Litcius/Paper detail

Activated Platelet‐Derived Vesicles for Efficient Hemostatic Activity

Joo Hang Lee, Heesun Jung, JiHyeon Song, Eun Seo Choi, Gayeon You, Hyejung Mok

2020Macromolecular Bioscience21 citationsDOI

Abstract

Abstract In this study, activated platelet‐derived vesicles (Act‐VEs) are developed as a novel hemostatic biomaterial. Spherical Act‐VEs (114.40 ± 11.69 nm in size) with surface charges of −24.73 ± 1.32 mV are successfully prepared from thrombin‐activated murine platelets with high surface expression of active glycoprotein IIb/IIIa (GP IIb/IIIa, also known as αIIbβ3) and P‐selectin. Although nanosized vesicles from resting platelets (VEs) and Act‐VEs showed similar sizes and surface charges, Act‐VEs formed much larger aggregates in the presence of thrombin and CaCl 2 , compared to VEs. After incubation with fibrinogen, Act‐VEs formed much denser fibrin networks compared to platelets or VEs, probably due to active αIIbβ3 on the surfaces of the Act‐VEs. After intravenous injection of the Act‐VEs, tail bleeding time and the blood loss are greatly reduced by Act‐VEs in vivo. In addition, Act‐VEs showed approximately sevenfold lower release of pro‐inflammatory interleukin‐1β (IL‐1β) during incubation for 4 days, compared to platelets. Taken together, the formulated Act‐VEs can serve as a promising hemostatic biomaterial for the efficient formation of fibrin clots without releasing pro‐inflammatory cytokine.

Topics & Concepts

PlateletChemistryThrombinFibrinVesicleBiomaterialBiophysicsPlatelet activationHemostasisFibrinogenIn vivoIncubationCell biologyBiochemistryImmunologySurgeryMedicineBiologyMembraneOrganic chemistryBiotechnologyPlatelet Disorders and TreatmentsBlood properties and coagulationHemostasis and retained surgical items