Blood Microvesicles (or Microparticles) Isolation, Identification and Characterization: impact of anticoagulants

Heterogeneous, phospholipid‐rich sub‐micron vesicles (“microvesicles”) shed by activated vascular and blood cells may reflect or influence the coagulant propensity of blood. To determine how the anticoagulant used to collect the blood affects microvesicle (Mv) recovery and characteristics, blood was collected from laboratory volunteers and participants of the Kronos Early Estrogen Prevention Study (KEEPS) into tubes containing either sodium citrate, EDTA or hirudin plus tick anticoagulant peptide (H&T). Microvesicles prepared by double centrifugation were analyzed by flow cytometry to define size and surface markers. There were 2–3 times the number of platelet‐derived (CD61 positive) Mv in preparations from citrate and H&T plasma, relative to numbers in EDTA plasmas. Procoagulant activity of Mv was determined by surface phosphatidylserine (PS) expression using annexin‐V‐fluorescein. Annexin‐V (PS) positive Mv did not differ, but total (PS positive and negative) Mv was 2 fold lower from EDTA plasma compared to citrate and H&T. These results suggest that anticoagulation of blood itself alters microvesicle characteristics. Therefore, standardization and specification of the anticoagulant is warranted to identify potential contribution of microvesicles to cardiovascular pathophysiology. Funded by, NIH HL78638, Kronos Research Institute and Mayo Foundation.