Coagulation Properties of Erythrocyte Derived Membrane Microparticles
— Membrane microparticles (MP), produced upon cell activation and/or damage, exhibit coagulation activity, i.e. ability to accelerate blood clotting. They contain on their surface phosphatidylserine (PS), a substrate for assembling coagulation enzymatic complexes, and some of them tissue factor (TF)...
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Veröffentlicht in: | Biochemistry (Moscow). Supplement. Series B, Biomedical chemistry Biomedical chemistry, 2019-07, Vol.13 (3), p.237-243 |
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Membrane microparticles (MP), produced upon cell activation and/or damage, exhibit coagulation activity, i.e. ability to accelerate blood clotting. They contain on their surface phosphatidylserine (PS), a substrate for assembling coagulation enzymatic complexes, and some of them tissue factor (TF), the initiator of clotting cascade reactions. In this study coagulation properties of MP derived from erythrocytes have been investigated. These MP were obtained from donor’s erythrocytes activated with ionophore A23187 as well as from outdated erythrocyte concentrates for transfusion. MP were counted by flow cytometry and their coagulation activity was examined by the modified plasma recalcification assay. Involvement of PS and TF in this reaction was assessed using PS blocker lactadherin and anti-TF antibodies. TF activity in MP was measured by its ability to activate factor X in the chromogenic assay. Size of MP was evaluated by dynamic light scattering. Properties of erythrocyte MP were compared with previously characterized (using the same methodological approaches) MP derived from platelets and monocytic THP-1 cells, lacking and containing TF, respectively. Erythrocyte MP accelerated plasma clotting, but less actively than MP from platelets and MP from THP-1 cells, which demonstrated maximal activity. Lactadherin completely inhibited coagulation activity of all MP. Anti-TF antibodies did not affect clotting parameters in the presence of platelet and erythrocyte MP, but slowed clotting in the presence of MP from THP-1 cells. In contrast to MP from THP-1 cells expressing active TF, the TF activity was not detected in erythrocyte and platelet MP. MP derived from erythrocytes were smaller than MP from platelets and THP-1 cells, with average diameter about 200 nm and 400 nm, respectively. Thus, MP from erythrocytes exhibit lower ability to accelerate plasma clotting in comparison with MP from platelet and THP-1 cells. The data obtained suggest that lower coagulation activity of erythrocyte MP in comparison with MP from THP-1 cells is due to the absence of TF in erythrocyte MP (in contrast to MP from THP-1 cells) and to their smaller size, and in comparison with MP from platelets (which as erythrocyte MP do not express TF) is due to their smaller size only. |
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ISSN: | 1990-7508 1990-7516 |
DOI: | 10.1134/S1990750819030028 |