Eti Alessandra Femia scite author profile

To cite this article: Nylander S, Femia EA, Scavone M, Berntsson P, Aszt ely A-K, Nelander K, L€ ofgren L, Nilsson RG, Cattaneo M. Ticagrelor inhibits human platelet aggregation via adenosine in addition to P2Y 12 antagonism. J Thromb Haemost 2013; 11: 1867-76.Summary. Background: Ticagrelor, a P2Y 12 antagonist, is an antiplatelet agent approved for the treatment of acute coronary syndromes; it also inhibits adenosine uptake by erythrocytes and other cells. Objective: To test whether ticagrelor inhibits platelet aggregation (PA) in whole blood (WB) by increasing the extracellular levels of adenosine, which inhibits PA via the A 2A receptor. Methods: Collagen-induced PA was measured in WB or platelet-rich plasma (PRP) from 50 healthy subjects and two patients with inherited P2Y 12 deficiency, in presence/absence of adenosine concentrations that by themselves marginally affected PA in WB, and ZM241385 (A 2A antagonist). The effects of ticagrelor, the active metabolite of prasugrel (PAM) (P2Y 12 antagonist), and dipyridamole (adenosine uptake inhibitor) on PA and on adenosine clearance in WB were compared. Results: For PA in WB, adenosine contributed to drug-induced inhibition of PA; the adenosine contribution was similar for dipyridamole and ticagrelor but was significantly greater for ticagrelor than for PAM (P < 0.01). For PA in PRP (no adenosine uptake by erythrocytes), adenosine contributed to inhibition of PA in the presence/absence of all tested drugs. ZM241385 reversed the inhibition by adenosine in WB and PRP. Similar results were obtained with WB and PRP from P2Y 12 -deficient patients. Adenosine (7.1 lmol L -1 ) added to WB, was detectable for 0.5 min in the presence of vehicle or PAM, for 3-6 min in the presence of ticagrelor, and for > 60 min in the presence of dipyridamole. Conclusion: This study provides the first evidence of an additional antiplatelet mechanism by ticagrelor, mediated by the induced increase of adenosine levels.

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Effect of platelet count on platelet aggregation measured with impedance aggregometry (Multiplate™ analyzer) and with light transmission aggregometry

Femia

Scavone

Lecchi

et al. 2013

Journal of Thrombosis and Haemostasis

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Clearance of circulating activated platelets in polycythemia vera and essential thrombocythemia

Maugeri¹,

Malato

Femia

et al. 2011

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Essential thrombocythemia (ET) and polycythemia vera (PV) are characterized by persistent platelet activation. The mechanisms involved in their clearance are poorly characterized. In the present study, we report that leukocytes were actively involved in platelet disposal in 51 patients with ET and 30 with PV, but not in 70 age-and sex-matched controls. The fraction of circulating neutrophils and monocytes that had phagocytosed platelets, as assessed by flow cytometry, was significantly higher in patients with PV or ET, independently of hydroxyurea treatment, than in controls. Platelet phagocytosis by circulating leukocytes was confirmed by confocal and electron microscopy. The lack of effect of hydroxyurea, which disrupts the P-selectin/ P-selectin glycoprotein ligand 1 (PSGL-1) interaction, suggests a P-selectinindependent mechanism. This hypothesis was confirmed in an ad hoc animal model based on the in vivo injection of activated platelets from P-selectin ؉/؉ and P-selectin ؊/؊ mice. P-selectin expression was associated with an earlier and effective clearance of platelets by neutrophils. A second delayed, P-selectinindependent phase actively involved monocytes. Our results suggest that phagocytic clearance of platelets by leukocytes occurs in PV and ET, possibly involving P-selectin-dependent and -independent pathways, thus representing a novel mechanism to remove activated platelets from the circulation. (Blood. 2011;118(12):3359-3366)

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