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P2Y12 antagonists: Approved drugs, potential naturally isolated and synthesised compounds, and related in-silico studies

P2Y12 is a platelet surface protein which is responsible for the amplification of P2Y1 response. It plays a crucial role in platelet aggregation and thrombus formation through an ADP-induced platelet activation mechanism. Despite that P2Y12 platelets’ receptor is an excellent target for developing a...

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Published in:European journal of medicinal chemistry 2022-01, Vol.227, p.113924-113924, Article 113924
Main Authors: Al-Najjar, Belal O., Saqallah, Fadi G., Abbas, Manal A., Al-Hijazeen, Serena Z., Sibai, Obada A.
Format: Article
Language:English
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Summary:P2Y12 is a platelet surface protein which is responsible for the amplification of P2Y1 response. It plays a crucial role in platelet aggregation and thrombus formation through an ADP-induced platelet activation mechanism. Despite that P2Y12 platelets’ receptor is an excellent target for developing antiplatelet agents, only five approved medications are currently in clinical use which are classified into thienopyridines and nucleoside-nucleotide derivatives. In the past years, many attempts for developing new candidates as P2Y12 inhibitors have been made. This review highlights the importance and the role of P2Y12 receptor as part of the coagulation cascade, its reported congenital defects, and the type of assays which are used to verify and measure its activity. Furthermore, an overview is given of the clinically approved medications, the potential naturally isolated inhibitors, and the synthesised candidates which were tested either in-vitro, in-vivo and/or clinically. Finally, we outline the in-silico attempts which were carried out using virtual screening, molecular docking and dynamics simulations in efforts of designing novel P2Y12 antagonists. Various phytochemical classes might be considered as a corner stone for the discovery of novel P2Y12 inhibitors, whereas a wide range of ring systems can be deliberated as leading scaffolds in that area synthetically and theoretically. [Display omitted] •The structure and function of P2Y12 receptor.•Natural antagonists of P2Y12 belong to different chemical groups such as stilbenoids, flavinolignans, benzofurans, terpenoids, alkaloids & ginsenosides.•Various oxazole, nicotinate, morpholine, adenosine-based, and cinnamic and ferulic acid derivatives among some other heterocyclic systems have shown divers biological activities.•Several Molecular modelling studies that lead to the discovery of novel P2Y12 antagonists.
ISSN:0223-5234
1768-3254
DOI:10.1016/j.ejmech.2021.113924