Platelets Do Not Express the Oxidized or Reduced Forms of Tissue Factor

Overview

Journal Biochim Biophys Acta

Specialties Biochemistry
Biophysics

Date 2013 Dec 24

PMID 24361609

Citations 4

Authors

Beth A Bouchard

Matthew T Gissel

Matthew F Whelihan

Kenneth G Mann

Saulius Butenas

Affiliations

Soon will be listed here.

Abstract

Background: Expression of tissue factor (TF) antigen and activity in platelets is controversial and dependent upon the laboratory and reagents used. Two forms of TF were described: an oxidized functional form and a reduced nonfunctional form that is converted to the active form through the formation of an allosteric disulfide. This study tests the hypothesis that the discrepancies regarding platelet TF expression are due to differential expression of the two forms.

Methods: Specific reagents that recognize both oxidized and reduced TF were used in flow cytometry of unactivated and activated platelets and western blotting of whole platelet lysates. TF-dependent activity measurements were used to confirm the results.

Results: Western blotting analyses of placental TF demonstrated that, in contrast to anti-TF#5, which is directed against the oxidized form of TF, a sheep anti-human TF polyclonal antibody recognizes both the reduced and oxidized forms. Flow cytometric analyses demonstrated that the sheep antibody did not react with the surface of unactivated platelets or platelets activated with thrombin receptor agonist peptide, PAR-1. This observation was confirmed using biotinylated active site-blocked factor (F)VIIa: no binding was observed. Likewise, neither form of TF was detected by western blotting of whole platelet lysates with sheep anti-hTF. Consistent with these observations, no FXa or FIXa generation by FVIIa was detected at the surface of these platelets. Similarly, no TF-related activity was observed in whole blood using thromboelastography.

Conclusion And Significance: Platelets from healthy donors do not express either oxidized (functional) or reduced (nonfunctional) forms of TF.

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