P. D. M. Leadbeater scite author profile

Prostacyclin is an antithrombotic hormone produced by the endothelium, whose production is dependent on cyclooxygenase (COX) enzymes of which two isoforms exist. It is widely believed that COX-2 drives prostacyclin production and that this explains the cardiovascular toxicity associated with COX-2 inhibition, yet the evidence for this relies on indirect evidence from urinary metabolites. Here we have used a range of experimental approaches to explore which isoform drives the production of prostacyclin in vitro and in vivo. Our data show unequivocally that under physiological conditions it is COX-1 and not COX-2 that drives prostacyclin production in the cardiovascular system, and that urinary metabolites do not reflect prostacyclin production in the systemic circulation. With the idea that COX-2 in endothelium drives prostacyclin production in healthy individuals removed, we must seek new answers to why COX-2 inhibitors increase the risk of cardiovascular events to move forward with drug discovery and to enable more informed prescribing advice.

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In the presence of strong P2Y12 receptor blockade, aspirin provides little additional inhibition of platelet aggregation

Armstrong

Leadbeater

Chan

et al. 2011

Journal of Thrombosis and Haemostasis

174

103

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In the presence of strong P2Y 12 receptor blockade, aspirin provides little additional inhibition of platelet aggregation. J Thromb Haemost 2011; 9: 552-61.Summary. Background: Aspirin and antagonists of platelet ADP P2Y 12 receptors are often coprescribed for protection against thrombotic events. However, blockade of platelet P2Y 12 receptors can inhibit thromboxane A 2 (TXA 2 )-dependent pathways of platelet activation independently of aspirin. Objectives: To assess in vitro whether aspirin adds additional antiaggregatory effects to strong P2Y 12 receptor blockade. Methods: With the use of platelet-rich plasma from healthy volunteers, determinations were made in 96-well plates of platelet aggregation, TXA 2 production and ADP/ATP release caused by ADP, arachidonic acid, collagen, epinephrine, TRAP-6 amide and U46619 (six concentrations of each) in the presence of prasugrel active metabolite (PAM; 0.1-10 lmol L ) and PAM + aspirin, aspirin generally failed to produce more inhibition than PAM or additional inhibition to that caused by PAM. The antiaggregatory effects of PAM were associated with reductions in the platelet release of both TXA 2 and ATP + ADP. Similar effects were found when either citrate or lepirudin were used as anticoagulants, and when traditional light transmission aggregometry was conducted at low stirring speeds. Conclusions: P2Y 12 receptors are critical to the generation of irreversible aggregation through the TXA 2 -dependent pathway. As a result, strong P2Y 12 receptor blockade alone causes inhibition of platelet aggregation that is little enhanced by aspirin. The clinical relevance of these observations remains to be determined.

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Antiplatelet effects of aspirin vary with level of P2Y12 receptor blockade supplied by either ticagrelor or prasugrel

Kirkby

Leadbeater

Chan

et al. 2011

Journal of Thrombosis and Haemostasis

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P. D. M. Leadbeater

Cyclooxygenase-1, not cyclooxygenase-2, is responsible for physiological production of prostacyclin in the cardiovascular system

In the presence of strong P2Y12 receptor blockade, aspirin provides little additional inhibition of platelet aggregation

Antiplatelet effects of aspirin vary with level of P2Y12 receptor blockade supplied by either ticagrelor or prasugrel

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