Your search keyword '"human platelets"' showing total 185 results

1. Eugenol: A Potential Modulator of Human Platelet Activation and Mouse Mesenteric Vascular Thrombosis via an Innovative cPLA2-NF-κB Signaling Axis.

Author

Chang, Yi, Hsia, Chih-Wei, Chiou, Kuan-Rau, Yen, Ting-Lin, Jayakumar, Thanasekaran, Sheu, Joen-Rong, and Huang, Wei-Chieh

Subjects

BLOOD platelet aggregation, BLOOD platelet activation, FIBRINOLYTIC agents, INTRACELLULAR calcium, EUGENOL

Abstract

Background: Platelets, a type of anucleated cell, play a crucial role in cardiovascular diseases (CVDs). Therefore, targeting platelet activation is essential for mitigating CVDs. Endogenous agonists, such as collagen, activate platelets by initiating signal transduction through specific platelet receptors, leading to platelet aggregation. Eugenol, primarily sourced from clove oil, is known for its antibacterial, anticancer, and anti-inflammatory properties, making it a valuable medicinal agent. In our previous study, eugenol was shown to inhibit platelet aggregation induced by collagen and arachidonic acid. We concluded that eugenol exerts a potent inhibitory effect on platelet activation by targeting the PLCγ2–PKC and cPLA2-TxA2 pathways, thereby suppressing platelet aggregation. In our current study, we found that eugenol significantly inhibits NF-κB activation. This led us to investigate the relationship between the NF-κB and cPLA2 pathways to elucidate how eugenol suppresses platelet activation. Methods: In this study, we prepared platelet suspensions from the blood of healthy human donors to evaluate the inhibitory mechanisms of eugenol on platelet activation. We utilized immunoblotting and confocal microscopy to analyze these mechanisms in detail. Additionally, we assessed the anti-thrombotic effect of eugenol by observing fluorescein-induced platelet plug formation in the mesenteric microvessels of mice. Results: For immunoblotting and confocal microscopy studies, eugenol significantly inhibited NF-κB-mediated signaling events stimulated by collagen in human platelets. Specifically, it reduced the phosphorylation of IKK and p65 and prevented the degradation of IκBα. Additionally, CAY10502, a cPLA2 inhibitor, significantly reduced NF-κB-mediated signaling events. In contrast, BAY11-7082, an IKK inhibitor, did not affect collagen-stimulated cPLA2 phosphorylation. These findings suggest that cPLA2 acts as an upstream regulator of NF-κB activation during platelet activation. Furthermore, both BAY11-7082 and CAY10502 significantly reduced the collagen-induced rise in intracellular calcium levels. In the animal study, eugenol demonstrated potential as an anti-thrombotic agent by significantly reducing platelet plug formation in fluorescein-irradiated mouse mesenteric microvessels. Conclusion: Our study uncovered a novel pathway in platelet activation involving the cPLA2-NF-κB axis, which plays a key role in the antiplatelet effects of eugenol. These findings suggest that eugenol could serve as a valuable and potent prophylactic or therapeutic option for arterial thrombosis. [ABSTRACT FROM AUTHOR]

Published

2024

2. Identification of apolipoprotein A-I as a target of platelet tyrosine kinases

Author

Christine Föhrkolb, Katrin Vogel, Günter Lochnit, and Peter Presek

Subjects

Apolipoprotein A-I, human platelets, phosphorylation, protein tyrosine kinases, Src family kinases, Diseases of the blood and blood-forming organs, RC633-647.5

Published

2024

3. Oxidative Stress Induced by Cortisol in Human Platelets.

Author

Signorello, Maria Grazia, Ravera, Silvia, and Leoncini, Giuliana

Subjects

*OXIDATIVE stress, *BLOOD platelets, *NADPH oxidase, *HYDROCORTISONE, *VENOUS thrombosis

Abstract

Hypercortisolism is known to affect platelet function. However, few studies have approached the effect of exogenous cortisol on human platelets, and the results obtained are conflicting and unconvincing. In this study, the effect of exogenous cortisol on several parameters indicative of oxidative status in human platelets has been analysed. We have found that cortisol stimulates ROS production, superoxide anion formation, and lipid peroxidation, with these parameters being in strict correlation. In addition, cortisol decreases GSH and membrane SH-group content, evidencing that the hormone potentiates oxidative stress, depleting platelet antioxidant defence. The involvement of src, syk, PI3K, and AKT enzymes in oxidative mechanisms induced by cortisol is shown. The main sources of ROS in cells can include uncontrolled increase of NADPH oxidase activity and uncoupled aerobic respiration during oxidative phosphorylation. Both mechanisms seem to be involved in ROS formation induced by cortisol, as the NADPH oxidase 1 inhibitor 2(trifluoromethyl)phenothiazine, and rotenone and antimycin A, complex I and III inhibitor, respectively, significantly reduce oxidative stress. On the contrary, the NADPH oxidase inhibitor gp91ds-tat, malate and NaCN, complex II and IV inhibitor, respectively, have a minor effect. It is likely that, in human platelets, oxidative stress induced by cortisol can be associated with venous and arterial thrombosis, greatly contributing to cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

4. Eugenol Suppresses Platelet Activation and Mitigates Pulmonary Thromboembolism in Humans and Murine Models.

Author

Huang, Wei-Chieh, Shu, Lan-Hsin, Kuo, Yu-Ju, Lai, Kevin Shu-Leung, Hsia, Chih-Wei, Yen, Ting-Lin, Hsia, Chih-Hsuan, Jayakumar, Thanasekaran, Yang, Chih-Hao, and Sheu, Joen-Rong

Subjects

*BLOOD platelet activation, *PULMONARY embolism, *EUGENOL, *MITOGEN-activated protein kinases, *PHOSPHOLIPASES, *BLOOD platelet aggregation, *THROMBIN receptors

Abstract

Platelets assume a pivotal role in the pathogenesis of cardiovascular diseases (CVDs), emphasizing their significance in disease progression. Consequently, addressing CVDs necessitates a targeted approach focused on mitigating platelet activation. Eugenol, predominantly derived from clove oil, is recognized for its antibacterial, anticancer, and anti-inflammatory properties, rendering it a valuable medicinal agent. This investigation delves into the intricate mechanisms through which eugenol influences human platelets. At a low concentration of 2 μM, eugenol demonstrates inhibition of collagen and arachidonic acid (AA)-induced platelet aggregation. Notably, thrombin and U46619 remain unaffected by eugenol. Its modulatory effects extend to ATP release, P-selectin expression, and intracellular calcium levels ([Ca2+]i). Eugenol significantly inhibits various signaling cascades, including phospholipase Cγ2 (PLCγ2)/protein kinase C (PKC), phosphoinositide 3-kinase/Akt/glycogen synthase kinase-3β, mitogen-activated protein kinases, and cytosolic phospholipase A2 (cPLA2)/thromboxane A2 (TxA2) formation induced by collagen. Eugenol selectively inhibited cPLA2/TxA2 phosphorylation induced by AA, not affecting p38 MAPK. In ADP-treated mice, eugenol reduced occluded lung vessels by platelet thrombi without extending bleeding time. In conclusion, eugenol exerts a potent inhibitory effect on platelet activation, achieved through the inhibition of the PLCγ2–PKC and cPLA2-TxA2 cascade, consequently suppressing platelet aggregation. These findings underscore the potential therapeutic applications of eugenol in CVDs. [ABSTRACT FROM AUTHOR]

Published

2024

5. Ginkgetin effectively mitigates collagen and AA‐induced platelet activation via PLCγ2 but not cyclic nucleotide‐dependent pathway in human.

Author

Hsia, Chih‐Wei, Shu, Lan‐Hsin, Lee, Ai‐Wei, Tran, Oanh‐Thi, Yang, Chih‐Hao, Yen, Ting‐Lin, Huang, Wei‐Chieh, Hsia, Chih‐Hsuan, Jayakumar, Thanasekaran, Chiou, Kuan‐Rau, and Sheu, Joen‐Rong

Subjects

BLOOD platelet activation, MITOGEN-activated protein kinases, ARACHIDONIC acid, GUANYLATE cyclase, CYCLIC guanylic acid, CYCLIC adenylic acid

Abstract

Platelets assume a pivotal role in the cardiovascular diseases (CVDs). Thus, targeting platelet activation is imperative for mitigating CVDs. Ginkgetin (GK), from Ginkgo biloba L, renowned for its anticancer and neuroprotective properties, remains unexplored concerning its impact on platelet activation, particularly in humans. In this investigation, we delved into the intricate mechanisms through which GK influences human platelets. At low concentrations (0.5–1 μM), GK exhibited robust inhibition of collagen and arachidonic acid (AA)‐induced platelet aggregation. Intriguingly, thrombin and U46619 remained impervious to GK's influence. GK's modulatory effect extended to ATP release, P‐selectin expression, intracellular calcium ([Ca2+]i) levels and thromboxane A2 formation. It significantly curtailed the activation of various signaling cascades, encompassing phospholipase Cγ2 (PLCγ2)/protein kinase C (PKC), phosphoinositide 3‐kinase/Akt/glycogen synthase kinase‐3β and mitogen‐activated protein kinases. GK's antiplatelet effect was not reversed by SQ22536 (an adenylate cyclase inhibitor) or ODQ (a guanylate cyclase inhibitor), and GK had no effect on the phosphorylation of vasodilator‐stimulated phosphoproteinSer157 or Ser239. Moreover, neither cyclic AMP nor cyclic GMP levels were significantly increased after GK treatment. In mouse studies, GK notably extended occlusion time in mesenteric vessels, while sparing bleeding time. In conclusion, GK's profound impact on platelet activation, achieved through inhibiting PLCγ2–PKC cascade, culminates in the suppression of downstream signaling and, ultimately, the inhibition of platelet aggregation. These findings underscore the promising therapeutic potential of GK in the CVDs. [ABSTRACT FROM AUTHOR]

Published

2024

6. Analytical Determination of Serotonin Exocytosis in Human Platelets with BDD-on-Quartz MEA Devices.

Author

González Brito, Rosalía, Montenegro, Pablo, Méndez, Alicia, Shabgahi, Ramtin E., Pasquarelli, Alberto, and Borges, Ricardo

Subjects

EXOCYTOSIS, SECRETORY granules, BLOOD platelets, SEROTONIN, BLOOD platelet aggregation, CARBON fibers, SEROTONIN receptors

Abstract

Amperometry is arguably the most widely used technique for studying the exocytosis of biological amines. However, the scarcity of human tissues, particularly in the context of neurological diseases, poses a challenge for exocytosis research. Human platelets, which accumulate 90% of blood serotonin, release it through exocytosis. Nevertheless, single-cell amperometry with encapsulated carbon fibers is impractical due to the small size of platelets and the limited number of secretory granules on each platelet. The recent technological improvements in amperometric multi-electrode array (MEA) devices allow simultaneous recordings from several high-performance electrodes. In this paper, we present a comparison of three MEA boron-doped diamond (BDD) devices for studying serotonin exocytosis in human platelets: (i) the BDD-on-glass MEA, (ii) the BDD-on-silicon MEA, and (iii) the BDD on amorphous quartz MEA (BDD-on-quartz MEA). Transparent electrodes offer several advantages for observing living cells, and in the case of platelets, they control activation/aggregation. BDD-on-quartz offers the advantage over previous materials of combining excellent electrochemical properties with transparency for microscopic observation. These devices are opening exciting perspectives for clinical applications. [ABSTRACT FROM AUTHOR]

Published

2024

7. Eugenol: A Potential Modulator of Human Platelet Activation and Mouse Mesenteric Vascular Thrombosis via an Innovative cPLA2-NF-κB Signaling Axis

Author

Yi Chang, Chih-Wei Hsia, Kuan-Rau Chiou, Ting-Lin Yen, Thanasekaran Jayakumar, Joen-Rong Sheu, and Wei-Chieh Huang

Subjects

eugenol, cPLA2, NF-κB, [Ca2+]i, human platelets, platelet plug formation, Biology (General), QH301-705.5

Abstract

Background: Platelets, a type of anucleated cell, play a crucial role in cardiovascular diseases (CVDs). Therefore, targeting platelet activation is essential for mitigating CVDs. Endogenous agonists, such as collagen, activate platelets by initiating signal transduction through specific platelet receptors, leading to platelet aggregation. Eugenol, primarily sourced from clove oil, is known for its antibacterial, anticancer, and anti-inflammatory properties, making it a valuable medicinal agent. In our previous study, eugenol was shown to inhibit platelet aggregation induced by collagen and arachidonic acid. We concluded that eugenol exerts a potent inhibitory effect on platelet activation by targeting the PLCγ2–PKC and cPLA2-TxA2 pathways, thereby suppressing platelet aggregation. In our current study, we found that eugenol significantly inhibits NF-κB activation. This led us to investigate the relationship between the NF-κB and cPLA2 pathways to elucidate how eugenol suppresses platelet activation. Methods: In this study, we prepared platelet suspensions from the blood of healthy human donors to evaluate the inhibitory mechanisms of eugenol on platelet activation. We utilized immunoblotting and confocal microscopy to analyze these mechanisms in detail. Additionally, we assessed the anti-thrombotic effect of eugenol by observing fluorescein-induced platelet plug formation in the mesenteric microvessels of mice. Results: For immunoblotting and confocal microscopy studies, eugenol significantly inhibited NF-κB-mediated signaling events stimulated by collagen in human platelets. Specifically, it reduced the phosphorylation of IKK and p65 and prevented the degradation of IκBα. Additionally, CAY10502, a cPLA2 inhibitor, significantly reduced NF-κB-mediated signaling events. In contrast, BAY11-7082, an IKK inhibitor, did not affect collagen-stimulated cPLA2 phosphorylation. These findings suggest that cPLA2 acts as an upstream regulator of NF-κB activation during platelet activation. Furthermore, both BAY11-7082 and CAY10502 significantly reduced the collagen-induced rise in intracellular calcium levels. In the animal study, eugenol demonstrated potential as an anti-thrombotic agent by significantly reducing platelet plug formation in fluorescein-irradiated mouse mesenteric microvessels. Conclusion: Our study uncovered a novel pathway in platelet activation involving the cPLA2-NF-κB axis, which plays a key role in the antiplatelet effects of eugenol. These findings suggest that eugenol could serve as a valuable and potent prophylactic or therapeutic option for arterial thrombosis.

Published

2024

8. Docking and mutagenesis studies lead to improved inhibitor development of ML355 for human platelet 12-lipoxygenase

Author

Tsai, Wan-Chen, Aleem, Ansari M, Tena, Jennyfer, Rivera-Velazquez, Mirella, Brah, Harman Singh, Tripathi, Sarvind, D'silva, Melinee, Nadler, Jerry L, Kalyanaraman, Chakrapani, Jacobson, Matthew P, and Holman, Theodore

Subjects

Biological Sciences, Medicinal and Biomolecular Chemistry, Chemical Sciences, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Arachidonate 12-Lipoxygenase, Dose-Response Relationship, Drug, Drug Development, Humans, Lipoxygenase Inhibitors, Molecular Docking Simulation, Molecular Structure, Structure-Activity Relationship, Sulfonamides, Human platelets, 12-Lipoxygenase, ML355, Drug discovery, Optimization, Cardiovascular diseases, Diabetes, Mutagenesis, Computational modeling, Organic Chemistry, Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry, Biochemistry and cell biology, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

Human platelet 12-(S)-Lipoxygenase (12-LOX) is a fatty acid metabolizing oxygenase that plays an important role in platelet activation and cardiometabolic disease. ML355 is a specific 12-LOX inhibitor that has been shown to decrease thrombosis without prolonging hemostasis and protect human pancreatic islets from inflammatory injury. It has an amenable drug-like scaffold with nM potency and encouraging ADME and PK profiles, but its binding mode to the active site of 12-LOX remains unclear. In the current work, we combined computational modeling and experimental mutagenesis to propose a model in which ML355 conforms to the "U" shape of the 12-LOX active site, with the phenyl linker region wrapping around L407. The benzothiazole of ML355 extends into the bottom of the active site cavity, pointing towards residues A417 and V418. However, reducing the active site depth alone did not affect ML355 potency. In order to lower the potency of ML355, the cavity needed to be reduced in both length and width. In addition, H596 appears to position ML355 in the active site through an interaction with the 2-methoxy phenol moiety of ML355. Combined, this binding model suggested that the benzothiazole of ML355 could be enlarged. Therefore, a naphthyl-benzothiazole derivative of ML355, Lox12Slug001, was synthesized and shown to have 7.2-fold greater potency than ML355. This greater potency is proposed to be due to additional van der Waals interactions and pi-pi stacking with F414 and F352. Lox12Slug001 was also shown to be highly selective against 12-LOX relative to the other LOX isozymes and more importantly, it showed activity in rescuing human islets exposed to inflammatory cytokines with comparable potency to ML355. Further studies are currently being pursued to derivatize ML355 in order to optimize the additional space in the active site, while maintaining acceptable drug-like properties.

Published

2021

9. Mechanisms of glabridin inhibition of integrin αIIbβ3 inside-out signals and NF-κB activation in human platelets

Author

Wei-Chieh Huang, Thanasekaran Jayakumar, Joen-Rong Sheu, Chih-Wei Hsia, Chih-Hsuan Hsia, Ting-Lin Yen, and Chao-Chien Chang

Subjects

Glabridin, Human platelets, αIIbβ3 inside-out, NF-κB, Thromboembolic lungs, Platelet plug formation, Other systems of medicine, RZ201-999

Abstract

Abstract Background Platelets play a crucial role in cardiovascular diseases (CVDs) and are activated by endogenous agonists like collagen. These agonists initiate signal transduction through specific platelet receptors, resulting in platelet aggregation. Glabridin, a prenylated isoflavonoid found in licorice root, is known for its significance in metabolic abnormalities. Glabridin has been observed to inhibit collagen-induced platelet aggregation, but the precise mechanisms, specifically concerning NF-κB activation and integrin αIIbβ3 signaling, are not yet fully understood. Methods In this study, platelet suspensions were prepared from healthy human blood donors, and the aggregation ability was observed using a lumi-aggregometer. The inhibitory mechanisms of glabridin in human platelets were evaluated through immunoblotting and confocal microscopy. The anti-thrombotic effects of glabridin were assessed by histological analysis of lung sections in acute pulmonary thromboembolism and by examining fluorescein-induced platelet plug formation in mesenteric microvessels in mice. Results Glabridin inhibited integrin αIIbβ3 inside-out signals such as Lyn, Fyn, Syk, and integrin β3 activation and NF-κB-mediated signal events, with similar potency to classical inhibitors BAY11-7082 and Ro106-9920. Glabridin and BAY11-7082 inhibited IKK, IκBα, and p65 phosphorylation and reversed IκBα degradation, while Ro106-9920 only reduced p65 phosphorylation and reversed IκBα degradation. BAY11-7082 reduced Lyn, Fyn, Syk, integrin β3, phospholipase Cγ2 and protein kinase C activation. Glabridin reduced platelet plug formation in mesenteric microvessels and occluded vessels in thromboembolic lungs of mice. Conclusion Our study revealed a new pathway for activating integrin αIIbβ3 inside-out signals and NF-κB, which contributes to the antiplatelet aggregation effect of glabridin. Glabridin could be a valuable prophylactic or clinical treatment option for CVDs.

Published

2023

10. Electrochemical Determination of Serotonin Exocytosis in Human Platelets with BDD-on-Quartz Multielectrode Array Biosensors

Author

Rosalía González-Brito, Pablo Montenegro, Alicia Méndez, Ramtin E. Shabgahi, Alberto Pasquarelli, and Ricardo Borges

Subjects

amperometry, electrochemistry, exocytosis, serotonin, human platelets, General Works

Abstract

About 90% of blood serotonin is stored in secretory granules of platelets and is released by exocytosis [...]

Published

2024

11. Identification of apolipoprotein A-I as a target of platelet tyrosine kinases.

Author

Föhrkolb, Christine, Vogel, Katrin, Lochnit, Günter, and Presek, Peter

Subjects

*PROTEIN kinase B, *PEPTIDE mass fingerprinting, *THROMBIN receptors, *HIGH density lipoproteins, *APOLIPOPROTEIN A, *LIPID rafts, *KINASES

Abstract

This document explores the phosphorylation of apolipoprotein A-I (apoA-I) by platelet tyrosine kinases. The study identifies several Src family kinases (SFKs) involved in the tyrosine phosphorylation of apoA-I in platelets, specifically at Tyr42. The authors suggest that this phosphorylation may impact apoA-I's role in platelet signaling and lipid binding, but further research is needed to determine the specific kinase responsible and understand the functional implications. The study was conducted ethically and received support from the Open Access Publication Fund of Martin-Luther-University Halle-Wittenberg. [Extracted from the article]

Published

2024

12. Myricetin as a promising inhibitor of platelet fibrinogen receptor in humans

Author

Yi Chang, Chih-Wei Hsia, Wei-Chieh Huang, Thanasekaran Jayakumar, Chih-Hsuan Hsia, Ting-Lin Yen, Joen-Rong Sheu, and Shaw-Min Hou

Subjects

Arterial thrombosis, Fibrinogen, Human platelets, Integrin αIIbβ3, Myricetin, Occlusion time, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Platelets play a vital role in the formation of dangerous arterial thrombosis. Platelets are activated by adhesive proteins or soluble agonists through their specific receptors. The receptor-mediated signaling pathways lead to common signaling events, which result in shape changes and inside–out signaling, leading fibrinogen binding to glycoprotein IIb/IIIa complex (integrin αIIbβ3). This interaction initiates integrin αIIbβ3-mediated outside-in signaling, subsequently culminating in granule secretion and aggregation. Myricetin is a flavonoid that occurs in a variety of plants. Although myricetin has been demonstrated to have several bioactive properties, its role in platelet activation has not been extensively studied. The present study demonstrated the ability of myricetin to inhibit platelet aggregation stimulated by collagen, thrombin, and U46619. Myricetin reduced the ATP-release, cytosolic Ca2+ mobilization, and P-selectin expression and the activation of PLCγ2/PKC, PI3K/Akt/GSK3β, and MAPK. Myricetin exerted a direct inhibitory effect on the activation of integrin αIIbβ3 by disrupting the binding between FITC-PAC-1 and the integrin. Moreover, myricetin suppressed integrin αIIbβ3-mediated outside–in signaling, such as integrin β3, Src, and Syk phosphorylation on immobilized fibrinogen. In animal studies, myricetin significantly prolonged the occlusion time of thrombotic platelet plug formation in mesenteric microvessels without extending bleeding time. This study concludes that myricetin is a natural integrin αIIbβ3 inhibitor and a novel antithrombotic agent.

Published

2023

13. Mechanisms of glabridin inhibition of integrin αIIbβ3 inside-out signals and NF-κB activation in human platelets.

Author

Huang, Wei-Chieh, Jayakumar, Thanasekaran, Sheu, Joen-Rong, Hsia, Chih-Wei, Hsia, Chih-Hsuan, Yen, Ting-Lin, and Chang, Chao-Chien

Subjects

*GLYCYRRHIZA, *FIBRINOLYTIC agents, *PROTEIN kinases, *PULMONARY embolism, *BLOOD platelets, *ANIMAL experimentation, *MICROSCOPY, *LUNGS, *PHOSPHOLIPASES, *ISOFLAVONES, *NF-kappa B, *CELL receptors, *PLANT roots, *CELLULAR signal transduction, *IMMUNOBLOTTING, *GLYCOPROTEINS, *PLATELET aggregation inhibitors, *RESEARCH funding, *HISTOLOGICAL techniques, *THROMBOEMBOLISM, *MEMBRANE proteins, *ACUTE diseases, *MICE, *PHOSPHORYLATION, *PHARMACODYNAMICS

Abstract

Background: Platelets play a crucial role in cardiovascular diseases (CVDs) and are activated by endogenous agonists like collagen. These agonists initiate signal transduction through specific platelet receptors, resulting in platelet aggregation. Glabridin, a prenylated isoflavonoid found in licorice root, is known for its significance in metabolic abnormalities. Glabridin has been observed to inhibit collagen-induced platelet aggregation, but the precise mechanisms, specifically concerning NF-κB activation and integrin αIIbβ3 signaling, are not yet fully understood. Methods: In this study, platelet suspensions were prepared from healthy human blood donors, and the aggregation ability was observed using a lumi-aggregometer. The inhibitory mechanisms of glabridin in human platelets were evaluated through immunoblotting and confocal microscopy. The anti-thrombotic effects of glabridin were assessed by histological analysis of lung sections in acute pulmonary thromboembolism and by examining fluorescein-induced platelet plug formation in mesenteric microvessels in mice. Results: Glabridin inhibited integrin αIIbβ3 inside-out signals such as Lyn, Fyn, Syk, and integrin β3 activation and NF-κB-mediated signal events, with similar potency to classical inhibitors BAY11-7082 and Ro106-9920. Glabridin and BAY11-7082 inhibited IKK, IκBα, and p65 phosphorylation and reversed IκBα degradation, while Ro106-9920 only reduced p65 phosphorylation and reversed IκBα degradation. BAY11-7082 reduced Lyn, Fyn, Syk, integrin β3, phospholipase Cγ2 and protein kinase C activation. Glabridin reduced platelet plug formation in mesenteric microvessels and occluded vessels in thromboembolic lungs of mice. Conclusion: Our study revealed a new pathway for activating integrin αIIbβ3 inside-out signals and NF-κB, which contributes to the antiplatelet aggregation effect of glabridin. Glabridin could be a valuable prophylactic or clinical treatment option for CVDs. [ABSTRACT FROM AUTHOR]

Published

2023

14. Analytical Determination of Serotonin Exocytosis in Human Platelets with BDD-on-Quartz MEA Devices

Author

Rosalía González Brito, Pablo Montenegro, Alicia Méndez, Ramtin E. Shabgahi, Alberto Pasquarelli, and Ricardo Borges

Subjects

amperometry, electrochemistry, exocytosis, serotonin, human platelets, Biotechnology, TP248.13-248.65

Abstract

Amperometry is arguably the most widely used technique for studying the exocytosis of biological amines. However, the scarcity of human tissues, particularly in the context of neurological diseases, poses a challenge for exocytosis research. Human platelets, which accumulate 90% of blood serotonin, release it through exocytosis. Nevertheless, single-cell amperometry with encapsulated carbon fibers is impractical due to the small size of platelets and the limited number of secretory granules on each platelet. The recent technological improvements in amperometric multi-electrode array (MEA) devices allow simultaneous recordings from several high-performance electrodes. In this paper, we present a comparison of three MEA boron-doped diamond (BDD) devices for studying serotonin exocytosis in human platelets: (i) the BDD-on-glass MEA, (ii) the BDD-on-silicon MEA, and (iii) the BDD on amorphous quartz MEA (BDD-on-quartz MEA). Transparent electrodes offer several advantages for observing living cells, and in the case of platelets, they control activation/aggregation. BDD-on-quartz offers the advantage over previous materials of combining excellent electrochemical properties with transparency for microscopic observation. These devices are opening exciting perspectives for clinical applications.

Published

2024

15. Electrochemical Determination of Serotonin Exocytosis in Human Platelets with BDD-on-Quartz Multielectrode Array Biosensors †.

Author

González-Brito, Rosalía, Montenegro, Pablo, Méndez, Alicia, Shabgahi, Ramtin E., Pasquarelli, Alberto, and Borges, Ricardo

Subjects

*SECRETORY granules, *SOFTWARE validation, *INSTITUTIONAL review boards, *SEROTONIN, *BIOGENIC amines

Published

2024

16. Inside the Mechanism of Action of Three Pyrazole Derivatives in Human Platelets and Endothelial Cells.

Author

Brullo, Chiara, Russo, Eleonora, Garibaldi, Silvano, Altieri, Paola, Ameri, Pietro, Ravera, Silvia, and Signorello, Maria Grazia

Subjects

ENDOTHELIAL cells, PYRAZOLE derivatives, BLOOD platelets, NICOTINAMIDE adenine dinucleotide phosphate, NADPH oxidase, AEROBIC metabolism, SUPEROXIDES

Abstract

In the effort to obtain multitarget compound interfering with inflammation, oxidative stress, and tumorigenesis, we synthesized a small library of pyrazole compounds, selecting 4a, 4f, and 4g as the most noteworthy being IC50 against platelet ROS production induced by thrombin of about 10 µM. The in vitro antioxidant potential of the three molecules was evaluated, and since they show a remarkable antioxidative activity, their effect on several parameter indicative of oxidative status and on the efficiency of the aerobic metabolism was tested. The three molecules strongly inhibit superoxide anion production, lipid peroxidation, NADPH oxidase activity and almost restore the oxidative phosphorylation efficiency in thrombin-stimulated platelet, demonstrating a protective effect against oxidative stress. This effect was confirmed in endothelial cell in which 4a, 4f, and 4g show an interesting inhibition activity on H2O2-stimulated EA.hy926 cells. At last, antiproliferative activity of 4a, 4f, and 4g was submitted to a large screening at the NCI. The molecules show interesting anticancer activity, among them the most remarkable is 4g able to strongly inhibit the proliferation of both solid tumor and leukemia cells lines. In conclusion, all the three newly synthetized pyrazoles show remarkable antioxidant and antiproliferative effect worthy of further study. [ABSTRACT FROM AUTHOR]

Published

2023

17. Effects of Nanoceria on Human Platelet Functions and Blood Coagulation

Author

Kailashiya J and Dash D

Subjects

cerium oxide nanoparticles, fibrin polymerization, human platelets, platelet aggregation, thromboelastogram., Medicine (General), R5-920

Abstract

Jyotsna Kailashiya, Debabrata Dash Centre for Advanced Research on Platelet Signalling & Thrombosis Biology, Department of Biochemistry, Institute of Medical Sciences, Banaras Hindu University, Varanasi, Uttar Pradesh, IndiaCorrespondence: Debabrata DashCentre for Advanced Research on Platelet Signalling & Thrombosis Biology, Department of Biochemistry, Institute of Medical Sciences, Banaras Hindu University, Varanasi, Uttar Pradesh, India, Email ddash.biochem@gmail.comPurpose: Cerium oxide nanoparticles (nanoceria) exist in either 3+ or 4+ oxidation state with interesting redox properties and exhibit both oxidant and antioxidant attributes based on concentration, environment and pH. Thanks to their wide spread use in fuel, cosmetics and other industries as well as in biomedical field, nanoceria particles get released into environment with risk of significant human exposure, and thus necessitate careful examination and optimization of their biomedical applications.Methods: This research was planned to explore effects of nanoceria on human platelet functions and whole blood coagulation. Platelets and whole blood from volunteer healthy donors were treated with different doses of nanoceria and various platelet functions, fibrin polymerization and blood coagulation were tested.Results: Nanoceria particles were found to reduce platelet aggregation and secretion of granule contents in a dose-dependent manner, impaired fibrin polymerization and retraction of fibrin-rich thrombi, associated with reduced cytosolic filamentous actin. Remarkably, nanoceria instigated early clot formation in whole blood attributable to putative activation of coagulation cascade.Conclusion: Above observations provide cautionary framework to critically re-evaluate and accordingly plan biomedical applications of nanoceria.Keywords: cerium oxide nanoparticles, fibrin polymerization, human platelets, platelet aggregation, thromboelastogram

Published

2022

18. Mechanisms of glabridin inhibition of integrin αIIbβ3 inside-out signals and NF-κB activation in human platelets

Author

Huang, Wei-Chieh, Jayakumar, Thanasekaran, Sheu, Joen-Rong, Hsia, Chih-Wei, Hsia, Chih-Hsuan, Yen, Ting-Lin, and Chang, Chao-Chien

Published

2023

19. High-molecular-weight fucosylated glycosaminoglycan induces human platelet aggregation depending on αIIbβ3 and platelet secretion

Author

Lisha Lin, Lian Yang, Jun Chen, Lutan Zhou, Sujuan Li, Na Gao, and Jinhua Zhao

Subjects

aggregation, fucosylated glycosaminoglycan, human platelets, secretion, αiibβ3, Diseases of the blood and blood-forming organs, RC633-647.5

Abstract

Fucosylated glycosaminoglycan (FG) from sea cucumbers has been reported to have anticoagulant effects via targeting intrinsic tenase. However, FG from natural source also potentially poses risks due to its FXIIa activation and platelet aggregating effects. Here, we found that the effect of FG on human platelet aggregation depended on both the sulfation pattern and chain length. FGs with higher content of Fuc2S4S and larger molecular weight (≥14 kD) had stronger activity. Both platelet aggregation and P-selectin expression induced by TaFG (an FG from Thelenota ananas) were decreased as the molecular weight reduced. Ticagrelor, aspirin and wortmannin completely blocked the secretion (ADP) but only partially blocked the aggregation induced by TaFG. Tirofiban an αIIbβ3 antagonist however potently inhibited both the secretion and aggregation, with IC50 of 6.01 ± 1.1.97 nM. Furthermore, TaFG could bind to human αIIbβ3 with high affinity, and the affinities of two FGs were paralleled with their activity in platelet aggregation or activation. These results indicated that αIIbβ3 played an important role in TaFG-induced platelet aggregation which was mediated by PI3K, and that platelet secretion was required for the amplification of aggregation.

Published

2021

20. Metformin Serves as a Novel Drug Treatment for Arterial Thrombosis: Inhibitory Mechanisms on Collagen-Induced Human Platelet Activation.

Author

Chang, Yi, Huang, Wei-Chieh, Hsu, Chia-Yuan, Hsia, Chih-Wei, Jayakumar, Thanasekaran, Hsieh, Cheng-Ying, Lu, Wan-Jung, and Chang, Chao-Chien

Subjects

BLOOD platelet aggregation, BLOOD platelet activation, METFORMIN, MITOGEN-activated protein kinases, PHOSPHATIDYLINOSITOL 3-kinases, PHOSPHOLIPASE C

Abstract

Metformin is widely used as first-line medication for type 2 diabetes (T2D), the main disease comorbid with kidney disease, cardiovascular diseases (CVDs), and retinopathy. Platelets are crucial in platelet-dependent arterial thrombosis, which causes CVDs and cerebrovascular diseases. Research indicates that metformin may improve these diseases; metformin reportedly reduced platelet activation in rats. However, no reports have included human platelets. We investigated the mechanisms underlying metformin's effects on platelet activation by using human platelets and evaluated its in vivo effectiveness in experimental mice. Metformin inhibited platelet aggregation stimulated by collagen but not by arachidonic acid, U46619, or thrombin. Metformin suppressed ATP release, [Ca2+]i mobilization, and P-selectin expression, as well as phospholipase C (PLC)γ2/protein kinase C (PKC), p38 mitogen-activated protein kinase (MAPK), and phosphoinositide 3-kinase (PI3K)/Akt/glycogen synthase kinase-3β (GSK3β) phosphorylation. Metformin did not affect vasodilator-stimulated phosphoprotein (VASP) phosphorylation. In the animal studies, metformin reduced acute pulmonary thromboembolism mortality without increasing bleeding times. These results provide insights into the role and mechanisms of metformin in human platelet activation. Metformin decreased platelet activation by interfering with the PLCγ2/PKC, PI3K/Akt/GSK3β, and p38 MAPK pathways through a VASP-independent mechanism. Metformin demonstrates promise as a new class of antiplatelet agent that can inhibit platelet activation. [ABSTRACT FROM AUTHOR]

Published

2022

21. Human platelets repurposed as vehicles for in vivo imaging of myeloma xenotransplants

Author

Dai, Lu, Gu, Ning, Chen, Bao-An, and Marriott, Gerard

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Hematology, Rare Diseases, Development of treatments and therapeutic interventions, 5.1 Pharmaceuticals, Animals, Apoptosis, Blood Platelets, Cell Proliferation, Humans, Image Processing, Computer-Assisted, Mice, Mice, Inbred NOD, Mice, SCID, Microscopy, Fluorescence, Multiple Myeloma, Platelet Aggregation, Tumor Cells, Cultured, Xenograft Model Antitumor Assays, human platelets, repurposing platelets, tumor-targeting, in vivo imaging, myeloma xenotransplants, Oncology and carcinogenesis

Abstract

Human platelets were identified in tumors by Trousseau in 1865, although their roles in tumor microenvironments have only recently attracted the attention of cancer researchers. In this study we exploit and enhance platelet interactions in tumor microenvironments by introducing tumor-targeting and imaging functions. The first step in repurposing human platelets as vehicles for tumor-targeting was to inhibit platelet-aggregation by cytoplasmic-loading of kabiramide (KabC), a potent inhibitor of actin polymerization and membrane protrusion. KabC-Platelets can accumulate high levels of other membrane-permeable cytoxins and probes, including epidoxorubicin, carboxyfluorescein di-ester and chlorin-e6. Finally, mild reaction conditions were developed to couple tumor-targeting proteins and antibodies to KabC-platelets. Fluorescence microscopy studies showed KabC-platelets, surface-coupled with transferrin and Cy5, bind specifically to RPMI8226 and K562 cells, both of which over-express the transferrin receptor. Repurposed platelets circulate for upto 9-days a feature that increases their chance of interacting with target cells. KabC-platelets, surface-coupled with transferrin and Cy7, or chlorin-e6, and injected in immuno-compromised mice were shown to accumulate specifically in sub-cutaneous and intra-cranial myeloma xenotransplants. The high-contrast, in vivo fluorescence images recorded from repurposed platelets within early-stage myeloma is a consequence in part of their large size (φ~2µm), which allows them to transport 100 to 1000-times more targeting-protein and probe molecules respectively. Human platelets can be configured with a plurality of therapeutic and targeting antibodies to help stage tumor environments for an immunotherapy, or with combinations of therapeutic antibodies and therapeutic agents to target and treat cardiovascular and neurologic diseases.

Published

2016

22. Thrombopoietin and collagen in low doses cooperatively induce human platelet activation

Author

Tomoaki Doi, Takamitsu Hori, Takashi Onuma, Daisuke Mizutani, Kyohei Ueda, Yukiko Enomoto, Rie Matsushima‐Nishiwaki, Kumiko Tanabe, Tomoyuki Hioki, Haruhiko Tokuda, Toru Iwama, Hiroki Iida, Osamu Kozawa, and Shinji Ogura

Subjects

Coagulopathy, collagen, human platelets, thrombocytopenia, thrombopoetin, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Aim In acute medicine, we occasionally treat life‐threatening conditions such as sepsis and trauma, which cause severe thrombocytopenia. Serum thrombopoietin levels have been reported to increase under the condition of thrombocytopenia related to severity. Collagen is a crucial activator of platelets, and Rho family members, such as Rho/Rho‐kinase and Rac, play roles as active molecules involved in the intracellular signaling pathways in platelet activation. The present study aimed to elucidate the effects of thrombopoietin (TPO) on subthreshold low‐dose collagen‐stimulated human platelets in terms of Rho/Rho‐kinase and Rac. Methods Platelet‐rich plasma donated from healthy volunteers was stimulated by the subthreshold low‐dose of collagen after pretreatment with TPO and/or NSC23766, an inhibitor of the Rac‐guanine nucleotide exchange factor interaction, or Y27632, an inhibitor of Rho‐kinase. Platelet aggregation was measured using an aggregometer based on laser‐scattering methods. Proteins involved in intracellular signaling were analyzed using western blotting, and the secretion of platelet‐derived growth factor‐AB from activated platelets was determined using an enzyme‐linked immunosorbent assay. Results Under the existence of TPO, the low dose of collagen remarkably elicited the aggregation and platelet‐derived growth factor‐AB secretion of platelets, which were suppressed by NSC23766 and Y27632. The combination of TPO and collagen considerably induced a transient increase of guanosine triphosphate (GTP)‐binding Rac and GTP‐binding Rho followed by an increase of phosphorylated cofilin, a Rho‐kinase substrate. Conclusion These results strongly suggest that TPO and collagen in low doses cooperatively potentiate human platelet activation through both Rac and Rho/Rho‐kinase mediated pathways.

Published

2022

23. Inside the Mechanism of Action of Three Pyrazole Derivatives in Human Platelets and Endothelial Cells

Author

Chiara Brullo, Eleonora Russo, Silvano Garibaldi, Paola Altieri, Pietro Ameri, Silvia Ravera, and Maria Grazia Signorello

Subjects

human platelets, oxidative stress, oxidative phosphorylation, endothelial cells, antiproliferative activity, pyrazole, Therapeutics. Pharmacology, RM1-950

Abstract

In the effort to obtain multitarget compound interfering with inflammation, oxidative stress, and tumorigenesis, we synthesized a small library of pyrazole compounds, selecting 4a, 4f, and 4g as the most noteworthy being IC50 against platelet ROS production induced by thrombin of about 10 µM. The in vitro antioxidant potential of the three molecules was evaluated, and since they show a remarkable antioxidative activity, their effect on several parameter indicative of oxidative status and on the efficiency of the aerobic metabolism was tested. The three molecules strongly inhibit superoxide anion production, lipid peroxidation, NADPH oxidase activity and almost restore the oxidative phosphorylation efficiency in thrombin-stimulated platelet, demonstrating a protective effect against oxidative stress. This effect was confirmed in endothelial cell in which 4a, 4f, and 4g show an interesting inhibition activity on H2O2-stimulated EA.hy926 cells. At last, antiproliferative activity of 4a, 4f, and 4g was submitted to a large screening at the NCI. The molecules show interesting anticancer activity, among them the most remarkable is 4g able to strongly inhibit the proliferation of both solid tumor and leukemia cells lines. In conclusion, all the three newly synthetized pyrazoles show remarkable antioxidant and antiproliferative effect worthy of further study.

Published

2023

24. Comparison of the Potency of Pterostilbene with NF-κB Inhibitors in Platelet Activation: Mutual Activation by Akt-NF-κB Signaling in Human Platelets.

Author

Hsia, Chih-Wei, Huang, Wei-Chieh, Yang, Chih-Hao, Hsia, Chih-Hsuan, Jayakumar, Thanasekaran, Bhavan, Periyakali Saravana, Sheu, Joen-Rong, and Chiou, Kuan-Rau

Subjects

BLOOD platelet activation, PLATELET aggregation inhibitors, ISCHEMIC stroke, BLOOD platelet aggregation, MYOCARDIAL infarction, CEREBRAL infarction, BLOOD platelets

Abstract

Myocardial infarction and cerebral ischemic stroke are prominent causes of death worldwide. Platelets play major roles in these diseases, although they are anucleated cells, but also express the NF-κB. Pterostilbene (PTE) possesses some intriguing pharmacological properties, including the capacity to inhibit platelet activation. We investigated the inhibitory role of PTE in NF-κB-mediated signal events and compared the relative potency with that of classical NF-κB inhibitors. PTE and IκB kinase (IKK) inhibitor, BAY11-7082, and proteasome inhibitor, Ro106-9920, inhibited platelet aggregation; the activity of BAY11-7082 and PTE were similar, but Ro106-9920 was weak in this reaction. PTE and BAY11-7082 diminished NF-κB signaling molecules, including IKK, IκBα, and p65 phosphorylation, and reversed IκBα degradation. However, Ro106-9920 was only effective in diminishing p65 phosphorylation and reversing IκBα degradation. In investigating the role of Akt and NF-κB in cell signaling events, MK-2206 (an inhibitor of Akt) markedly abolished IKK and p65 phosphorylation; BAY11-7082 also reduced Akt phosphorylation. PTE exhibited more potent activity in vivo than did BAY11-7082 in acute pulmonary thromboembolism. In conclusion, we identified a distinctive activation pathway of NF-κB and Akt involved in PTE-mediated antiplatelet aggregation, and PTE demonstrated powerful activity as a prophylactic and as clinical therapy for cardiovascular diseases. [ABSTRACT FROM AUTHOR]

Published

2021

25. Evaluation of the in vitro effects of commercial herbal preparations significant in African traditional medicine on platelets

Author

Mmamosheledi E. Mothibe, Christina P. Kahler-Venter, and Elzbieta Osuch

Subjects

African traditional medicine, herbal medicine, human platelets, Luminescence, PMA, fMLP, Other systems of medicine, RZ201-999

Abstract

Abstract Background Commercial herbal medicines (CHMs) marketed as immune boosters are gaining wide popularity in South Africa, in the absence of control and regulatory guidelines. These commercially packaged and labelled herbal preparations, acquired in various retail outlets, are used without consulting either a conventional health provider or a traditional health practitioner. Although they are indicated for immune-boosting purposes, they might exert many other beneficial and unwanted effects on physiological systems. Platelets are crucial in haemostasis and important for the immunological system. The aim was to investigate the effect of the CHMs used to strengthen the immune system on the activity of human platelets. Methods Six CHMs commonly used as African traditional medicines in Pretoria, South Africa, were tested for their effects on healthy, isolated human platelets, using a bioluminescence method. The tested herbal medicines were Intlamba Zifo™, Maphilisa™ Herbal medicine, Matla™ African medicine for all diseases, Ngoma™ Herbal Tonic Immune Booster, Stametta™ Body Healing Liquid, and Vuka Uphile™ Immune Booster and serial-diluted standards of each from 10 to 10,000 times. The luminol-enhanced luminescence activity of the platelets was measured after incubation with the herbal medicines and activation with phorbol myristate acetate (PMA) or N-formyl-methionyl-leucyl-phenylalanine (fMLP). Results Five herbal medicines, namely Intlamba Zifo™, Maphilisa™ Herbal medicine, Matla™ African medicine for all diseases, Stametta™ Body Healing Liquid, and Vuka Uphile™ Immune Booster exerted comparable weak inhibitory effects on both PMA and fMLP-induced platelets, which were concentration dependent at high doses, and inversely related to concentration at low doses. Intlamba Zifo™, Matla™ African medicine for all diseases, Stametta™ Body Healing Liquid, and Vuka Uphile™ exhibited weak, but non-systematic stimulatory effects at low doses, which were not statistically significant. Ngoma™ Herbal Tonic Immune Booster had weak, inhibitory effects at high doses and weak stimulatory effects that were inversely related to concentration at low doses. Conclusion The findings suggest a potential beneficial role of the CHMs in the suppression of platelets’ reactivity and in enhancing the immune system. Caution, however, should be exercised as platelet inhibition and stimulation predispose to the risk of bleeding and thrombosis, respectively.

Published

2019

26. Metformin Serves as a Novel Drug Treatment for Arterial Thrombosis: Inhibitory Mechanisms on Collagen-Induced Human Platelet Activation

Author

Yi Chang, Wei-Chieh Huang, Chia-Yuan Hsu, Chih-Wei Hsia, Thanasekaran Jayakumar, Cheng-Ying Hsieh, Wan-Jung Lu, and Chao-Chien Chang

Subjects

human platelets, metformin, p38 MAPK, PLCγ2, pulmonary thrombosis, PI3K/Akt/GSK3β, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Metformin is widely used as first-line medication for type 2 diabetes (T2D), the main disease comorbid with kidney disease, cardiovascular diseases (CVDs), and retinopathy. Platelets are crucial in platelet-dependent arterial thrombosis, which causes CVDs and cerebrovascular diseases. Research indicates that metformin may improve these diseases; metformin reportedly reduced platelet activation in rats. However, no reports have included human platelets. We investigated the mechanisms underlying metformin’s effects on platelet activation by using human platelets and evaluated its in vivo effectiveness in experimental mice. Metformin inhibited platelet aggregation stimulated by collagen but not by arachidonic acid, U46619, or thrombin. Metformin suppressed ATP release, [Ca2+]i mobilization, and P-selectin expression, as well as phospholipase C (PLC)γ2/protein kinase C (PKC), p38 mitogen-activated protein kinase (MAPK), and phosphoinositide 3-kinase (PI3K)/Akt/glycogen synthase kinase-3β (GSK3β) phosphorylation. Metformin did not affect vasodilator-stimulated phosphoprotein (VASP) phosphorylation. In the animal studies, metformin reduced acute pulmonary thromboembolism mortality without increasing bleeding times. These results provide insights into the role and mechanisms of metformin in human platelet activation. Metformin decreased platelet activation by interfering with the PLCγ2/PKC, PI3K/Akt/GSK3β, and p38 MAPK pathways through a VASP-independent mechanism. Metformin demonstrates promise as a new class of antiplatelet agent that can inhibit platelet activation.

Published

2022

27. Lectin-induced oxidative stress in human platelets

Author

Maria Grazia Signorello, Silvia Ravera, and Giuliana Leoncini

Subjects

Human platelets, WGA, PHA, Oxidative stress, Aerobic metabolism, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Previously we have shown that wheat germ agglutinin (WGA) and, with minor potency, Phaseolus vulgaris agglutinin (PHA), but not lens culinarian agglutinin (LCA), induce platelet aggregation, through the PLCƴ2 activation by the concerted action of src/syk and PI3K/BTK pathways. In this study, we have investigated platelet oxidative stress induced by lectins. Several parameters indicative of oxidative stress, such as reactive oxygen species (ROS), superoxide anion, lipid peroxidation and the efficiency of the aerobic metabolism, have been measured. It was found that ROS, superoxide anion formation and lipid peroxidation are significantly increased upon platelet treatment with WGA and PHA while LCA is ineffective. WGA is always more effective than PHA in all experimental conditions tested. In addition, the involvement of NADPH oxidase 1, syk and PI3K in oxidative stress induced by WGA and PHA has been shown. Concerning the lectins effect on aerobic metabolism, WGA and PHA, but not LCA, act as uncoupling agents, determining an increase of oxygen consumption and a decrease of ATP synthesis, with a consequent decrease of P/O value. These results are confirmed by the impairment of platelets proton gradient formation, evaluated by membrane potential, in platelets treated with WGA and PHA. In conclusion lectins, especially WGA, induce oxidative stress in platelets and decrease energy availability through modifications of membrane structure leading to the inefficiency of the aerobic machinery that steers platelets toward death as suggested by the decreased metabolic activity of platelets and the increased lactic dehydrogenase release.

Published

2020

28. Decreased Human Platelet Activation and Mouse Pulmonary Thrombosis by Rutaecarpine and Comparison of the Relative Effectiveness with BAY11-7082: Crucial Signals of p38-NF-κB

Author

Wei-Chieh Huang, Shaw-Min Hou, Ming-Ping Wu, Chih-Wei Hsia, Thanasekaran Jayakumar, Chih-Hsuan Hsia, Periyakali Saravana Bhavan, Chi-Li Chung, and Joen-Rong Sheu

Subjects

DPPH, human platelets, p38 MAPK, NF-κB, pulmonary thrombosis, rutaecarpine, Organic chemistry, QD241-441

Abstract

Platelets play a critical role in arterial thrombosis. Rutaecarpine (RUT) was purified from Tetradium ruticarpum, a well-known Chinese medicine. This study examined the relative activity of RUT with NF-κB inhibitors in human platelets. BAY11-7082 (an inhibitor of IκB kinase [IKK]), Ro106-9920 (an inhibitor of proteasomes), and RUT concentration-dependently (1–6 μM) inhibited platelet aggregation and P-selectin expression. RUT was found to have a similar effect to that of BAY11-7082; however, it exhibits more effectiveness than Ro106-9920. RUT suppresses the NF-κB pathway as it inhibits IKK, IκBα, and p65 phosphorylation and reverses IκBα degradation in activated platelets. This study also investigated the role of p38 and NF-κB in cell signaling events and found that SB203580 (an inhibitor of p38) markedly reduced p38, IKK, and p65 phosphorylation and reversed IκBα degradation as well as p65 activation in a confocal microscope, whereas BAY11-7082 had no effects in p38 phosphorylation. The 2,2-diphenyl-1-picrylhydrazyl (DPPH) assay shows that RUT and BAY11-7082 did not exhibit free radical scavenging activity. In the in vivo study, compared with BAY11-7082, RUT more effectively reduced mortality in adenosine diphosphate (ADP)-induced acute pulmonary thromboembolism without affecting the bleeding time. In conclusion, a distinctive pathway of p38-mediated NF-κB activation may involve RUT-mediated antiplatelet activation, and RUT could act as a strong prophylactic or therapeutic drug for cardiovascular diseases.

Published

2022

29. Bioenergetic bypass using cell-permeable succinate, but not methylene blue, attenuates metformin-induced lactate production

Author

Sarah Piel, Johannes K. Ehinger, Imen Chamkha, Eleonor Åsander Frostner, Fredrik Sjövall, Eskil Elmér, and Magnus J. Hansson

Subjects

Cell-permeable succinate, Human platelets, Lactic acidosis, Metformin, Methylene blue, Mitochondrial respiration, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Metformin is the most common pharmacological treatment for type 2 diabetes. It is considered safe but has been associated with the development of lactic acidosis under circumstances where plasma concentrations exceed therapeutic levels. Metformin-induced lactic acidosis has been linked to the drug’s toxic effect on mitochondrial function. Current treatment strategies aim to remove the drug and correct for the acidosis. With a mortality of 20%, complementary treatment strategies are needed. In this study, it was investigated whether targeting mitochondria with pharmacological agents that bypass metformin-induced mitochondrial dysfunction can counteract the energetic deficit linked to toxic doses of metformin. Methods The redox agent methylene blue and the cell-permeable succinate prodrug NV118 were evaluated by measuring mitochondrial respiration and lactate production of human platelets exposed to metformin and co-treated with either of the two pharmacological bypass agents. Results The cell-permeable succinate prodrug NV118 increased mitochondrial respiration which was linked to phosphorylation by the ATP-synthase and alleviated the increase in lactate production induced by toxic doses of metformin. The redox agent methylene blue, in contrast, failed to mitigate the metformin-induced changes in mitochondrial respiration and lactate generation. Conclusions The cell-permeable succinate prodrug NV118 bypassed the mitochondrial dysfunction and counteracted the energy deficit associated with toxic doses of metformin. If similar effects of NV118 prove translatable to an in vivo effect, this pharmacological strategy presents as a promising complementary treatment for patients with metformin-induced lactic acidosis.

Published

2018

30. Influence of Platelet Aggregation Modulators on Cyclic AMP Production in Human Thrombocytes

Author

Boyanov Krasimir O. and Maneva Ana I.

Subjects

cyclic AMP, human platelets, lactoferrin, Medicine

Abstract

Background: Cyclic AMP is a powerful inhibitor of platelet aggregation. In the present study we examined the effect of platelet aggregation modulators on cyclic AMP content in human thrombocytes. Of the agents we tested, lactoferrin, wortmannin, quercetin and amiloride are platelet aggregation inhibitors, whereas ouabain is a platelet activator.

Published

2018

31. The norpurpureine alkaloid from Annona purpurea inhibits human platelet activation in vitro

Author

Gabriela Sánchez, Omar Estrada, Giovana Acha, Alfonso Cardozo, Franshelle Peña, Marie Christine Ruiz, Fabián Michelangeli, and Claudia Alvarado-Castillo

Subjects

Annona purpurea, Alkaloids, Norpurpureine, Human platelets, Cytology, QH573-671

Abstract

Abstract Background The leaves of Annona purpurea have yielded several alkaloids with anti-aggregation activities against rabbit platelets. This is promising in the search for agents that might act against platelets and reduce the incidence of cardiovascular diseases. Since significant differences in platelet function have been reported between human and animal platelets, a study focusing on the effect of A. purpurea extracts against human platelet activation is necessary. Methods The compounds in an A. purpurea ethanolic extract underwent bio-guided fractionation and were used for in vitro human platelet aggregation assays to isolate the compounds with anti-platelet activity. The bioactive compounds were identified by spectroscopic analysis. Additional platelet studies were performed to characterize their action as inhibitors of human platelet activation. Results The benzylisoquinoline alkaloid norpurpureine was identified as the major anti-platelet compound. The IC50 for norpurpureine was 80 μM against platelets when stimulated with adenosine 5′-diphosphate (ADP), collagen and thrombin. It was pharmacologically effective from 20 to 220 μM. Norpurpureine (220 μM) exhibited its in vitro effectiveness in samples from 30 healthy human donors who did not take any drugs during the 2 weeks prior to the collection. Norpurpureine also gradually inhibited granule secretion and adhesion of activated platelets to immobilized fibrinogen. At the intra-platelet level, norpurpureine prevented agonist-stimulated calcium mobilization and cAMP reduction. Structure–activity relationship analysis indicates that the lack of a methyl group at the nitrogen seems to be key in the ability of the compound to interact with its molecular target. Conclusion Norpurpureine displays a promising in vitro pharmacological profile as an inhibitor of human platelet activation. Its molecular target could be a common effector between Ca2+ and cAMP signaling, such as the PLC-PKC-Ca2+ pathway and PDEs. This needs further evaluation at the protein isoform level.

Published

2018

32. Mitochondrial Respiration of Platelets: Comparison of Isolation Methods

Author

Andrea Vernerova, Luiz Felipe Garcia-Souza, Ondrej Soucek, Milan Kostal, Vit Rehacek, Lenka Kujovska Krcmova, Erich Gnaiger, and Ondrej Sobotka

Subjects

mitochondria, human platelets, thrombocytes, density gradient centrifugation, platelet apheresis, flow cytometry, Biology (General), QH301-705.5

Abstract

Multiple non-aggregatory functions of human platelets (PLT) are widely acknowledged, yet their functional examination is limited mainly due to a lack of standardized isolation and analytic methods. Platelet apheresis (PA) is an established clinical method for PLT isolation aiming at the treatment of bleeding diathesis in severe thrombocytopenia. On the other hand, density gradient centrifugation (DC) is an isolation method applied in research for the analysis of the mitochondrial metabolic profile of oxidative phosphorylation (OXPHOS) in PLT obtained from small samples of human blood. We studied PLT obtained from 29 healthy donors by high-resolution respirometry for comparison of PA and DC isolates. ROUTINE respiration and electron transfer capacity of living PLT isolated by PA were significantly higher than in the DC group, whereas plasma membrane permeabilization resulted in a 57% decrease of succinate oxidation in PA compared to DC. These differences were eliminated after washing the PA platelets with phosphate buffer containing 10 mmol·L−1 ethylene glycol-bis (2-aminoethyl ether)-N,N,N′,N′-tetra-acetic acid, suggesting that several components, particularly Ca2+ and fuel substrates, were carried over into the respiratory assay from the serum in PA. A simple washing step was sufficient to enable functional mitochondrial analysis in subsamples obtained from PA. The combination of the standard clinical PA isolation procedure with PLT quality control and routine mitochondrial OXPHOS diagnostics meets an acute clinical demand in biomedical research of patients suffering from thrombocytopenia and metabolic diseases.

Published

2021

33. Reduction of NF-κB Signals in Platelets and Prolongation of Platelet Plug Formation against High Shear Flow in Whole Blood on Human Subject by Columbianadin.

Author

Hsia, Chih-Wei, Yang, Chih-Hao, Sheu, Joen-Rong, Hsia, Chih-Hsuan, Tsai, Cheng-Lin, Huang, Wei-Chieh, Chen, Ting-Yu, Jayakumar, Thanasekaran, Bhavan, Periyakali Saravana, and Chang, Yi

Subjects

SHEAR flow, MITOGEN-activated protein kinases, BLOOD flow, BLOOD platelet aggregation, BLOOD platelet activation

Abstract

Myocardial infarction and cerebral ischemic stroke during the process of arterial thrombosis are prominently causes of death worldwide. Platelets are anucleated cells and play a critical factor in these diseases. Columbianadin (CBN), a coumarin derivative from plants, inhibits effective platelet activation. In this study, platelet function analysis revealed that the closure time of the platelet plug in human whole blood significantly prolonged by CBN, whereas CBN did not pointedly prolong the bleeding time in mice. BAY11-7082 (an inhibitor of IκB kinase) and MG-132 (an inhibitor of proteasome) inhibited collagen-stimulated platelet aggregation and ATP-release in human platelets, BAY11-7082 exhibited a higher potency than MG-132. Moreover, CBN markedly reduced NF-κB activation (e.g., IκBα and p65 phosphorylation) and reversed IκBα degradation in activated platelets. We investigated intercellular signaling events between mitogen-activated protein kinases and NF-κB, and found that BAY11-7082 abolished JNK1/2 and ERK1/2 phosphorylation. Interestingly, SP600125 (an inhibitor of JNK) but not PD98059 (an inhibitor of ERK) had no effect in NF-κB activation in activated platelets. Moreover, CBN but not BAY11-7082 significantly reduced hydroxyl radical (HO●) formation in platelets. Therefore, we propose that CBN inhibits NF-κB activation in human platelets and could present a potent clinical treatment for thromboembolic diseases. [ABSTRACT FROM AUTHOR]

Published

2020

34. Comparison of the Potency of Pterostilbene with NF-κB Inhibitors in Platelet Activation: Mutual Activation by Akt-NF-κB Signaling in Human Platelets

Author

Chih-Wei Hsia, Wei-Chieh Huang, Chih-Hao Yang, Chih-Hsuan Hsia, Thanasekaran Jayakumar, Periyakali Saravana Bhavan, Joen-Rong Sheu, and Kuan-Rau Chiou

Subjects

Akt, arterial thrombosis, human platelets, NF-κB, pterostilbene, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Myocardial infarction and cerebral ischemic stroke are prominent causes of death worldwide. Platelets play major roles in these diseases, although they are anucleated cells, but also express the NF-κB. Pterostilbene (PTE) possesses some intriguing pharmacological properties, including the capacity to inhibit platelet activation. We investigated the inhibitory role of PTE in NF-κB-mediated signal events and compared the relative potency with that of classical NF-κB inhibitors. PTE and IκB kinase (IKK) inhibitor, BAY11-7082, and proteasome inhibitor, Ro106-9920, inhibited platelet aggregation; the activity of BAY11-7082 and PTE were similar, but Ro106-9920 was weak in this reaction. PTE and BAY11-7082 diminished NF-κB signaling molecules, including IKK, IκBα, and p65 phosphorylation, and reversed IκBα degradation. However, Ro106-9920 was only effective in diminishing p65 phosphorylation and reversing IκBα degradation. In investigating the role of Akt and NF-κB in cell signaling events, MK-2206 (an inhibitor of Akt) markedly abolished IKK and p65 phosphorylation; BAY11-7082 also reduced Akt phosphorylation. PTE exhibited more potent activity in vivo than did BAY11-7082 in acute pulmonary thromboembolism. In conclusion, we identified a distinctive activation pathway of NF-κB and Akt involved in PTE-mediated antiplatelet aggregation, and PTE demonstrated powerful activity as a prophylactic and as clinical therapy for cardiovascular diseases.

Published

2021

35. Reduction of NF-κB Signals in Platelets and Prolongation of Platelet Plug Formation against High Shear Flow in Whole Blood on Human Subject by Columbianadin

Author

Chih-Wei Hsia, Chih-Hao Yang, Joen-Rong Sheu, Chih-Hsuan Hsia, Cheng-Lin Tsai, Wei-Chieh Huang, Ting-Yu Chen, Thanasekaran Jayakumar, Periyakali Saravana Bhavan, and Yi Chang

Subjects

columbianadin, human platelets, hydroxyl radical, ERK1/2, JNK1/2, NF-κB, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Myocardial infarction and cerebral ischemic stroke during the process of arterial thrombosis are prominently causes of death worldwide. Platelets are anucleated cells and play a critical factor in these diseases. Columbianadin (CBN), a coumarin derivative from plants, inhibits effective platelet activation. In this study, platelet function analysis revealed that the closure time of the platelet plug in human whole blood significantly prolonged by CBN, whereas CBN did not pointedly prolong the bleeding time in mice. BAY11-7082 (an inhibitor of IκB kinase) and MG-132 (an inhibitor of proteasome) inhibited collagen-stimulated platelet aggregation and ATP-release in human platelets, BAY11-7082 exhibited a higher potency than MG-132. Moreover, CBN markedly reduced NF-κB activation (e.g., IκBα and p65 phosphorylation) and reversed IκBα degradation in activated platelets. We investigated intercellular signaling events between mitogen-activated protein kinases and NF-κB, and found that BAY11-7082 abolished JNK1/2 and ERK1/2 phosphorylation. Interestingly, SP600125 (an inhibitor of JNK) but not PD98059 (an inhibitor of ERK) had no effect in NF-κB activation in activated platelets. Moreover, CBN but not BAY11-7082 significantly reduced hydroxyl radical (HO●) formation in platelets. Therefore, we propose that CBN inhibits NF-κB activation in human platelets and could present a potent clinical treatment for thromboembolic diseases.

Published

2020

36. Myricetin as a promising inhibitor of platelet fibrinogen receptor in humans.

Author

Chang Y, Hsia CW, Huang WC, Jayakumar T, Hsia CH, Yen TL, Sheu JR, and Hou SM

Abstract

Platelets play a vital role in the formation of dangerous arterial thrombosis. Platelets are activated by adhesive proteins or soluble agonists through their specific receptors. The receptor-mediated signaling pathways lead to common signaling events, which result in shape changes and inside-out signaling, leading fibrinogen binding to glycoprotein IIb/IIIa complex (integrin α IIb β 3 ). This interaction initiates integrin α IIb β 3 -mediated outside-in signaling, subsequently culminating in granule secretion and aggregation. Myricetin is a flavonoid that occurs in a variety of plants. Although myricetin has been demonstrated to have several bioactive properties, its role in platelet activation has not been extensively studied. The present study demonstrated the ability of myricetin to inhibit platelet aggregation stimulated by collagen, thrombin, and U46619. Myricetin reduced the ATP-release, cytosolic Ca 2+ mobilization, and P-selectin expression and the activation of PLCγ2/PKC, PI3K/Akt/GSK3β, and MAPK. Myricetin exerted a direct inhibitory effect on the activation of integrin α IIb β 3 by disrupting the binding between FITC-PAC-1 and the integrin. Moreover, myricetin suppressed integrin α IIb β 3 -mediated outside-in signaling, such as integrin β 3 , Src, and Syk phosphorylation on immobilized fibrinogen. In animal studies, myricetin significantly prolonged the occlusion time of thrombotic platelet plug formation in mesenteric microvessels without extending bleeding time. This study concludes that myricetin is a natural integrin α IIb β 3 inhibitor and a novel antithrombotic agent., Competing Interests: 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., (© 2023 The Authors.)

Published

2023

37. Bio-enriched Pleurotus mushrooms for deficiency control and improved antioxidative protection of human platelets?

Author

Poniedziałek, Barbara, Mleczek, Mirosław, Niedzielski, Przemysław, Siwulski, Marek, Gąsecka, Monika, Kozak, Lidia, Komosa, Anna, and Rzymski, Piotr

Subjects

*PLEUROTUS, *BLOOD platelets, *SELENIUM, *MUSHROOMS, *LIPID peroxidation (Biology)

Abstract

The study investigated effect of substrate supplementation with Se alone or in combination with Cu or/and Zn Se on (1) the growth of Pleurotus ostreatus and Pleurotus eryngii; (2) elements accumulation in mushrooms; (3) the antioxidant activities of bio-enriched mushroom extracts in human platelets. The accumulation of elements generally increased over concentration gradient reaching its maximum at 1.2 mM for P. ostreatus and P. eryngii: (1) over 100 and 80 mg kg of Se, respectively (Se supplementation); (2) over 15 and 30 mg kg of Cu, respectively (Se+Cu); (3) over 30 and 85 mg kg of Zn, respectively. Se was predominantly accumulated as an organic fraction. Contrary to P. eryngii, the P. ostreatus biomass decreased with substrate elements concentration but was satisfactory up to 0.9 mM of Se, Se+Cu and Se+Zn. The Se+Cu+Zn model yielded low biomass and elements accumulation. Extracts from mushrooms bio-enriched with Se and Se+Zn (0.6-1.2 mM) revealed significant antioxidant activities in human platelets by ameliorating reactive oxygen species (ROS) and preventing lipid peroxidation. The study demonstrated the potential application of Pleurotus mushrooms as functional food products bio-enriched with essential elements. ROS inhibition by extracts of these mushrooms may be useful in control of platelets activation cascade. [ABSTRACT FROM AUTHOR]

Published

2017

38. Isolation of Platelet-Derived Exosomes from Human Platelet-Rich Plasma: Biochemical and Morphological Characterization

Author

Farmacología, Neurociencias, Farmakologia, Neurozientziak, Saumell Esnaola, Miquel, Delgado San Vicente, Diego, García del Caño, Gontzal, Beitia San Vicente, Maider, Sallés Alvira, Joan, González Burguera, Imanol, Sánchez, Pello, López de Jesús, Maider, Barrondo Lacarra, Sergio, Sánchez, Mikel, Farmacología, Neurociencias, Farmakologia, Neurozientziak, Saumell Esnaola, Miquel, Delgado San Vicente, Diego, García del Caño, Gontzal, Beitia San Vicente, Maider, Sallés Alvira, Joan, González Burguera, Imanol, Sánchez, Pello, López de Jesús, Maider, Barrondo Lacarra, Sergio, and Sánchez, Mikel

Abstract

Platelet-Rich Plasma (PRP) is enriched in molecular messengers with restorative effects on altered tissue environments. Upon activation, platelets release a plethora of growth factors and cytokines, either in free form or encapsulated in exosomes, which have been proven to promote tissue repair and regeneration. Translational research on the potential of exosomes as a safe nanosystem for therapeutic cargo delivery requires standardizing exosome isolation methods along with their molecular and morphological characterization. With this aim, we isolated and characterized the exosomes released by human PRP platelets. Western blot analysis revealed that CaCl2-activated platelets (PLT-Exos-Ca2+) released more exosomes than non-activated ones (PLT-Exos). Moreover, PLT-Exos-Ca2+ exhibited a molecular signature that meets the most up-to-date biochemical criteria for platelet-derived exosomes and possessed morphological features typical of exosomes as assessed by transmission electron microscopy. Array analysis of 105 analytes including growth factors and cytokines showed that PLT-Exos-Ca2+ exhibited lower levels of most analytes compared to PLT-Exos, but relatively higher levels of those consistently validated as components of the protein cargo of platelet exosomes. In summary, the present study provides new insights into the molecular composition of human platelet-derived exosomes and validates a method for isolating highly pure platelet exosomes as a basis for future preclinical studies in regenerative medicine and drug delivery.

Published

2022

39. Effects of Nanoceria on Human Platelet Functions and Blood Coagulation

Author

Debabrata Dash and Jyotsna Kailashiya

Subjects

Blood Platelets, Organic Chemistry, Biophysics, Pharmaceutical Science, Bioengineering, cerium oxide nanoparticles, General Medicine, Cerium, human platelets, Biomaterials, fibrin polymerization, platelet aggregation, International Journal of Nanomedicine, Drug Discovery, Humans, Nanoparticles, Blood Coagulation, Original Research, thromboelastogram

Abstract

Purpose Cerium oxide nanoparticles (nanoceria) exist in either 3+ or 4+ oxidation state with interesting redox properties and exhibit both oxidant and antioxidant attributes based on concentration, environment and pH. Thanks to their wide spread use in fuel, cosmetics and other industries as well as in biomedical field, nanoceria particles get released into environment with risk of significant human exposure, and thus necessitate careful examination and optimization of their biomedical applications. Methods This research was planned to explore effects of nanoceria on human platelet functions and whole blood coagulation. Platelets and whole blood from volunteer healthy donors were treated with different doses of nanoceria and various platelet functions, fibrin polymerization and blood coagulation were tested. Results Nanoceria particles were found to reduce platelet aggregation and secretion of granule contents in a dose-dependent manner, impaired fibrin polymerization and retraction of fibrin-rich thrombi, associated with reduced cytosolic filamentous actin. Remarkably, nanoceria instigated early clot formation in whole blood attributable to putative activation of coagulation cascade. Conclusion Above observations provide cautionary framework to critically re-evaluate and accordingly plan biomedical applications of nanoceria., Graphical Abstract

Published

2022

40. Isolation of Platelet-Derived Exosomes from Human Platelet-Rich Plasma: Biochemical and Morphological Characterization

Author

Miquel Saumell-Esnaola, Diego Delgado, Gontzal García del Caño, Maider Beitia, Joan Sallés, Imanol González-Burguera, Pello Sánchez, Maider López de Jesús, Sergio Barrondo, and Mikel Sánchez

Subjects

Blood Platelets, Wound Healing, Organic Chemistry, platelet-derived-exosomes, platelet-rich plasma, General Medicine, Exosomes, Catalysis, human platelets, exosome markers, cytokines, Computer Science Applications, Inorganic Chemistry, growth factors, Humans, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Platelet-Rich Plasma (PRP) is enriched in molecular messengers with restorative effects on altered tissue environments. Upon activation, platelets release a plethora of growth factors and cytokines, either in free form or encapsulated in exosomes, which have been proven to promote tissue repair and regeneration. Translational research on the potential of exosomes as a safe nanosystem for therapeutic cargo delivery requires standardizing exosome isolation methods along with their molecular and morphological characterization. With this aim, we isolated and characterized the exosomes released by human PRP platelets. Western blot analysis revealed that CaCl2-activated platelets (PLT-Exos-Ca2+) released more exosomes than non-activated ones (PLT-Exos). Moreover, PLT-Exos-Ca2+ exhibited a molecular signature that meets the most up-to-date biochemical criteria for platelet-derived exosomes and possessed morphological features typical of exosomes as assessed by transmission electron microscopy. Array analysis of 105 analytes including growth factors and cytokines showed that PLT-Exos-Ca2+ exhibited lower levels of most analytes compared to PLT-Exos, but relatively higher levels of those consistently validated as components of the protein cargo of platelet exosomes. In summary, the present study provides new insights into the molecular composition of human platelet-derived exosomes and validates a method for isolating highly pure platelet exosomes as a basis for future preclinical studies in regenerative medicine and drug delivery. This work was funded by the Provincial Council of Alava through the Alava Innova Program, Basque Government (IT1230-19), MINECO CTQ2017-85686-R (Spanish Ministry of Economy and Competitiveness and Centro de Investigación Biomédica en Red de Salud Mental (CIBERSAM).

Published

2022

41. Mitochondrial Respiration of Platelets: Comparison of Isolation Methods

Author

Sobotka, Andrea Vernerova, Luiz Felipe Garcia-Souza, Ondrej Soucek, Milan Kostal, Vit Rehacek, Lenka Kujovska Krcmova, Erich Gnaiger, and Ondrej

Subjects

mitochondria, human platelets, thrombocytes, density gradient centrifugation, platelet apheresis, flow cytometry, high-resolution respirometry, oxidative phosphorylation

Abstract

Multiple non-aggregatory functions of human platelets (PLT) are widely acknowledged, yet their functional examination is limited mainly due to a lack of standardized isolation and analytic methods. Platelet apheresis (PA) is an established clinical method for PLT isolation aiming at the treatment of bleeding diathesis in severe thrombocytopenia. On the other hand, density gradient centrifugation (DC) is an isolation method applied in research for the analysis of the mitochondrial metabolic profile of oxidative phosphorylation (OXPHOS) in PLT obtained from small samples of human blood. We studied PLT obtained from 29 healthy donors by high-resolution respirometry for comparison of PA and DC isolates. ROUTINE respiration and electron transfer capacity of living PLT isolated by PA were significantly higher than in the DC group, whereas plasma membrane permeabilization resulted in a 57% decrease of succinate oxidation in PA compared to DC. These differences were eliminated after washing the PA platelets with phosphate buffer containing 10 mmol·L−1 ethylene glycol-bis (2-aminoethyl ether)-N,N,N′,N′-tetra-acetic acid, suggesting that several components, particularly Ca2+ and fuel substrates, were carried over into the respiratory assay from the serum in PA. A simple washing step was sufficient to enable functional mitochondrial analysis in subsamples obtained from PA. The combination of the standard clinical PA isolation procedure with PLT quality control and routine mitochondrial OXPHOS diagnostics meets an acute clinical demand in biomedical research of patients suffering from thrombocytopenia and metabolic diseases.

Published

2021

42. Mitochondrial Respiration of Platelets: Comparison of Isolation Methods

Author

Vernerova, Andrea, Garcia-Souza, Luiz Felipe, Soucek, Ondrej, Kostal, Milan, Rehacek, Vit, Kujovska Krcmova, Lenka, Gnaiger, Erich, and Sobotka, Ondrej

Subjects

mitochondria, platelet apheresis, density gradient centrifugation, QH301-705.5, flow cytometry, oxidative phosphorylation, high-resolution respirometry, Biology (General), Article, human platelets, thrombocytes

Abstract

Multiple non-aggregatory functions of human platelets (PLT) are widely acknowledged, yet their functional examination is limited mainly due to a lack of standardized isolation and analytic methods. Platelet apheresis (PA) is an established clinical method for PLT isolation aiming at the treatment of bleeding diathesis in severe thrombocytopenia. On the other hand, density gradient centrifugation (DC) is an isolation method applied in research for the analysis of the mitochondrial metabolic profile of oxidative phosphorylation (OXPHOS) in PLT obtained from small samples of human blood. We studied PLT obtained from 29 healthy donors by high-resolution respirometry for comparison of PA and DC isolates. ROUTINE respiration and electron transfer capacity of living PLT isolated by PA were significantly higher than in the DC group, whereas plasma membrane permeabilization resulted in a 57% decrease of succinate oxidation in PA compared to DC. These differences were eliminated after washing the PA platelets with phosphate buffer containing 10 mmol·L−1 ethylene glycol-bis (2-aminoethyl ether)-N,N,N′,N′-tetra-acetic acid, suggesting that several components, particularly Ca2+ and fuel substrates, were carried over into the respiratory assay from the serum in PA. A simple washing step was sufficient to enable functional mitochondrial analysis in subsamples obtained from PA. The combination of the standard clinical PA isolation procedure with PLT quality control and routine mitochondrial OXPHOS diagnostics meets an acute clinical demand in biomedical research of patients suffering from thrombocytopenia and metabolic diseases.

Published

2021

43. Rutaecarpine, an Alkaloid from Evodia rutaecarpa, Can Prevent Platelet Activation in Humans and Reduce Microvascular Thrombosis in Mice: Crucial Role of the PI3K/Akt/GSK3β Signal Axis through a Cyclic Nucleotides/VASP—Independent Mechanism

Author

Chih-Wei Hsia, Lan-Hsin Shu, Periyakali Saravana Bhavan, Chao-Chien Chang, Joen Rong Sheu, Cheng-Ying Hsieh, Wei-Chieh Huang, Chun Jen Huang, Oanh-Thi Tran, Wei-Ting Lin, and Thanasekaran Jayakumar

Subjects

QH301-705.5, Pharmacology, Catalysis, Inorganic Chemistry, Cyclic nucleotide, chemistry.chemical_compound, microvascular thrombosis, cyclic nucleotide, Platelet, Platelet activation, Physical and Theoretical Chemistry, Biology (General), Protein kinase A, Molecular Biology, Protein kinase B, QD1-999, Spectroscopy, Protein kinase C, Phospholipase C, hydroxyl radical, Organic Chemistry, General Medicine, Rutaecarpine, VASP, MAPK, human platelets, Computer Science Applications, rutaecarpine, Chemistry, chemistry, PI3K/Akt/GSK3β

Abstract

The role of activated platelets in acute and chronic cardiovascular diseases (CVDs) is well established. Therefore, antiplatelet drugs significantly reduce the risk of severe CVDs. Evodia rutaecarpa (Wu-Chu-Yu) is a well-known Chinese medicine, and rutaecarpine (Rut) is a main bioactive component with substantial beneficial properties including vasodilation. To address a research gap, we investigated the inhibitory mechanisms of Rut in washed human platelets and experimental mice. At low concentrations (1–5 μM), Rut strongly inhibited collagen-induced platelet aggregation, whereas it exerted only a slight or no effect on platelets stimulated with other agonists (e.g., thrombin). Rut markedly inhibited P-selectin expression, adenosine triphosphate release, [Ca2+]i mobilization, hydroxyl radical formation, and phospholipase C (PLC)γ2/protein kinase C (PKC), mitogen-activated protein kinase, and phosphoinositide 3-kinase (PI3K)/Akt/glycogen synthase kinase-3β (GSK3β) phosphorylation stimulated by collagen. SQ22536 (an adenylate cyclase inhibitor) or ODQ (a guanylate cyclase inhibitor) did not reverse Rut-mediated antiplatelet aggregation. Rut was not directly responding to vasodilator-stimulated phosphoprotein phosphorylation. Rut significantly increased the occlusion time of fluorescence irradiated thrombotic platelet plug formation. The findings demonstrated that Rut exerts a strong effect against platelet activation through the PLCγ2/PKC and PI3K/Akt/GSK3β pathways. Thus, Rut can be a potential therapeutic agent for thromboembolic disorders.

Published

2021

44. Rutaecarpine, an Alkaloid from

Author

Chun-Jen, Huang, Wei-Chieh, Huang, Wei-Ting, Lin, Lan-Hsin, Shu, Joen-Rong, Sheu, Oanh-Thi, Tran, Chih-Wei, Hsia, Thanasekaran, Jayakumar, Periyakali Saravana, Bhavan, Cheng-Ying, Hsieh, and Chao-Chien, Chang

Subjects

Male, Platelet Aggregation, Article, Evodia, Indole Alkaloids, Mice, Phosphatidylinositol 3-Kinases, Alkaloids, microvascular thrombosis, cyclic nucleotide, Animals, Humans, Cells, Cultured, Mice, Inbred ICR, Glycogen Synthase Kinase 3 beta, hydroxyl radical, Plant Extracts, Microfilament Proteins, Thrombosis, VASP, Phosphoproteins, Platelet Activation, MAPK, human platelets, rutaecarpine, PI3K/Akt/GSK3β, Quinazolines, Quinolines, Nucleotides, Cyclic, Cell Adhesion Molecules, Proto-Oncogene Proteins c-akt, Signal Transduction

Abstract

The role of activated platelets in acute and chronic cardiovascular diseases (CVDs) is well established. Therefore, antiplatelet drugs significantly reduce the risk of severe CVDs. Evodia rutaecarpa (Wu-Chu-Yu) is a well-known Chinese medicine, and rutaecarpine (Rut) is a main bioactive component with substantial beneficial properties including vasodilation. To address a research gap, we investigated the inhibitory mechanisms of Rut in washed human platelets and experimental mice. At low concentrations (1–5 μM), Rut strongly inhibited collagen-induced platelet aggregation, whereas it exerted only a slight or no effect on platelets stimulated with other agonists (e.g., thrombin). Rut markedly inhibited P-selectin expression; adenosine triphosphate release; [Ca2+]i mobilization; hydroxyl radical formation; and phospholipase C (PLC)γ2/protein kinase C (PKC), mitogen-activated protein kinase, and phosphoinositide 3-kinase (PI3K)/Akt/glycogen synthase kinase-3β (GSK3β) phosphorylation stimulated by collagen. SQ22536 (an adenylate cyclase inhibitor) or ODQ (a guanylate cyclase inhibitor) did not reverse Rut-mediated antiplatelet aggregation. Rut was not directly responding to vasodilator-stimulated phosphoprotein phosphorylation. Rut significantly increased the occlusion time of fluorescence irradiated thrombotic platelet plug formation. The findings demonstrated that Rut exerts a strong effect against platelet activation through the PLCγ2/PKC and PI3K/Akt/GSK3β pathways. Thus, Rut can be a potential therapeutic agent for thromboembolic disorders.

Published

2021

45. Preservation of biomaterials and cells by freeze-drying : Change of paradigm

Author

Merivaara, Arto, Zini, Jacopo, Koivunotko, Elle, Valkonen, Sami, Korhonen, Ossi, Fernandes, Francisco M., Yliperttula, Marjo, Division of Pharmaceutical Biosciences, Biopharmaceutics Group, and Drug Research Program

Subjects

NEAR-INFRARED SPECTROSCOPY, IN-LINE, Cells, GLASS-TRANSITION TEMPERATURE, EXTRACELLULAR VESICLES, Process analytical technology, HUMAN PLATELETS, DESICCATION TOLERANCE, RED-BLOOD-CELLS, ANALYTICAL TECHNOLOGY PAT, Quality-by-design, 317 Pharmacy, Freeze-drying, WATER, DRIED LIPOSOMES, Biophotonics

Abstract

Freeze-drying is the most widespread method to preserve protein drugs and vaccines in a dry form facilitating their storage and transportation without the laborious and expensive cold chain. Extending this method for the preservation of natural biomaterials and cells in a dry form would provide similar benefits, but most results in the domain are still below expectations. In this review, rather than consider freeze-drying as a traditional black box we "break it" through a detailed process thinking approach. We discuss freeze-drying from process thinking aspects, introduce the chemical, physical, and mechanical environments important in this process, and present advanced biophotonic process analytical technology. In the end, we review the state of the art in the freezedrying of the biomaterials, extracellular vesicles, and cells. We suggest that the rational design of the experiment and implementation of advanced biophotonic tools are required to successfully preserve the natural biomaterials and cells by freeze-drying. We discuss this change of paradigm with existing literature and elaborate on our perspective based on our new unpublished results.

Published

2021

46. Brain-Derived Neurotrophic Factor Signaling in Depression and Antidepressant Action

Author

Castren, Eero, Monteggia, Lisa M., Neuroscience Center, Helsinki Institute of Life Science HiLIFE, and University of Helsinki

Subjects

BDNF VAL66MET POLYMORPHISM, HUMAN PLATELETS, ELECTROCONVULSIVE-THERAPY, nervous system, POSTMORTEM BRAIN, BEHAVIORAL ACTIONS, HIPPOCAMPAL BDNF, 3112 Neurosciences, PROMOTER METHYLATION, TYROSINE KINASE-B, MAJOR DEPRESSION, SERUM-LEVELS, 3124 Neurology and psychiatry

Abstract

Neurotrophic factors, particularly BDNF (brain-derived neurotrophic factor), have been associated with depression and antidepressant drug action. A variety of preclinical and clinical studies have implicated impaired BDNF signaling through its receptor TrkB (neurotrophic receptor tyrosine kinase 2) in the pathophysiology of mood disorders, but many of the initial findings have not been fully supported by more recent meta-analyses, and more both basic and clinical research is needed. In contrast, increased expression and signaling of BDNF has been repeatedly implicated in the mechanisms of both typical and rapid-acting antidepressant drugs, and recent findings have started to elucidate the mechanisms through which antidepressants regulate BDNF signaling. BDNF is a critical regulator of various types of neuronal plasticities in the brain, and plasticity has increasingly been connected with antidepressant action. Although some equivocal data exist, the hypothesis of a connection between neurotrophic factors and neuronal plasticity with mood disorders and antidepressant action has recently been further strengthened by converging evidence from a variety of more recent data reviewed here.

Published

2021

47. A major interspecies difference in the ionic selectivity of megakaryocyte Ca2+-activated channels sensitive to the TMEM16F inhibitor CaCCinh-A01

Author

Martyn P. Mahaut-Smith and Kirk A. Taylor

Subjects

PHOSPHATIDYLSERINE EXPOSURE, 0301 basic medicine, Phospholipid scramblase, 030204 cardiovascular system & hematology, ACTIVATION, megakaryocyte, phospholipid scrambling, Mice, 0302 clinical medicine, Phospholipid scrambling, Megakaryocyte, Scott syndrome, Platelet, Phospholipid Transfer Proteins, platelet, Chemistry, Hematology, General Medicine, Membrane, medicine.anatomical_structure, Chloride channel, CL-CHANNEL, ANOCTAMIN 6, Life Sciences & Biomedicine, Megakaryocytes, EXPRESSION, Anoctamins, HUMAN PLATELETS, 03 medical and health sciences, medicine, Animals, Humans, CELL, Ion channel, Science & Technology, CONDUCTANCE, CHLORIDE CHANNELS, TMEM16F, 1103 Clinical Sciences, Biological Transport, Cell Biology, medicine.disease, Rats, 030104 developmental biology, Cardiovascular System & Hematology, Biophysics, Calcium, Plenary Paper and Short Communication, MEMBRANE

Abstract

TMEM16F is a surface membrane protein critical for platelet procoagulant activity, which exhibits both phospholipid scramblase and ion channel activities following sustained elevation of cytosolic Ca2+. The extent to which the ionic permeability of TMEM16F is important for platelet scramblase responses remains controversial. To date, only one study has reported the electrophysiological properties of TMEM16F in cells of platelet/megakaryocyte lineage, which observed cation-selectivity within excised patch recordings from murine marrow-derived megakaryocytes. This contrasts with reports using whole-cell recordings that describe this channel as displaying either selectivity for anions or being relatively non-selective amongst the major physiological monovalent ions. We have studied TMEM16F expression and channel activity in primary rat and mouse megakaryocytes and the human erythroleukemic (HEL) cell line that exhibits megakaryocytic surface markers. Immunocytochemical analysis was consistent with surface TMEM16F expression in cells from all three species. Whole-cell recordings in the absence of K+-selective currents revealed an outwardly rectifying conductance activated by a high intracellular Ca2+ concentration in all three species. These currents appeared after 5–6 minutes and were blocked by CaCCinh-A01, properties typical of TMEM16F. Ion substitution experiments showed that the underlying conductance was predominantly Cl–-permeable in rat megakaryocytes and HEL cells, yet non-selective between monovalent anions and cations in mouse megakaryocytes. In conclusion, the present study further highlights the difference in ionic selectivity of TMEM16F in platelet lineage cells of the mouse compared to other mammalian species. This provides additional support for the ionic “leak” hypothesis that the scramblase activity of TMEM16F does not rely upon its ability to conduct ions of a specific type.

Published

2019

48. Isomères trans de l’acide a-linolénique et agrégation plaquettaire chez l’homme

Author

Berdeaux Olivier and Bretillon Lionel

Subjects

rat platelets, human platelets, platelet aggregation, trans fatty acid, a-linolenic acid, eicosapentaenoic acid, arachidonic acid, Oils, fats, and waxes, TP670-699

Abstract

Les principaux isomères trans de l’acide linolénique formés aux cours des traitements technologiques et thermiques sont les isomères 18 :3-9c,12c,15t,-9t,12c,15c et, à moindre taux, -9t,12c,15t. Ils sont présents dans des huiles raffinées, des huiles végétales partiellement hydrogénées et dans des produits frits, et sont par conséquent consommés par l’homme [1]. Ces isomères 18 :3-trans semblent suivre les mêmes voies de conversion que leur homologue naturel, le 18 :3n-3. En effet, un certain nombre d’études ont montré que les 18 :3-trans étaient allongés en acides gras à 20 et 22 atomes de carbone présentant des liaisons éthyléniques trans [2-5]. Aussi, ces isomères trans de l’acide éicosapentaénoïque (EPA) et de l’acide docosahexaénoïque (DHA) ont été retrouvés dans différentes classes de lipides de différents organes de rats ayant reçu pendant huit semaines un régime contenant 10 % d’huile de lin chauffée 12 heures à 275 °C [3-4, 6]. Cependant, une analyse quantitative de ces 20 :5-trans dans le foie de ces rats a révélé que l’isomère 20 :5-17t représentait 80 % de l’ensemble des isomères 20 :5-trans formés, alors que les isomères 20 :5-11t et -11t,17t ne représentaient que seulement 5 % [4, 5]. Ceci montre que l’isomère 18 :3-15t est converti en 20 :5-trans en quantité plus importante que ne le sont les 18 :3-9t et -9t,15t [7]. Chardigny et al., en 1993, ont montré que seuls les 20 :5-17t et 22 :6-19t issus du 18 :3-15t étaient présents dans les plaquettes sanguines humaines [8].

Published

2000

49. Platelet hyperactivity in COVID-19: Can the tomato extract fruitflow® be used as an antiplatelet regime?

Author

Asim K. Duttaroy and Niamh O'Kennedy

Subjects

Blood Platelets, 0301 basic medicine, Anti-Inflammatory Agents, Blood Pressure, Inflammation, Article, 03 medical and health sciences, 0302 clinical medicine, Solanum lycopersicum, medicine, Humans, Water-soluble tomato extract, Platelet, Platelet activation, SARS-Cov-2 virus, Blood Coagulation, Platelet hyperactivity, Disseminated intravascular coagulation, Coagulation, Plant Extracts, business.industry, COVID-19, Thrombosis, General Medicine, Models, Theoretical, Platelet Activation, Prognosis, medicine.disease, Fruitflow®, 030104 developmental biology, Blood pressure, Immunoglobulin G, Immunology, Disease Progression, Immunothrombosis, medicine.symptom, business, Cytokine storm, Human platelets, Platelet Aggregation Inhibitors, 030217 neurology & neurosurgery

Abstract

The ongoing coronavirus disease 2019 (COVID-19) pandemic caused by the SARS-CoV-2 virus is now considered a global public health threat. The primary focus has been on reducing the viral spread and treating respiratory symptoms; as time goes on, the impact of COVID-19 on neurological and haemostatic systems becomes more evident. The clinical data suggest that platelet hyperactivity plays a role in the pathology of COVID-19 from its onset and that platelets may serve critical functions during COVID‐19 progression. Hyperactivation of blood platelets and the coagulation system are emerging as important drivers of inflammation and may be linked to the severity of the ‘cytokine storm’ induced in severe cases of COVID-19, in which disseminated intravascular coagulation, and platelet hyperactivity are associated with poor prognosis and increased risk of mortality. We propose that targeting platelet hyperactivity in the early stages of COVID-19 infection may reduce the immunothrombotic complications of COVID-19 and subdue the systemic inflammatory response. Lowering baseline platelet activity may be of particular importance for higher-risk groups. As an alternative to antiplatelet drugs, an inappropriate intervention in public health, we propose that the dietary antiplatelet agent Fruitflow®, derived from tomatoes, may be considered a suitable therapy. Fruitflow® contains antiplatelet and anti-inflammatory compounds that target the mechanisms of platelet activation specific to COVID-19 and can be considered a safe and natural antiplatelet regime.

Published

2021

50. Gd(DOTA)-grafted submicronic polysaccharide-based particles functionalized with fucoidan as potential MR contrast agent able to target human activated platelets

Author

Elise Gobin, Didier Le Cerf, Laura Marcela Forero Ramirez, Rachida Aid-Launais, Fernanda C. Moraes, Frédéric Chaubet, Didier Letourneur, Luc Picton, Clément Journé, Cédric Chauvierre, Laboratoire de Recherche Vasculaire Translationnelle (LVTS (UMR_S_1148 / U1148)), and Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Paris (UP)-Université Sorbonne Paris Nord

Subjects

Polymers and Plastics, [SDV]Life Sciences [q-bio], Contrast Media, Gadolinium, 02 engineering and technology, 01 natural sciences, chemistry.chemical_compound, fucoidan, Heterocyclic Compounds, Materials Chemistry, crosslinking, Cells, Cultured, chemistry.chemical_classification, Fucoidan, Dextrans, 021001 nanoscience & nanotechnology, Fluorescence, Magnetic Resonance Imaging, Healthy Volunteers, human platelets, submicronic particles, Dextran, Cross-Linking Reagents, Emulsions, 0210 nano-technology, MRI, Adult, Blood Platelets, Macromolecular Substances, 010402 general chemistry, Polysaccharide, Heterocyclic Compounds, 1-Ring, Polysaccharides, Human Umbilical Vein Endothelial Cells, Organometallic Compounds, DOTA, Humans, Platelet activation, Particle Size, Organic Chemistry, Mr contrast agent, Spectrometry, X-Ray Emission, Thrombosis, Platelet Activation, In vitro, 0104 chemical sciences, chemistry, Biophysics, Nanoparticles

Abstract

International audience; Early detection of thrombotic events remains a big medical challenge. Dextran-based submicronic particles bearing Gd(DOTA) groups and functionalized with fucoidan have been produced via a simple and green water-in-oil emulsification/co-crosslinking process. Their capacity to bind to human activated platelets was evidenced in vitro as well as their cytocompatibility with human endothelial cells. The presence of Gd(DOTA) moieties was confirmed by elemental analysis and total reflection X-ray fluorescence (TRXF) spectrometry. Detailed characterization of particles was performed in terms of size distribution, morphology, and relaxation rates. In particular, longitudinal and transversal proton relaxivities were respectively 1.7 and 5.0 times higher than those of DOTAREM. This study highlights their potential as an MRI diagnostic platform for atherothrombosis.

Published

2020