrity, and permit accurate in vivo detection. This alternative to radioisotopes, which allows one to follow different PLT populations in the same recipient, should be valuable when assessing new PC preparations and monitoring PLT survival in clinical research., (© 2021 AABB.)

Published

2021

23. Procoagulant platelets: Generation, characteristics, and therapeutic target.

Author

Chu Y, Guo H, Zhang Y, and Qiao R

Subjects

Apoptosis, Biomarkers metabolism, Blood Platelets ultrastructure, Humans, Necrosis, Blood Coagulation physiology, Blood Platelets metabolism

Abstract

Platelets play a pivotal role in hemostasis. Activated platelets are classified into two groups, according to their agonist response: aggregating and procoagulant platelets. Aggregating platelets consist of activated integrin αIIbβ3 and stretch out pseudopods to further attract platelets to the site of injury by connecting with fibrinogen. They mainly gather in the core of the thrombus and perform a secretory function, such as releasing adenosine diphosphate (ADP). Procoagulant platelets promote the formation of thrombin and fibrin by interacting with coagulation factors and can thus be considered as the connector between primary and secondary hemostasis. In addition to their functions in blood coagulation, procoagulant platelets play a proinflammatory role by releasing platelet microparticles and inorganic polyphosphate. Considering these important functions of procoagulant platelets, this subpopulation warrants detailed study to analyze their potential in preventing human diseases. This review summarizes the generation and important characteristics of procoagulant platelets, as well as their potential for preventing the adverse effects associated with current antiplatelet therapies., (© 2021 The Authors. Journal of Clinical Laboratory Analysis published by Wiley Periodicals LLC.)

Published

2021

24. Confocal Blood Flow Videomicroscopy of Thrombus Formation over Human Arteries and Local Targeting of P2X7.

Author

Marchese P, Lombardi M, Mantione ME, Baccellieri D, Ferrara D, Chiesa R, Alfieri O, and Foglieni C

Subjects

Atherosclerosis genetics, Atherosclerosis pathology, Blood Circulation physiology, Blood Coagulation genetics, Blood Platelets metabolism, Carotid Arteries diagnostic imaging, Carotid Arteries ultrastructure, Fibrin genetics, Humans, Microscopy, Confocal, Platelet Aggregation genetics, Thrombosis diagnostic imaging, Thrombosis pathology, Atherosclerosis diagnostic imaging, Blood Platelets ultrastructure, Microscopy, Video, Receptors, Purinergic P2X7 genetics

Abstract

Atherothrombosis exposes vascular components to blood. Currently, new antithrombotic therapies are emerging. Herein we investigated thrombogenesis of human arteries with/without atherosclerosis, and the interaction of coagulation and vascular components, we and explored the anti-thrombogenic efficacy of blockade of the P2X purinoceptor 7 (P2X7). A confocal blood flow videomicroscopy system was performed on cryosections of internal mammary artery (IMA) or carotid plaque (CPL) determining/localizing platelets and fibrin. Blood from healthy donors elicited thrombi over arterial layers. Confocal microscopy associated thrombus with tissue presence of collagen type I, laminin, fibrin(ogen) and tissue factor (TF). The addition of antibodies blocking TF (aTF) or factor XI (aFXI) to blood significantly reduced fibrin deposition, variable platelet aggregation and aTF + aFXI almost abolished thrombus formation, showing synergy between coagulation pathways. A scarce effect of aTF over sub-endothelial regions, more abundant in tissue TF and bundles of laminin and collagen type I than deep intima, may suggest tissue thrombogenicity as molecular structure-related. Consistently with TF-related vascular function and expression of P2X7, the sections from CPL but not IMA tissue cultures pre-treated with the P2X7 antagonist A740003 demonstrated poor thrombogenesis in flow experiments. These data hint to local targeting studies on P2X7 modulation for atherothrombosis prevention/therapy.

Published

2021

25. Hyperinsulinaemic hypoglycaemia in non-anaesthetized Göttingen minipigs induces a counter-regulatory endocrine response and electrocardiographic changes.

Author

Lyhne MK, Vegge A, Povlsen GK, Slaaby R, Kildegaard J, Pedersen-Bjergaard U, and Olsen LH

Subjects

Animals, Biomarkers blood, Blood Glucose, Blood Platelets metabolism, Blood Platelets ultrastructure, Disease Management, Disease Models, Animal, Disease Susceptibility, Electrocardiography, Endocrine System metabolism, Platelet Aggregation, Platelet Function Tests, Swine, Swine Diseases diagnosis, Swine, Miniature, Symptom Assessment, Congenital Hyperinsulinism complications, Congenital Hyperinsulinism veterinary, Heart Diseases diagnosis, Heart Diseases etiology, Swine Diseases blood

Abstract

The potentially fatal cardiovascular effects of hypoglycaemia are not well understood and large animal models of the counter-regulatory responses and cardiovascular consequences of insulin-induced hypoglycaemia are needed to understand the mechanisms in humans. The aim of this study was to develop a human-like minipig model of hypoglycaemia including healthy and diabetic pigs to investigate endocrine, electrocardiographic and platelet effects. Hypoglycaemia was induced using a hyperinsulinaemic, hypoglycaemic clamp and an insulin bolus protocol. Plasma glucose, glucagon, C-peptide, insulin, epinephrine and platelet aggregation responses were measured before, during and after hypoglycaemia. Continuous electrocardiographic recordings were obtained. Hypoglycaemia at a plasma glucose concentration of 0.8-1.0 mM in the clamp induced 25-fold increase in epinephrine and sixfold and threefold increase in glucagon for healthy and diabetic pigs, respectively. The hypoglycaemic clamp induced QTc-interval prolongation and increase in cardiac arrhythmias. In the bolus approach, the non-diabetic group reached plasma glucose target of 1.5 mM and QTc-interval was prolonged after insulin injection, but before glucose nadir. The diabetic group did not reach hypoglycaemic target, but still demonstrated QTc-interval prolongation. These results demonstrate effects of hyperinsulinaemic hypoglycaemia closely resembling human physiology, indicating the minipig as a translational animal model of counter-regulatory endocrine and myocardial effects of hypoglycaemia.

Published

2021

26. Role of oculocerebrorenal syndrome of Lowe (OCRL) protein in megakaryocyte maturation, platelet production and functions: a study in patients with Lowe syndrome.

Author

Egot M, Lasne D, Poirault-Chassac S, Mirault T, Pidard D, Dreano E, Elie C, Gandrille S, Marchelli A, Baruch D, Rendu J, Fauré J, Flaujac C, Gratacap MP, Sié P, Gaussem P, Salomon R, Baujat G, and Bachelot-Loza C

Subjects

Actomyosin analysis, Adolescent, Adult, Anemia etiology, Blood Coagulation, Blood Platelets ultrastructure, Case-Control Studies, Cell Shape, Child, Collagen, Cytoskeleton ultrastructure, Female, Gene Silencing, Humans, Male, Megakaryocytes ultrastructure, Middle Aged, Mutation, Myosin Light Chains metabolism, Oculocerebrorenal Syndrome blood, Oculocerebrorenal Syndrome pathology, Phosphoric Monoester Hydrolases deficiency, Phosphoric Monoester Hydrolases genetics, Phosphorylation, Protein Domains, Protein Processing, Post-Translational, RNA, Small Interfering genetics, Signal Transduction, Thrombocytopenia etiology, Young Adult, Blood Platelets cytology, Megakaryocytes cytology, Oculocerebrorenal Syndrome genetics, Phosphoric Monoester Hydrolases physiology, Thrombopoiesis physiology

Abstract

Lowe syndrome (LS) is an oculocerebrorenal syndrome of Lowe (OCRL1) genetic disorder resulting in a defect of the OCRL protein, a phosphatidylinositol-4,5-bisphosphate 5-phosphatase containing various domains including a Rho GTPase-activating protein (RhoGAP) homology domain catalytically inactive. We previously reported surgery-associated bleeding in patients with LS, suggestive of platelet dysfunction, accompanied with a mild thrombocytopenia in several patients. To decipher the role of OCRL in platelet functions and in megakaryocyte (MK) maturation, we conducted a case-control study on 15 patients with LS (NCT01314560). While all had a drastically reduced expression of OCRL, this deficiency did not affect platelet aggregability, but resulted in delayed thrombus formation on collagen under flow conditions, defective platelet spreading on fibrinogen and impaired clot retraction. We evidenced alterations of the myosin light chain phosphorylation (P-MLC), with defective Rac1 activity and, inversely, elevated active RhoA. Altered cytoskeleton dynamics was also observed in cultured patient MKs showing deficient proplatelet extension with increased P-MLC that was confirmed using control MKs transfected with OCRL-specific small interfering(si)RNA (siOCRL). Patients with LS also had an increased proportion of circulating barbell-shaped proplatelets. Our present study establishes that a deficiency of the OCRL protein results in a defective actomyosin cytoskeleton reorganisation in both MKs and platelets, altering both thrombopoiesis and some platelet responses to activation necessary to ensure haemostasis., (© 2021 British Society for Haematology and John Wiley & Sons Ltd.)

Published

2021

27. Engineering extracellular vesicles with platelet membranes fusion enhanced targeted therapeutic angiogenesis in a mouse model of myocardial ischemia reperfusion.

Author

Li Q, Song Y, Wang Q, Chen J, Gao J, Tan H, Li S, Wu Y, Yang H, Huang H, Yu Y, Li Y, Zhang N, Huang Z, Pang Z, Qian J, and Ge J

Subjects

Animals, Biomedical Engineering, Blood Platelets physiology, Blood Platelets ultrastructure, Disease Models, Animal, Extracellular Vesicles physiology, Extracellular Vesicles ultrastructure, Human Umbilical Vein Endothelial Cells, Humans, Male, Membrane Fusion, Mice, Mice, Inbred C57BL, Microscopy, Electron, Transmission, Myocardial Ischemia genetics, Myocardial Ischemia pathology, Precision Medicine, RNA, Messenger genetics, RNA, Messenger metabolism, Myocardial Ischemia therapy, Myocardial Reperfusion methods, Neovascularization, Physiologic genetics

Abstract

Therapeutic angiogenesis is one promising strategy for the treatment of ischemic heart disease, which is the leading cause of death globally. In recent years, extracellular vesicles (EVs) have quickly gained much attention as a cell-free approach to stimulate angiogenesis. However, clinical applications of EVs are limited by their insufficient targeting capability. Herein, we introduce a method to enhance therapeutic angiogenesis based on platelet membrane-engineered EVs., Methods: Platelet-mimetic EVs (P-EVs) were fabricated by fusing the membranes of EVs with platelet membranes by extrusion. A mouse model of myocardial ischemia reperfusion (MI/R) was established and injected with PBS, EVs, and P-EVs to evaluate their targeting ability and therapeutic angiogenesis efficacy., Results: P-EVs inherited the adhesive proteins and natural targeting ability to injured vasculature of platelets and retained the pro-angiogenic potential of EVs. In the MI/R model, P-EVs preferentially accumulated in the injured endothelium of the ischemic hearts and enhanced the angiogenesis potency of EVs., Conclusions: This engineering strategy to modify pre-isolated EVs with platelet membranes by membrane fusion bestows EVs with the targeting ability of platelets and offers an exciting opportunity to design other targeted EVs fused with cell membranes from different sources for therapeutic angiogenesis., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2021

28. Platelet extracellular vesicles mediate transfusion-related acute lung injury by imbalancing the sphingolipid rheostat.

Author

McVey MJ, Weidenfeld S, Maishan M, Spring C, Kim M, Tabuchi A, Srbely V, Takabe-French A, Simmons S, Arenz C, Semple JW, and Kuebler WM

Subjects

Animals, Blood Platelets ultrastructure, Blood Preservation, Ceramides metabolism, Endothelial Cells physiology, Endotoxins toxicity, Humans, Lysophospholipids physiology, Male, Mice, Mice, Inbred BALB C, Mice, Inbred C57BL, Models, Biological, Sphingomyelin Phosphodiesterase antagonists & inhibitors, Sphingomyelin Phosphodiesterase deficiency, Sphingomyelin Phosphodiesterase physiology, Sphingosine analogs & derivatives, Sphingosine physiology, Transfusion-Related Acute Lung Injury metabolism, Transfusion-Related Acute Lung Injury prevention & control, Extracellular Vesicles physiology, Platelet Transfusion adverse effects, Sphingolipids metabolism, Transfusion-Related Acute Lung Injury etiology

Abstract

Transfusion-related acute lung injury (TRALI) is a hazardous transfusion complication with an associated mortality of 5% to 15%. We previously showed that stored (5 days) but not fresh platelets (1 day) cause TRALI via ceramide-mediated endothelial barrier dysfunction. As biological ceramides are hydrophobic, extracellular vesicles (EVs) may be required to shuttle these sphingolipids from platelets to endothelial cells. Adding to complexity, EV formation in turn requires ceramide. We hypothesized that ceramide-dependent EV formation from stored platelets and EV-dependent sphingolipid shuttling induces TRALI. EVs formed during storage of murine platelets were enumerated, characterized for sphingolipids, and applied in a murine TRALI model in vivo and for endothelial barrier assessment in vitro. Five-day EVs were more abundant, had higher long-chain ceramide (C16:0, C18:0, C20:0), and lower sphingosine-1-phosphate (S1P) content than 1-day EVs. Transfusion of 5-day, but not 1-day, EVs induced characteristic signs of lung injury in vivo and endothelial barrier disruption in vitro. Inhibition or supplementation of ceramide-forming sphingomyelinase reduced or enhanced the formation of EVs, respectively, but did not alter the injuriousness per individual EV. Barrier failure was attenuated when EVs were abundant in or supplemented with S1P. Stored human platelet 4-day EVs were more numerous compared with 2-day EVs, contained more long-chain ceramide and less S1P, and caused more endothelial cell barrier leak. Hence, platelet-derived EVs become more numerous and more injurious (more long-chain ceramide, less S1P) during storage. Blockade of sphingomyelinase, EV elimination, or supplementation of S1P during platelet storage may present promising strategies for TRALI prevention., (© 2021 by The American Society of Hematology.)

Published

2021

29. Nonredundant Roles of Platelet Glycoprotein VI and Integrin αIIbβ3 in Fibrin-Mediated Microthrombus Formation.

Author

Perrella G, Huang J, Provenzale I, Swieringa F, Heubel-Moenen FCJI, Farndale RW, Roest M, van der Meijden PEJ, Thomas M, Ariëns RAS, Jandrot-Perrus M, Watson SP, and Heemskerk JWM

Subjects

Blood Platelets ultrastructure, Calcium Signaling, Case-Control Studies, Female, Fibrin ultrastructure, Humans, Male, Microfluidic Analytical Techniques, Syk Kinase blood, Thrombasthenia blood, Thrombosis pathology, Blood Coagulation, Blood Platelets metabolism, Fibrin metabolism, Platelet Adhesiveness, Platelet Aggregation, Platelet Glycoprotein GPIIb-IIIa Complex metabolism, Platelet Membrane Glycoproteins metabolism, Thrombosis blood

Abstract

Objective: Fibrin is considered to strengthen thrombus formation via integrin αIIbβ3, but recent findings indicate that fibrin can also act as ligand for platelet glycoprotein VI. Approach and Results: To investigate the thrombus-forming potential of fibrin and the roles of platelet receptors herein, we generated a range of immobilized fibrin surfaces, some of which were cross-linked with factor XIIIa and contained VWF-BP (von Willebrand factor-binding peptide). Multicolor microfluidics assays with whole-blood flowed at high shear rate (1000 s -1 ) indicated that the fibrin surfaces, regardless of the presence of factor XIIIa or VWF-BP, supported platelet adhesion and activation (P-selectin expression), but only microthrombi were formed consisting of bilayers of platelets. Fibrinogen surfaces produced similar microthrombi. Markedly, tiggering of coagulation with tissue factor or blocking of thrombin no more than moderately affected the fibrin-induced microthrombus formation. Absence of αIIbβ3 in Glanzmann thrombasthenia annulled platelet adhesion. Blocking of glycoprotein VI with Fab 9O12 substantially, but incompletely reduced platelet secretion, Ca 2+ signaling and aggregation, while inhibition of Syk further reduced these responses. In platelet suspension, glycoprotein VI blockage or Syk inhibition prevented fibrin-induced platelet aggregation. Microthrombi on fibrin surfaces triggered only minimal thrombin generation, in spite of thrombin binding to the fibrin fibers., Conclusions: Together, these results indicate that fibrin fibers, regardless of their way of formation, act as a consolidating surface in microthrombus formation via nonredundant roles of platelet glycoprotein VI and integrin αIIbβ3 through signaling via Syk and low-level Ca 2+ rises.

Published

2021

30. Antioxidant prevents clearance of hemostatically competent platelets after long-term cold storage.

Author

Hegde S, Wellendorf AM, Zheng Y, and Cancelas JA

Subjects

Animals, Aspirin toxicity, Bleeding Time, Blood Platelets ultrastructure, Cell Shape drug effects, Cold Temperature, Fibrinogen pharmacology, Humans, Macrophages drug effects, Mice, Mice, Inbred NOD, Mice, SCID, Oxygen Consumption, Phagocytosis drug effects, Platelet Activation drug effects, Platelet Transfusion, Platelet-Rich Plasma, Reactive Oxygen Species analysis, Thrombocytopenia chemically induced, Thrombocytopenia therapy, Acetylcysteine pharmacology, Antioxidants pharmacology, Blood Platelets drug effects, Blood Preservation methods, Mitochondria metabolism

Abstract

Background: Cold storage of platelets (PLTs) has the potential advantage of prolonging storage time while reducing posttransfusion infection given the decreased likelihood of bacterial outgrowth during storage and possibly beneficial effects in treating bleeding patients. However, cold storage reduces PLT survival through the induction of complex storage lesions, which are more accentuated when storage is prolonged., Study Design and Methods: Whole blood-derived PLT-rich plasma concentrates from seven PLT pools (n = 5 donors per pool). PLT additive solution was added (67%/33% plasma) and the product was split into 50-mL bags. Split units were stored in the presence or absence of 1 mM of N-acetylcysteine (NAC) under agitation for up to 14 days at room temperature or in the cold and were analyzed for PLT activation, fibrinogen-dependent spreading, microparticle formation, mitochondrial respiratory activity, reactive oxygen species (ROS) generation, as well as in vivo survival and bleeding time correction in immunodeficient mice., Results: Cold storage of PLTs for 7 days or longer induces significant PLT activation, cytoskeletal damage, impaired fibrinogen spreading, enhances mitochondrial metabolic decoupling and ROS generation, and increases macrophage-dependent phagocytosis and macrophage-independent clearance. Addition of NAC prevents PLT clearance and allows a correction of the prolonged bleeding time in thrombocytopenic, aspirin-treated, immunodeficient mice., Conclusions: Long-term cold storage induces mitochondrial uncoupling and increased proton leak and ROS generation. The resulting ROS is a crucial contributor to the increased macrophage-dependent and -independent clearance of functional PLTs and can be prevented by the antioxidant NAC in a magnesium-containing additive solution., (© 2020 AABB.)

Published

2021

31. Parasitised red blood cells misclassified as giant platelets by an automated digital morphology analyser (Sysmex DI-60/CellaVision): a case report and a retrospective EQA analysis.

Author

Rosetti M, Farneti G, Monti M, Torri A, Poletti G, Massari E, Polli V, Clementoni A, and Dorizzi RM

Subjects

Adult, Blood Platelets cytology, Cell Size, Erythrocytes ultrastructure, Humans, Male, Plasmodium isolation & purification, Retrospective Studies, Software, Blood Platelets ultrastructure, Diagnosis, Computer-Assisted, Diagnostic Errors, Erythrocytes parasitology, Malaria diagnosis, Microscopy

Published

2021

32. Exogenous hydrogen sulfide inhibits neutrophils extracellular traps formation via the HMGB1/TLR4/p-38 MAPK/ROS axis in hyperhomocysteinemia rats.

Author

Zhao X, Zhang L, Liu X, Zhao Z, Zhong X, and Wang Y

Subjects

Animals, Blood Platelets drug effects, Blood Platelets metabolism, Blood Platelets ultrastructure, Disease Models, Animal, Extracellular Traps drug effects, Male, Neutrophils drug effects, Neutrophils metabolism, Phosphorylation drug effects, Platelet-Rich Plasma metabolism, Protein-Arginine Deiminase Type 4 metabolism, Rats, Wistar, Signal Transduction drug effects, Rats, Extracellular Traps metabolism, HMGB1 Protein metabolism, Hydrogen Sulfide pharmacology, Hyperhomocysteinemia metabolism, Reactive Oxygen Species metabolism, Toll-Like Receptor 4 metabolism, p38 Mitogen-Activated Protein Kinases metabolism

Abstract

Hydrogen sulfide (H 2 S) prevents platelet activation and neutrophils extracellular traps (NETs) formation. However, the mechanism of sodium hydrosulfide (NaHS, a donor that produces H 2 S) inhibits the formation of NETs in hyperhomocysteinemia (HHcy) rats has not been previously investigated. In the experiment, the expressions of HMGB1 of platelets, the expressions of TLR4, PAD4 and the phosphor-p38 of neutrophils were measured. The NETs formations, the concentration of DNA in the serum and the culture solution of cultured neutrophils which was stimulated by platelet-rich plasma (PRP) were tested. Additionally, the cellular ROS level and SOD activity were detected. The platelets were activated and the expression of HMGB1 of platelets and NETs formation, the concentration of DNA, and the expressions of TLR4, phosphor-p38 and PAD4, the ROS level were all increased while the activity of SOD decreased in the HHcy group compared to the control group. NaHS significantly inhibited the activation of platelets, the production of ROS and the formation of NETs in neutrophils, reversed the expressions of HMGB1, TLR4, phosphor-p38, PAD4 and decreased concentration of DNA which was caused by high homocysteine. Our results demonstrate that the donor of H 2 S inhibits NETs formation of neutrophils via the HMGB1/TLR4/p38 MAPK/ROS pathway in hyperhomocysteinemia., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2021

33. An Investigation of ABO Blood Type and the Platelet Delta Granule Storage Pool.

Author

Reagans RJ , BS, Kramer PM , BA, Cichocki JA , BS, and Gunning WT III, PhD, FMSA

Subjects

Adult, Bleeding Time, Female, Humans, Male, Microscopy, Electron, Platelet Storage Pool Deficiency pathology, Retrospective Studies, ABO Blood-Group System blood, Blood Platelets ultrastructure, Platelet Aggregation physiology, Platelet Storage Pool Deficiency blood, von Willebrand Factor metabolism

Abstract

Individuals with bleeding tendencies are more likely to have blood type O than blood types A, B, or AB. Platelet storage pool deficiencies are a lesser-known group of bleeding disorders which often go undiagnosed and may account for a significant number of patients with unexplained bleeding defects. We hypothesized that patients with platelet δ-storage pool deficiency might also have a predominance of type O blood. A retrospective review of medical records of 2,020 patients with unexplained bleeding and evaluated for δ-storage pool deficiency was performed. Correlations between dense granule numbers, blood type, and von Willebrand factor were analyzed for statistical differences. 51.5% of blood samples were blood type O compared to an incidence of 44.0% in the U.S. population. There was a significant association of vWF and blood type O but not with the delta storage pool. There is a preponderance of blood type O in the study population compared to the U.S. population. There is no statistically significant link between blood type O and lower dense granule numbers in this study.

Published

2021

34. DIAPH1 Mutation as a Novel Cause of Autosomal Dominant Macrothrombocytopenia and Hearing Loss.

Author

Karki NR, Ajebo G, Savage N, and Kutlar A

Subjects

Adult, Biomarkers, Biopsy, Blood Platelets metabolism, Blood Platelets ultrastructure, DNA Mutational Analysis, Humans, Male, Pedigree, Symptom Assessment, Thrombocytopenia blood, Thrombocytopenia therapy, Formins genetics, Genes, Dominant, Hearing Loss diagnosis, Hearing Loss genetics, Mutation, Thrombocytopenia diagnosis, Thrombocytopenia genetics

Abstract

Macrothrombocytopenia (MTP) is a group of rare disorders characterized by giant platelets, thrombocytopenia, and variable association with abnormal bleeding. Inherited MTP are frequently misdiagnosed as immune thrombocytopenia. Associated second-organ manifestation can help narrow down syndromic MTPs. We describe a case of autosomal dominant sensorineural hearing loss and MTP caused by a gain of function mutation in DIAPH1. This mutation causes altered megarkaryopoiesis and platelet cytoskeletal deregulation. Although hearing loss and MTP were likely progressive, clinically significant bleeding was not observed. DIAPH1-related MTP can be distinguished clinically from MYH9 mutation by the absence of cataracts and glomerular disease., (© 2020 S. Karger AG, Basel.)

Published

2021

35. Purification of Functional Platelet Mitochondria Using a Discontinuous Percoll Gradient.

Author

Léger JL, Pichaud N, and Boudreau LH

Subjects

Humans, Microscopy, Electron methods, Mitochondria ultrastructure, Platelet-Rich Plasma, Povidone chemistry, Silicon Dioxide chemistry, Blood Platelets ultrastructure, Cell Fractionation methods, Centrifugation, Density Gradient methods, DNA, Mitochondrial analysis, Mitochondria chemistry

Abstract

The isolation of mitochondria is gaining importance in experimental and clinical laboratory settings. Of interest, mitochondria and mitochondrial components (i.e., circular mitochondrial DNA, N-formylated peptides, cardiolipin) have been involved in several human inflammatory pathologies, such as cancer, Alzheimer's disease, Parkinson's disease, and rheumatoid arthritis. While several mitochondrial isolation methods have been previously published, these techniques are aimed at yielding mitochondria from cell types other than platelets. In addition, little information is known on the number of platelet-derived microvesicles that can contaminate the mitochondrial preparation or even the overall quality as well as functional and structural integrity of mitochondria. Here we describe a purification method, using a discontinuous Percoll gradient, yielding mitochondria of high purity and integrity from human platelets.

Published

2021

36. Quantitative Morphology of Cerebral Thrombi Related to Intravital Contraction and Clinical Features of Ischemic Stroke.

Author

Khismatullin RR, Nagaswami C, Shakirova AZ, Vrtková A, Procházka V, Gumulec J, Mačák J, Litvinov RI, and Weisel JW

Subjects

Aged, Blood Platelets pathology, Cell Shape, Clot Retraction, Embolic Stroke physiopathology, Embolic Stroke therapy, Erythrocytes pathology, Female, Fibrinolytic Agents therapeutic use, Humans, Ischemic Stroke pathology, Ischemic Stroke physiopathology, Ischemic Stroke therapy, Male, Microscopy, Electron, Scanning, Severity of Illness Index, Thrombectomy, Thrombotic Stroke physiopathology, Thrombotic Stroke therapy, Blood Platelets ultrastructure, Embolic Stroke pathology, Erythrocytes ultrastructure, Fibrin ultrastructure, Inflammation pathology, Thrombotic Stroke pathology

Abstract

Background and Purpose: The purpose was to assess quantitatively and qualitatively the composition and structure of cerebral thrombi and correlate them with the signs of intravital clot contraction (retraction), as well as with etiology, severity, duration, and outcomes of acute ischemic stroke., Methods: We quantified high-resolution scanning electron micrographs of 41 cerebral thrombi for their detailed cellular and noncellular composition and analyzed histological images for the overall structure with the emphasis on red blood cell compression, fibrin age, and the signs of inflammation., Results: Cerebral thrombi were quite compact and had extremely low porosity. The prevailing cell type was polyhedral compressed erythrocytes (polyhedrocytes) in the core, and fibrin-platelet aggregates were concentrated at the periphery; both findings are indicative of intravital contraction of the thrombi. The content of polyhedrocytes directly correlated with the stroke severity. The prevalence of fibrin bundles was typical for more severe cases, while the content of fibrin sponge prevailed in cases with a more favorable course. The overall platelet content in cerebral thrombi was surprisingly small, while the higher content of platelet aggregates was a marker of stroke severity. Fibrillar types of fibrin prevailed in atherothrombogenic thrombi. Older fibrin prevailed in thrombi from the patients who received thrombolytics, and younger fibrin dominated in cardioembolic thrombi. Alternating layers of erythrocytes and fibrin mixed with platelets were common for thrombi from the patients with more favorable outcomes. Thrombi with a higher number of leukocytes were associated with fatal cases., Conclusions: Most cerebral thrombi undergo intravital clot contraction (retraction) that may be of underestimated clinical importance. Despite the high variability of the composition and structure of cerebral thrombi, the content of certain types of blood cells and fibrin structures combined with the morphological signs of intravital contraction correlate with the clinical course and outcomes of acute ischemic stroke.

Published

2020

37. Fibrin and Platelet-Rich Composition in Retrieved Thrombi Hallmarks Stroke With Active Cancer.

Author

Fu CH, Chen CH, Lin YH, Lee CW, Tsai LK, Tang SC, Shun CT, and Jeng JS

Subjects

Aged, Aged, 80 and over, Blood Platelets ultrastructure, Embolic Stroke surgery, Endovascular Procedures, Erythrocytes ultrastructure, Female, Humans, Ischemic Stroke etiology, Ischemic Stroke pathology, Ischemic Stroke surgery, Leukocytes ultrastructure, Male, Middle Aged, Multivariate Analysis, Thrombectomy, Thrombosis etiology, Thrombosis pathology, Thrombosis surgery, Thrombotic Stroke etiology, Thrombotic Stroke surgery, Blood Platelets pathology, Embolic Stroke pathology, Erythrocytes pathology, Fibrin ultrastructure, Leukocytes pathology, Neoplasms complications, Thrombotic Stroke pathology

Abstract

Background and Purpose: We aim to investigate whether histopathologic examination of thrombi retrieved from acute ischemic stroke patients undergoing endovascular treatment could distinguish cancer-related stroke from other etiologies., Methods: Thrombi from patients undergoing endovascular treatment were analyzed. The etiology of stroke was divided into cardioembolism, large artery atherosclerosis, and active cancer groups. All selected thrombi were subjected to hematoxylin and eosin staining. The percentages of fibrin/platelets, red blood cells, and white blood cells within a thrombus were quantified., Results: One-hundred fifty-two patients (active cancer, 19; cardioembolism, 107; large artery atherosclerosis, 26) were included. Thrombi from the active cancer group exhibited a higher fibrin/platelet composition than did those from the cardioembolism and large artery atherosclerosis groups (median, 85.7% versus 43.9% and 42.5%; P <0.001). Fibrin/platelet composition was the only independent factor (odds ratio, 1.05 [95% CI, 1.02-1.08]) in differentiating cancer-related stroke from stroke caused by cardioembolism and large artery atherosclerosis. A fibrin/platelet proportion of ≥65% accurately predicted cancer-related stroke (area under the curve, 0.84; P <0.001)., Conclusions: In thrombi retrieved from patients undergoing endovascular treatment, a high fibrin/platelet composition was a probable indicator of cancer-related stroke.

Published

2020

38. Advanced chronic kidney disease is associated with higher serum concentration of monocyte microparticles.

Author

Fonseca F, Ballerini AP, Izar MC, Kato J, Ferreira CE, Fonzar W, do Amaral J, Rezende P, Machado-Santelli G, and França C

Subjects

Adult, Aged, Blood Platelets ultrastructure, Cardiovascular Diseases blood, Cross-Sectional Studies, Disease Progression, Endothelial Cells ultrastructure, Female, Glomerular Filtration Rate, Humans, Male, Middle Aged, Renal Insufficiency, Chronic physiopathology, Cell-Derived Microparticles, Monocytes ultrastructure, Renal Insufficiency, Chronic blood

Abstract

Advanced chronic kidney disease is associated with high rates of cardiovascular disease. Considering the crucial role of capillaries in renal function, our study aimed to evaluate microparticles related to vascular physiology examining the link between stages of chronic kidney disease with circulating endothelial (EMP), platelet (PMP) and monocytic (MMP) microparticles. Cross-sectional study with blinded endpoints included subjects of both sexes, aged 40-75 years (n = 247), with established cardiovascular disease (coronary heart disease, ischemic stroke, or peripheral artery disease). They were stratified 1:1 by the presence or absence of decreased glomerular filtration rate (GFR < 60 mL/min/1.73 m 2 ) estimated by the CKD-EPI criteria, and according to the stages of CKD. Microparticles were quantified by flow-cytometry using specific antibodies to identify endothelial, platelet, and monocytic derived microparticles. Higher percentages of circulating MMP (p = 0.036), but not for EMP or PMP, were observed in subjects with reduced GFR. Circulating MMP were also related to the stages of chronic kidney disease (trend analysis across renal stages, p = 0.038). Higher percentages of circulating MMP were found in subjects with reduced GFR, and their percentages were progressively higher according to the stage of chronic renal function., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

39. Methodological variations affect the release of VEGF in vitro and fibrinolysis' time from platelet concentrates.

Author

de Oliveira LA, Borges TK, Soares RO, Buzzi M, and Kückelhaus SAS

Subjects

Blood Platelets ultrastructure, Centrifugation adverse effects, Centrifugation methods, Female, Fibrin metabolism, Fibrin ultrastructure, Healthy Volunteers, Humans, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Vascular Endothelial Growth Factor A analysis, Blood Platelets metabolism, Fibrinolysis, Platelet-Rich Fibrin metabolism, Tissue Engineering methods, Vascular Endothelial Growth Factor A metabolism

Abstract

Blood Concentrates (BCs) are autologous non-transfusional therapeutical preparations with biological properties applied in tissue regeneration. These BCs differ in the preparation method, in fibrin network architecture, growth factors release as well as in platelet/cell content. Methodological changes result in distinct matrices that can compromise their clinical effectiveness. The present study evaluated the influence of different g-forces and types of tubes in the release of vascular endothelial growth factor (VEGF) from platelet-rich fibrin (PRF) as a function of time. The PRF-like samples were obtained with three g-forces (200, 400, and 800 x g) for 10 minutes in pure glass tubes or in polystyrene-clot activator tubes. Scanning and Transmission electron microscopy was used to morphometric analyzes of PRF's specimens and flow cytometry was used to quantify VEGF slow release until 7 days. Our results showed that platelets were intact and adhered to the fibrin network, emitting pseudopods and in degranulation. The fibrin network was rough and twisted with exosomic granulations impregnated on its surface. An increase in the concentration of VEGF in the PRF supernatant was observed until 7 days for all g forces (200, 400 or 800 xg), with the highest concentrations observed with 200 x g, in both tubes, glass or plastic. Morphological analyzes showed a reduction in the diameter of the PRF fibers after 7 days. Our results showed that g-force interferes with the shape of the fibrin network in the PRF, as well as affect the release of VEGF stored into platelets. This finding may be useful in applying PRF to skin lesions, in which the rapid release of growth factors can favor the tissue repair process. Our observations point to a greater clarification on the methodological variations related to obtaining PRF matrices, as they can generate products with different characteristics and degrees of effectiveness in specific applications., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

40. Assessing Genetic Overlap Between Platelet Parameters and Neurodegenerative Disorders.

Author

Tirozzi A, Izzi B, Noro F, Marotta A, Gianfagna F, Hoylaerts MF, Cerletti C, Donati MB, de Gaetano G, Iacoviello L, and Gialluisi A

Subjects

Alzheimer Disease blood, Alzheimer Disease genetics, Biomarkers, Cell Size, Genetic Predisposition to Disease epidemiology, Genome-Wide Association Study, Humans, Mean Platelet Volume, Neurodegenerative Diseases genetics, Parkinson Disease blood, Parkinson Disease genetics, Blood Platelets ultrastructure, Neurodegenerative Diseases blood

Abstract

Neurodegenerative disorders such as Parkinson's disease (PD) and Alzheimer's disease (AD) suffer from the lack of risk-predictive circulating biomarkers, and clinical diagnosis occurs only when symptoms are evident. Among potential biomarkers, platelet parameters have been associated with both disorders. However, these associations have been scarcely investigated at the genetic level. Here, we tested genome-wide coheritability based on common genetic variants between platelet parameters and PD/AD risk, through Linkage Disequilibrium Score Regression. This revealed a significant genetic correlation between platelet distribution width (PDW), an index of platelet size variability, and PD risk (r g [SE] = 0.080 [0.034]; p = 0.019), which was confirmed by a summary-summary polygenic score analysis, where PDW explained a small but significant proportion PD risk (<1%). AD risk showed no significant correlations, although a negative trend was observed with PDW (rg [SE] =-0.088 [0.053]; p=0.096), in line with previous epidemiological reports. These findings suggest the existence of limited shared genetic bases between PDW and PD and warrant further investigations to clarify the genes involved in this relation. Additionally, they suggest that the association between platelet parameters and AD risk is more environmental in nature, prompting an investigation into which factors may influence these traits., (Copyright © 2020 Tirozzi, Izzi, Noro, Marotta, Gianfagna, Hoylaerts, Cerletti, Donati, de Gaetano, Iacoviello and Gialluisi.)

Published

2020

41. Isolated severe thrombocytopenia in the setting of extreme hyperthermia.

Author

Stuver R, Khanna P, Wischhusen JW, Cobb C, and Bockorny B

Subjects

Adult, Amphetamine-Related Disorders complications, Attention Deficit Disorder with Hyperactivity complications, Attention Deficit Disorder with Hyperactivity drug therapy, Blood Platelets ultrastructure, Drug Overdose complications, Fever blood, Fever complications, Humans, Lisdexamfetamine Dimesylate blood, Lisdexamfetamine Dimesylate poisoning, Lisdexamfetamine Dimesylate therapeutic use, Male, Thrombocytopenia blood, Valproic Acid therapeutic use, Fever chemically induced, Thrombocytopenia etiology

Published

2020

42. Membrane budding is a major mechanism of in vivo platelet biogenesis.

Author

Potts KS, Farley A, Dawson CA, Rimes J, Biben C, de Graaf C, Potts MA, Stonehouse OJ, Carmagnac A, Gangatirkar P, Josefsson EC, Anttila C, Amann-Zalcenstein D, Naik S, Alexander WS, Hilton DJ, Hawkins ED, and Taoudi S

Subjects

Animals, Blood Platelets metabolism, Blood Platelets ultrastructure, Bone Marrow Cells cytology, Cell Lineage, Cell Membrane ultrastructure, Databases as Topic, Embryo, Mammalian cytology, Fetus cytology, Gene Expression Regulation, Imaging, Three-Dimensional, Integrases metabolism, Liver embryology, Megakaryocytes cytology, Megakaryocytes metabolism, Mice, Inbred C57BL, Ploidies, Reproducibility of Results, Skull cytology, Blood Platelets cytology, Cell Membrane metabolism

Abstract

How platelets are produced by megakaryocytes in vivo remains controversial despite more than a century of investigation. Megakaryocytes readily produce proplatelet structures in vitro; however, visualization of platelet release from proplatelets in vivo has remained elusive. We show that within the native prenatal and adult environments, the frequency and rate of proplatelet formation is incompatible with the physiological demands of platelet replacement. We resolve this inconsistency by performing in-depth analysis of plasma membrane budding, a cellular process that has previously been dismissed as a source of platelet production. Our studies demonstrate that membrane budding results in the sustained release of platelets directly into the peripheral circulation during both fetal and adult life without induction of cell death or proplatelet formation. In support of this model, we demonstrate that in mice deficient for NF-E2 (the thrombopoietic master regulator), the absence of membrane budding correlates with failure of in vivo platelet production. Accordingly, we propose that membrane budding, rather than proplatelet formation, supplies the majority of the platelet biomass., Competing Interests: Disclosures: The authors declare no competing interests exist., (© 2020 Potts et al.)

Published

2020

43. Role of Platelet Cytoskeleton in Platelet Biomechanics: Current and Emerging Methodologies and Their Potential Relevance for the Investigation of Inherited Platelet Disorders.

Author

Zaninetti C, Sachs L, and Palankar R

Subjects

Blood Platelet Disorders diagnosis, Blood Platelet Disorders metabolism, Blood Platelets physiology, Blood Platelets ultrastructure, Extracellular Matrix metabolism, Humans, Microscopy, Atomic Force methods, Optical Imaging methods, Biomechanical Phenomena physiology, Blood Platelet Disorders congenital, Blood Platelets cytology, Cytoskeleton metabolism

Abstract

Cytoskeleton is composed of more than 100 proteins and represents a dynamic network of the cellular cytoplasm. Cytoskeletal functions include spatial organization of cellular components, structural connection of the cell with external environment, and biomechanical force generation. Cytoskeleton takes part, at different levels, in all phases of platelet biogenesis: megakaryocyte (MK) differentiation, MK maturation, and platelet formation. In addition, it also plays a major role in each stage of platelet function. Inherited platelet disorders (IPDs) are a group of rare diseases featured by low platelet count and/or impaired platelet function. Over the past decade, the investigation of platelet biomechanics has become a major and highly relevant theme of research due to its implications at every stage of development of human life. The initial use of diverse biophysical techniques (e.g., micropipette aspiration, atomic force and scanning ion conductance microscopy, real-time deformability cytometry) started unraveling biomechanical features of platelets that are expected to provide new explanations for physiological and pathological mechanisms. Although the impact of cytoskeletal alterations has been largely elucidated in various IPDs' pathogenesis, the understanding of their impact on biomechanical properties of platelets represents an unmet need. Regarding IPDs, improving biomechanical studies seems promising for diagnostic and prognostic implications. Potentially, these characteristics of platelets may also be used for the prediction of bleeding risk. This review addresses the current available methods for biophysical investigations of platelets and the possible implementations in the field of IPDs., Competing Interests: The authors declare that they have no conflict of interest., (Georg Thieme Verlag KG Stuttgart · New York.)

Published

2020

44. A thrombolytic therapy using diagnostic ultrasound combined with RGDS-targeted microbubbles and urokinase in a rabbit model.

Author

Guan L, Wang C, Yan X, Liu L, Li Y, and Mu Y

Subjects

Animals, Blood Platelets drug effects, Blood Platelets ultrastructure, Contrast Media chemistry, Disease Models, Animal, Female, Femoral Artery diagnostic imaging, Femoral Artery drug effects, Femoral Artery pathology, Femoral Artery ultrastructure, Male, Muscle, Skeletal drug effects, Muscle, Skeletal pathology, Particle Size, Rabbits, Regional Blood Flow drug effects, Thromboplastin metabolism, Urokinase-Type Plasminogen Activator blood, von Willebrand Factor metabolism, Microbubbles, Oligopeptides therapeutic use, Thrombolytic Therapy, Ultrasonography, Urokinase-Type Plasminogen Activator therapeutic use

Abstract

This study aimed to explore thrombolysis therapy based on ultrasound combined with urokinase and Arg-Gly-Asp sequence (RGDS)-targeted microbubbles by evaluating the histological changes in a thrombotic rabbit model. Forty-two New Zealand rabbits featuring platelet-rich thrombi in the femoral artery were randomized to (n = 6/group): ultrasound alone (US); urokinase alone (UK); ultrasound plus non-targeted microbubbles (US + M); ultrasound plus RGDS-targeted microbubbles (US + R); RGDS-targeted microbubbles plus urokinase (R + UK); ultrasound, non-targeted microbubbles and urokinase (US + M + UK); and ultrasound, RGDS-targeted microbubbles and urokinase (US + R + UK) groups. Diagnostic ultrasound was used transcutaneously over the thrombus for 30 min. We evaluated the thrombolytic effect based on ultrasound thrombi detection, blood flow, and histological observations. Among all study groups, complete recanalization was achieved in the US + R + UK group. Hematoxylin and eosin staining showed that the thrombi were completely dissolved. Scanning electron microscopy examination demonstrated that the fiber network structure of the thrombi was damaged. Transmission electron microscopy showed that the thrombus was decomposed into high electron-dense particles. Histology for von Willebrand factor and tissue factor were both negative in the US + R + UK group. This study revealed that a thrombolytic therapy consisting of diagnostic ultrasound together with RGDS-targeted and urokinase coupled microbubbles.

Published

2020

45. Platelet functions and activities as potential hematologic parameters related to Coronavirus Disease 2019 (Covid-19).

Author

Salamanna F, Maglio M, Landini MP, and Fini M

Subjects

Angiotensin-Converting Enzyme 2, Anticoagulants administration & dosage, Anticoagulants therapeutic use, Biomarkers blood, Blood Platelets ultrastructure, COVID-19, Cell Adhesion Molecules metabolism, Coronavirus Infections complications, Coronavirus Infections pathology, Cytokines metabolism, Disseminated Intravascular Coagulation etiology, Drug Interactions, Endothelial Cells pathology, Endothelium, Vascular pathology, Fibrin Fibrinogen Degradation Products analysis, Humans, Inflammation, Lung pathology, Peptidyl-Dipeptidase A physiology, Platelet Count, Platelet Function Tests, Pneumonia, Viral complications, Pneumonia, Viral pathology, Prothrombin Time, Receptors, Virus physiology, Respiratory Distress Syndrome etiology, Respiratory Distress Syndrome prevention & control, SARS-CoV-2, Severe Acute Respiratory Syndrome blood, Severe Acute Respiratory Syndrome pathology, Thrombophilia blood, Thrombophilia drug therapy, Venous Thrombosis epidemiology, Venous Thrombosis etiology, Venous Thrombosis pathology, Venous Thrombosis prevention & control, Betacoronavirus, Blood Platelets physiology, Coronavirus Infections blood, Pandemics, Pneumonia, Viral blood, Thrombophilia etiology

Abstract

Coronavirus disease 2019 (COVID-19) is a new infectious disease that currently lacks standardized and established laboratory markers to evaluate its severity. In COVID-19 patients, the number of platelets (PLTs) and dynamic changes of PLT-related parameters are currently a concern. The present paper discusses the potential link between PLT parameters and COVID-19. Several studies have identified a link between severe COVID-19 patients and specific coagulation index, in particular, high D-dimer level, prolonged prothrombin time, and low PLT count. These alterations reflect the hypercoagulable state present in severe COVID-19 patients, which could promote microthrombosis in the lungs, as well as in other organs. Further information and more advanced hematological parameters related to PLTs are needed to better estimate this link, also considering COVID-19 patients at different disease stages and stratified in different cohorts based on preexisting co-morbidity, age, and gender. Increasing the understanding of PLT functions in COVID-19 will undoubtedly improve our knowledge on disease pathogenesis, clinical management, and therapeutic options, but could also lead to the development of more precise therapeutic strategies for COVID-19 patients.

Published

2020

46. Serum Metabolome Changes in Relation to Prothrombotic State Induced by Combined Oral Contraceptives with Drospirenone and Ethinylestradiol.

Author

Swanepoel AC, Bester J, Emmerson O, Soma P, Beukes D, van Reenen M, Loots DT, and du Preez I

Subjects

Adolescent, Adult, Androstenes administration & dosage, Blood Platelets drug effects, Blood Platelets metabolism, Blood Platelets ultrastructure, Contraceptives, Oral, Combined administration & dosage, Erythrocytes drug effects, Erythrocytes metabolism, Erythrocytes ultrastructure, Ethinyl Estradiol administration & dosage, Female, Gas Chromatography-Mass Spectrometry, Humans, Metabolomics methods, Platelet Activation drug effects, Platelet Aggregation drug effects, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Thrombosis blood, Thrombosis diagnosis, Thrombosis etiology, Young Adult, Androstenes adverse effects, Biomarkers blood, Blood Coagulation drug effects, Contraceptives, Oral, Combined adverse effects, Ethinyl Estradiol adverse effects, Metabolome

Abstract

The association between hypercoagulability and use of drospirenone (DRSP) and ethinylestradiol (EE) containing combined oral contraceptives (COCs) is an important clinical concern. We have previously reported that the two formulations of DRSP combined with EE (namely, DRSP/20EE and DRSP/30EE) bring about a prothrombotic state in hemostatic traits of female users. We report here the serum metabolomic changes in the same study cohort in relation to the attendant prothrombotic state induced by COC use, thus offering new insights on the underlying biochemical mechanisms contributing to the altered coagulatory profile with COC use. A total of 78 healthy women participated in this study and were grouped as follows: control group not using oral contraceptives ( n  = 25), DRSP/20EE group ( n  = 27), and DRSP/30EE group ( n  = 26). Untargeted metabolomics revealed changes in amino acid concentrations, particularly a decrease in glycine and an increase in both cysteine and lanthionine in the serum, accompanied by variations in oxidative stress markers in the COC users compared with the controls. Of importance, this study is the first to link specific amino acid variations, serum metabolites, and the oxidative metabolic profile with DRSP/EE use. These molecular changes could be linked to specific biophysical coagulatory alterations observed in the same individuals. These new findings lend evidence on the metabolomic substrates of the prothrombotic state associated with COC use in women and informs future personalized/precision medicine research. Moreover, we underscore the importance of an interdisciplinary approach to evaluate venous thrombotic risk associated with COC use.

Published

2020

47. The first COVID-19 autopsy in Spain performed during the early stages of the pandemic.

Subjects

Alveolar Epithelial Cells ultrastructure, Blood Platelets chemistry, Blood Platelets ultrastructure, COVID-19, Coronavirus Infections complications, Coronavirus Infections epidemiology, Coronavirus Infections prevention & control, Humans, Hyalin, Infection Control organization & administration, Infectious Disease Transmission, Patient-to-Professional prevention & control, Integrin beta3 analysis, Lung virology, Male, Middle Aged, Occupational Health standards, Personal Protective Equipment, Pneumonia, Viral complications, Pneumonia, Viral epidemiology, Pneumonia, Viral prevention & control, Pulmonary Embolism pathology, SARS-CoV-2, Spain epidemiology, Specimen Handling, Workflow, Autopsy methods, Betacoronavirus isolation & purification, Coronavirus Infections pathology, Infection Control methods, Lung pathology, Occupational Diseases prevention & control, Pandemics prevention & control, Pneumonia, Viral pathology, Pulmonary Embolism etiology

Abstract

We describe the implementation of a COVID-19 Autopsy Programme in our Hospital, report the main findings from the first autopsy of the programme and briefly review the reports of lung pathology of these patients., (Copyright © 2020. Publicado por Elsevier España, S.L.U.)

Published

2020

48. Morphological changes in a case of SARS-CoV-2 infection.

Author

Jones JR and Ireland R

Subjects

Aged, 80 and over, Blood Platelets ultrastructure, COVID-19, Comorbidity, Fatal Outcome, Humans, Male, Megakaryocytes ultrastructure, Pandemics, Vacuoles ultrastructure, Coronavirus Infections blood, Erythrocytes, Abnormal ultrastructure, Monocytes ultrastructure, Pneumonia, Viral blood

Published

2020

49. Orchestration of Primary Hemostasis by Platelet and Endothelial Lysosome-Related Organelles.

Author

Karampini E, Bierings R, and Voorberg J

Subjects

Blood Coagulation Disorders genetics, Blood Coagulation Disorders physiopathology, Collagen physiology, Cytoplasmic Granules ultrastructure, Humans, Lysosomes ultrastructure, Weibel-Palade Bodies physiology, Weibel-Palade Bodies ultrastructure, von Willebrand Factor metabolism, Blood Platelets ultrastructure, Cytoplasmic Granules physiology, Endothelial Cells ultrastructure, Hemostasis physiology, Lysosomes physiology

Abstract

Megakaryocyte-derived platelets and endothelial cells store their hemostatic cargo in α- and δ-granules and Weibel-Palade bodies, respectively. These storage granules belong to the lysosome-related organelles (LROs), a heterogeneous group of organelles that are rapidly released following agonist-induced triggering of intracellular signaling pathways. Following vascular injury, endothelial Weibel-Palade bodies release their content into the vascular lumen and promote the formation of long VWF (von Willebrand factor) strings that form an adhesive platform for platelets. Binding to VWF strings as well as exposed subendothelial collagen activates platelets resulting in the release of α- and δ-granules, which are crucial events in formation of a primary hemostatic plug. Biogenesis and secretion of these LROs are pivotal for the maintenance of proper hemostasis. Several bleeding disorders have been linked to abnormal generation of LROs in megakaryocytes and endothelial cells. Recent reviews have emphasized common pathways in the biogenesis and biological properties of LROs, focusing mainly on melanosomes. Despite many similarities, LROs in platelet and endothelial cells clearly possess distinct properties that allow them to provide a highly coordinated and synergistic contribution to primary hemostasis by sequentially releasing hemostatic cargo. In this brief review, we discuss in depth the known regulators of α- and δ-granules in megakaryocytes/platelets and Weibel-Palade bodies in endothelial cells, starting from transcription factors that have been associated with granule formation to protein complexes that promote granule maturation. In addition, we provide a detailed view on the interplay between platelet and endothelial LROs in controlling hemostasis as well as their dysfunction in LRO related bleeding disorders.

Published

2020

50. Genetic variants associated with Hermansky-Pudlak syndrome.

Author

Merideth MA, Introne WJ, Wang JA, O'Brien KJ, Huizing M, and Gochuico BR

Subjects

Aminocaproic Acid pharmacology, Antifibrinolytic Agents pharmacology, Blood Platelets ultrastructure, Carrier Proteins genetics, Carrier Proteins metabolism, Contusions genetics, Deamino Arginine Vasopressin therapeutic use, Hemorrhage genetics, Hermanski-Pudlak Syndrome drug therapy, Hermanski-Pudlak Syndrome physiopathology, Humans, Hypopigmentation genetics, Lysosomes metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Proteins genetics, Proteins metabolism, Tranexamic Acid pharmacology, Blood Platelets metabolism, Hermanski-Pudlak Syndrome genetics, Lysosomes genetics

Abstract

Hermansky-Pudlak syndrome (HPS) is a rare autosomal recessive disorder characterized by defective biogenesis of lysosome-related organelles. Clinical manifestations include a bleeding diathesis due to a platelet delta storage pool deficiency, oculocutaneous albinism, inflammatory bowel disease, neutropenia, and pulmonary fibrosis. Ten genes associated with HPS are identified to date, and each gene encodes a protein subunit of either Biogenesis of Lysosome-related Organelles Complex (BLOC)-1, BLOC-2, BLOC-3, or the Adaptor Protein-3 complex. Several genetic variants and phenotypic heterogeneities are reported in individuals with HPS, who generally exhibit easy bruisability and increased bleeding. Desmopressin, pro-coagulants, or platelet transfusion may be used as prophylaxis or treatment for excessive bleeding in patients with HPS. However, response to desmopressin can be variable. Platelets are effective in preventing or treating bleeding in individuals with HPS, but platelets should be transfused judiciously to limit alloimmunization in patients with HPS who are at risk of developing pulmonary fibrosis and may be potential candidates for lung transplantation. The discovery of new genes associated with HPS in people with excessive bleeding and hypopigmentation of unknown etiology may be facilitated by the use of next-generation sequencing or panel-based genetic testing.

Published

2020