Marta Brambilla scite author profile

Summary. Background: Blood-borne tissue factor (TF) plays a crucial role in thrombogenesis. Aim: To study whether polymorphonuclear leukocytes (PMN) are a source of TF. Methods and Results: Human PMN were carefully separated from other blood cells and stimulated for 3 min with purified P-selectin or the chemotactic peptide formyl-MetLeuPhe (fMLP): they expressed both TF procoagulant activity, as identified by specific TF MoAb and inactivated factor VIIa blockade; and TF:Ag (four to six times), as shown by flowcytometry and immunocytochemistry. About 40% of permeabilized PMN, both resting and stimulated, contained TF:Ag, indicating that stimulation only modifies the location of TF:Ag within PMN. By real time-polymerase chain reaction (RT-PCR), a very low amount of TF mRNA was detectable in resting PMN, but a 3-to 5-fold increase was observed after 1-h stimulation with P-selectin or fMLP, respectively. Conclusions: These findings suggest that TF is not constitutively expressed in peripheral PMN, but can be up-regulated and produced upon stimulation and specific gene transcription, as for instance during contact with activated platelets or endothelium. The stored TF is rapidly expressed in vitro as a functional molecule on the surface of activated PMN. The availability of PMN TF supports the relevance of inflammatory cells and their interaction with platelets for fibrin deposition and thrombus formation.

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Platelet Activation Induces Cell-Surface Immunoreactive Tissue Factor Expression, Which Is Modulated Differently by Antiplatelet Drugs

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Frigerio

Toschi

et al. 2003

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131

108

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Objective-Tissue factor (TF) is the main activator of the coagulation cascade occurring in physiologic and pathologic conditions. Recent data suggest that human platelets might contain TF that is possibly derived from leukocytes. In this study, we investigated whether intraplatelet TF can be exposed on the membrane by platelet agonists. The modulation of this process by antiplatelet drugs has been evaluated as well. Methods and Results-Flow cytometric analysis of unstimulated platelets showed a small amount of membrane-associated immunoreactive TF (irTF) in whole blood, platelet-rich plasma, and washed platelets isolated from healthy subjects. ADP, thrombin receptor-activating peptide, and epinephrine significantly increased functionally active, membraneassociated irTF. ADP induced irTF exposure in a concentration-and time-dependent fashion. Agonist-induced irTF expression was completely inhibited by iloprost but not by aspirin. Interestingly, glycoprotein IIb/IIIa antagonists did not inhibit but rather potentiated the stimulatory effect of ADP on platelet irTF expression. Real-time polymerase chain reaction experiments showed detectable amounts of TF mRNA in unstimulated platelets. Conclusions-These findings indicate that platelet agonists and antiplatelet drugs might modulate platelet-associated irTF expression. Regulated TF expression establishes the potential for a previously unrecognized role for platelets in sustaining thrombus formation and growth via coagulation-mediated mechanisms. (Arterioscler Thromb Vasc Biol. 2003;23:1690-1696.)Key Words: platelets Ⅲ tissue factor Ⅲ coagulation Ⅲ thrombosis Ⅲ antiplatelet agents C linical and experimental evidence indicates that tissue factor (TF), a 47-kDa glycoprotein, triggers activation of the coagulation cascade that occurs in several human diseases, such as sepsis and other systemic conditions. 1 In addition, TF has been shown to be present in atherosclerotic plaques. 2,3 In particular, TF protein and activity have been found to be increased in coronary plaques, thus playing a crucial role in human coronary syndromes. 4 Vessel wallassociated TF, however, does not entirely explain the thrombogenic potential of vascular lesions when they are exposed to flowing blood. It has been proposed that thrombus growth might be promoted by circulating (ie, microparticle or platelet-associated) TF. 5 Indeed, to interact with plasma coagulation proteins and thus sustain thrombus growth, TF might diffuse from its source to the initial platelet layer. Because the time to capture any diffusing species increases as the square of distance, the shortened distance resulting from TF associated with circulating platelets might have very significant effects on subsequent reaction velocities.Considerable data now support the hypothesis that platelets actively modulate the propagation of coagulation by expressing specific, high-affinity receptors for coagulation proteases, zymogens, and cofactors that contribute to localize thrombin generation at the site of vascular injury. 6 It has be...

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Marta Brambilla

Platelet and Endothelial Activation as Potential Mechanisms Behind the Thrombotic Complications of COVID-19 Patients

Human polymorphonuclear leukocytes produce and express functional tissue factor upon stimulation

Platelet Activation Induces Cell-Surface Immunoreactive Tissue Factor Expression, Which Is Modulated Differently by Antiplatelet Drugs

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