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Blood, 15 June 2007, Vol. 109, No. 12, pp. 5069-5070.
Platelet tissue factor comes of age1 UNIVERSITY OF UTAH; THE SCRIPPS RESEARCH INSTITUTE
The origin of blood-borne tissue factor (TF) is a highly debated topic that is filled with controversy. In this issue of Blood, Panes and colleagues report that activated human platelets synthesize functional TF.
Whether or not platelets intrinsically express TF has been controversial. In 2001, Zillman et al3 identified TF on the surface of platelets in collagen-stimulated whole blood. This observation was generally confirmed by others, and in a subsequent study, TF protein was localized to platelet The studies by Panes and coworkers provide further insight into these issues and demonstrate that activated human platelets synthesize TF. They show that unstimulated platelets express low levels of TF protein, which is enhanced in response to cellular activation. TF mRNA, the template for protein synthesis, is absent or expressed at low levels in unstimulated platelets. In response to activation, however, platelets from every subject express TF mRNA. The differential expression of TF mRNA in anucleate platelets can be explained by studies from our group demonstrating that resting platelets contain TF pre-mRNA that is spliced into mature mRNA upon platelet activation.5 One limitation of the study by Panes and colleagues is that it is unclear if resting platelets express low basal levels of TF in vivo, or if these levels are due to postisolation activation of the platelets. This is a critical question to resolve, because constitutive versus inducible expression of platelet TF may have distinct functions in the initiation, propagation, and stabilization of a thrombus. It also raises the possibility that TF protein expression patterns in platelets may vary in human disease. The fact that activated platelets express TF may have important implications for the therapeutic use of recombinant factor VIIa (NovoSeven, Clayton, NC) in the treatment of patients with bleeding disorders. High-dose recombinant factor VIIa has been proposed to restore hemostasis by binding to activated platelets in a TF-independent manner. However, low levels of TF generated by platelets may play a role in the hemostatic effects of recombinant factor VIIa. Further studies are also required to sort out the physiological relevance of platelet-derived TF and the mechanism by which TF is activated on the surface of the platelets. Answers to these types of questions will go a long way in determining whether platelet-derived TF truly comes of age.
Footnotes
Conflict-of-interest disclosure: The authors declare no competing financial interests.
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| Copyright © 2007 by American Society of Hematology Online ISSN: 1528-0020 | |||||||||
-granules. This suggested that platelets store TF, but did not distinguish between TF that was preformed in megakaryocytes and packaged into platelets versus the endocytosis of TF-positive MPs. These studies also did not take into account de novo protein synthesis, a mechanism of control used by platelets to generate new proteins.
