Your search keyword '"Wu, Ya-Ping"' showing total 7 results

1. The authors reply to beta-⁹⁰Sr irradiation treatment of silicon wafer coated with extracellular matrix protein to mimic the beta-³²P radiation application in intravascular brachytherapy.

Author

Zhang LM, Liu W, Chen SF, Wang YT, Pan SD, Ma WS, Wu YP, and Wang JY

Subjects

Humans, Beta Particles therapeutic use, Brachytherapy methods, Endovascular Procedures methods, Extracellular Matrix Proteins radiation effects, Platelet Adhesiveness radiation effects

Published

2012

2. β-radiation reduces the reactivity of extracellular matrix proteins in intravascular brachytherapy (IVBT), resulting in decreased platelet adhesion.

Author

Wu YP, Stella PR, Chen SF, Wang YT, Wang JY, Moerland MA, Pan SD, Zhang B, Li GY, Doevendans PA, and de Groot PG

Subjects

Brachytherapy adverse effects, Endovascular Procedures adverse effects, Extracellular Matrix Proteins physiology, Humans, Platelet Adhesiveness physiology, Random Allocation, von Willebrand Factor physiology, von Willebrand Factor radiation effects, Beta Particles therapeutic use, Brachytherapy methods, Endovascular Procedures methods, Extracellular Matrix Proteins radiation effects, Platelet Adhesiveness radiation effects

Abstract

Background: Intravascular Brachytherapy as a tool to reduce restenosis is thought to alter vascular wall biology and vessel wall protein function. Platelet accumulation is also indeed important in the genesis of restenosis. We examine the in vitro effects of beta-radiation on the certain vessel wall extra cellular matrix proteins. We hypothesized that vessel wall (proteins) had become less prone to thrombosis., Methods: We examined platelet adhesion to 20-Gy beta radiation treated extra cellular matrix proteins under flow conditions. Platelet flow adhesion was evaluated or quantified by image analysis, aggregation size analysis using the Watershed program and real-time fluorescence images of thrombus formation. The effect of beta radiation on vWF was further showing by measuring the binding of domain-specific antibodies to radiation treated vWF., Results: 20-Gy beta radiation significantly decreased platelet adhesion to extra cellular matrix protein; vWF and collagen Type III and had no effect on the adhesion upon fibrinogen and fibronectin. The beta-radiation affected mostly the AI, A2 and A3 domains of the vWF molecule on the surface, whereas the D'-D3 and B-C1 domains on the surface remain unaffected and suggesting a significant decrease in vWF binding capacity to the GPIb, heparin and collagen ligands., Conclusion: Beta radiation treatment can alter the reactivity of the certain vessel wall extra cellular matrix proteins, in particular vWF and collagen. The vessel wall may become less prone to platelet adhesion, which results in decrease thrombus formation. It might help to reduce the onset of acute coronary occlusion after the intervention., (Copyright © 2010 Elsevier Ireland Ltd. All rights reserved.)

Published

2012

3. Salvianolic acid B inhibits platelet adhesion under conditions of flow by a mechanism involving the collagen receptor alpha2beta1.

Author

Wu YP, Zhao XM, Pan SD, Guo DA, Wei R, Han JJ, Kainoh M, Xia ZL, de Groot PG, and Lisman T

Subjects

Benzofurans isolation & purification, Cell Adhesion drug effects, Plant Roots chemistry, Platelet Adhesiveness physiology, Protein Binding drug effects, Salvia chemistry, Solubility, Stress, Mechanical, Benzofurans pharmacology, Hemorheology drug effects, Integrin alpha2beta1 metabolism, Platelet Adhesiveness drug effects, Receptors, Collagen metabolism

Abstract

Salvianolic acid B (SAB) is a component of Danshen, a herb widely used in Chinese medicine, and was previously shown to exert a number of biological activities including inhibition of platelet function, but the exact mechanisms involved are unclear. SAB dose-dependently inhibited platelet deposition from flowing, anticoagulated whole blood to immobilized collagen at both venous and arterial shear rate, whereas platelet deposition to immobilized fibrinogen was not affected. The inhibitory effect of SAB on platelet adhesion to collagen was independent of alphaIIbbeta3, since SAB still inhibited platelet deposition in the presence of a alphaIIbbeta3-blocking peptide. SAB inhibited static platelet adhesion to a synthetic peptide specific for the collagen receptor alpha2beta1, whereas platelet adhesion to a glycoprotein VI-specific peptide was not affected. SAB inhibited binding of an antibody against alpha2beta1 to platelets as studied by flow cytometry, and inhibited the interaction of soluble alpha2beta1 to immobilized collagen in a solid phase binding assay. These combined results indicate that SAB inhibits platelet adhesion to immobilized collagen by interfering with the collagen receptor alpha2beta1.

Published

2008

4. The influence of the pulsatility of the blood flow on the extent of platelet adhesion.

Author

Zhao XM, Wu YP, Cai HX, Wei R, Lisman T, Han JJ, Xia ZL, and de Groot PG

Subjects

Blood Flow Velocity, Blood Platelets chemistry, Collagen Type III chemistry, Collagen Type III metabolism, Hemorheology methods, Humans, P-Selectin analysis, Reference Values, Sensitivity and Specificity, Surface Properties, Blood Platelets physiology, Hemorheology instrumentation, Models, Cardiovascular, Platelet Adhesiveness physiology, Pulsatile Flow

Abstract

A new improved flow system was developed to study the influence of blood flow pulsatility on platelet adhesion on adhesive proteins and bio-medical materials. The pulsatility was introduced by changing the shear rate every 15 s in blood that was aspirated through a perfusion chamber by a syringe pump. The advantage of this new system is that it avoids system related platelet activation. At steady low shear rate (300/s) after 5 min a collagen type III surface was covered for 24.2+/-3.8% with platelets. At steady high shear rate (1300/s) platelet coverage to collagen was 48.8+/-6.8%. When pulsatility was introduced by changing the shear rate was every 15 s form 300/s to 1300/s and vice-versa, platelet coverage after 5 min was increased to 60.4+/-4.0% (p<0.001). After 5 min perfusion samples were taken from the perfusate and the extent of platelet activation was measured. The significant difference in surface expression of P-selectin on platelets is only seen when comparing pulse flow with control (no flow). We concluded that a significant increase in platelet activation during blood pulsatile flow compared with steady flow, which results in an increased platelet adhesion to collagen.

Published

2008

5. Platelet binding and phagocytosis by macrophages.

Author

Badlou BA, Wu YP, Smid WM, and Akkerman JW

Subjects

Cell Line, Cell Survival, Humans, P-Selectin metabolism, Platelet Transfusion, Blood Preservation adverse effects, Macrophages metabolism, Phagocytosis, Platelet Adhesiveness

Abstract

Background: Earlier it was reported that metabolic arrest followed by incubation at 4 degrees C reduces the platelet (PLT) storage defect. Here it is reported that this treatment also reduces binding and phagocytosis by macrophages., Study Design and Methods: Phagocytosis of mepacrine-labeled PLTs by macrophages changes the latter into bright fluorescent particles easily detected by fluorescence-activated cell sorting., Results: In combination with conventional binding analysis it was found that binding to phorbol 12-myristate 13-acetate-matured THP-1 cells is primarily regulated by PLT P-selectin expression and phagocytosis by combined phosphatidylserine (PS) exposure and glycoprotein (GP) Ibalpha clustering. It was found that trapping of PLT Ca2+ and raising cAMP reduces phagocytosis by lowering PS exposure. Chilling of PLTs leads to an increase in binding and PS- and GPIbalpha-mediated phagocytosis. Prior depletion of PLT energy stores prevents this increase by preserving low Ca2+ concentration, PS exposure, and PS-mediated phagocytosis., Conclusion: These data characterize the individual factors that control PLT binding and phagocytosis and might help to define conditions that improve the survival of stored PLTs after transfusion.

Published

2006

6. Fibrin-incorporated vitronectin is involved in platelet adhesion and thrombus formation through homotypic interactions with platelet-associated vitronectin.

Author

Wu YP, Bloemendal HJ, Voest EE, Logtenberg T, de Groot PG, Gebbink MF, and de Boer HC

Subjects

Antibodies, Monoclonal drug effects, Blood Platelets chemistry, Blood Platelets metabolism, Blood Platelets physiology, Dimerization, Humans, Perfusion, Platelet Aggregation drug effects, Vitronectin immunology, Fibrin metabolism, Platelet Adhesiveness drug effects, Thrombosis etiology, Vitronectin metabolism, Vitronectin physiology

Abstract

When a blood clot is formed, vitronectin (VN) is incorporated. Here we studied the consequence of VN incorporation for platelet interactions under flow. Perfusion of whole blood over a fibrin network, formed from purified fibrinogen, resulted in approximately 20% surface coverage with blood platelets. Incorporation of purified multimeric VN into the fibrin network resulted in a 2-fold increase in surface coverage with platelets and in enhancement of platelet aggregate formation. A human monoclonal antibody (huMab VN18), directed against the multimeric form of VN, inhibited platelet adhesion to the combined fibrin/VN matrix to the level of adhesion on fibrin alone. This inhibition was also shown when whole blood was perfused over a plasma-derived clot. Surprisingly, the inhibitory action of the antibody was not directed toward VN incorporated into the fibrin network but toward VN released from the platelets. We conclude that VN-potentiated platelet-clot interaction requires VN in the clot and multimeric VN bound to the platelet surface. Our results provide evidence that homotypic VN interactions contribute to platelet adhesion and aggregation to a blood clot. This report demonstrates for the first time that self-assembly of VN may provide a physiologically relevant contribution to platelet aggregation on a blood clot.

Published

2004

7. Role of ADP receptor P2Y(12) in platelet adhesion and thrombus formation in flowing blood.

Author

Remijn JA, Wu YP, Jeninga EH, IJsseldijk MJ, van Willigen G, de Groot PG, Sixma JJ, Nurden AT, and Nurden P

Subjects

Adenosine Diphosphate pharmacology, Adenosine Monophosphate analogs & derivatives, Adenosine Monophosphate pharmacology, Aged, Analysis of Variance, Blood Platelets drug effects, Humans, Male, Platelet Adhesiveness drug effects, Platelet Aggregation Inhibitors pharmacology, Receptors, Purinergic P2 genetics, Receptors, Purinergic P2Y12, Thrombosis pathology, Membrane Proteins, Platelet Adhesiveness physiology, Receptors, Purinergic P2 physiology, Thrombosis etiology

Abstract

ADP plays a central role in regulating platelet function. It induces platelet aggregation via the activation of 2 major ADP receptors, P2Y(1) and P2Y(12). We have investigated the role of P2Y(12) in platelet adhesion and thrombus formation under physiological flow by using blood from a patient with a defect in the gene encoding P2Y(12). Anticoagulated blood from the patient and from healthy volunteers was perfused over collagen-coated coverslips. The patient's thrombi were smaller and consisted of spread platelets overlying platelets that were not spread, whereas control thrombi were large and densely packed. Identical platelet surface coverage, aggregate size, and morphology were found when a P2Y(12) antagonist, N(6)-(2-methylthioethyl)-2-(3,3,3-trifluoropropylthio)-beta,gamma-dichloromethylene ATP (also known as AR-C69931 MX), was added to control blood. The addition of a P2Y(1) antagonist (adenosine-3',5'-diphospate) to control blood resulted in small, but normally structured, thrombi. Thus, the ADP-P2Y(12) interaction is essential for normal thrombus buildup on collagen. The patient's blood also showed reduced platelet adhesion on fibrinogen, which was not due to changes in morphology. Comparable results were found by using control blood with AR-C69931 MX and also with adenosine-3',5'-diphospate. This suggested that P2Y(12) and P2Y(1) were both involved in platelet adhesion on immobilized fibrinogen, thereby revealing it as ADP dependent. This was confirmed by complete inhibition on the addition of creatine phosphate/creatine phosphokinase.

Published

2002