ADP Receptors and Clinical Bleeding Disorders

Cattaneo, Marco; Gachet, Christian

doi:10.1161/01.atv.19.10.2281

Cited by 191 publications

(172 citation statements)

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“…The combined action of two platelet ADP receptors, P2Y 1 (coupled to Gq and PLCb) and P2Y 12 (negatively coupled to adenylyl cyclase through Gi), is necessary for the full platelet aggregation response to ADP [9]. The relative role of these receptors in platelet function has been elucidated by studies of patients with congenital P2Y 12 deficiency [9,10], knock-out mice [11][12][13] and selective antagonists [9,14].…”

Section: New Antagonists Of the Platelet Adp Receptorsmentioning

confidence: 99%

“…The relative role of these receptors in platelet function has been elucidated by studies of patients with congenital P2Y 12 deficiency [9,10], knock-out mice [11][12][13] and selective antagonists [9,14]. The interaction of ADP with P2Y 1 leads to calcium mobilization, platelet shape change and rapidly reversible aggregation, while its interaction with P2Y 12 leads to the formation of large and stable platelet aggregates, and amplifies platelet secretion [9].In the last few years, search for selective, direct antagonists of P2Y 1 and P2Y 12 has been very active. Several ATP-derived antagonists of P2Y 12 have been synthesized by Astra-Zeneca, the last of which, AR-C69931MX, proved to have good antithrombotic effects in several animal models of thrombosis [15].…”

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The platelet P2Y receptors as targets for new antithrombotic drugs

Cattaneo

2003

Journal of Thrombosis and Haemostasis

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Drugs that inhibit platelet function are widely used to decrease the risk of occlusive arterial events in patients with atherosclerosis. There are three families of anti-aggregating agents with proven clinical efficacy: (i) cyclooxygenase inhibitors, such as aspirin; (ii) ADP receptor antagonists, such as the thienopyridine compounds ticlopidine and clopidogrel; (iii) glycoprotein IIb/IIIa antagonists. All these drugs are used during coronary interventions and in the medical management of acute coronary syndromes, while only aspirin and the thienopyridine compounds are used in long-term prevention of cardiovascular and cerebrovascular events in patients at risk.Both aspirin and the thienopyridines selectively inhibit a single pathway of platelet activation: aspirin affects the arachidonate-thromboxane pathway, while the thienopyridines affect the ADP pathway, by irreversibly blocking the ADP receptor P2Y 12 . The good antithrombotic efficacy of these drugs, despite their selective mechanism of action, is explained by the fact that both the arachidonate-thromboxane pathway and the ADP pathway contribute to the amplification of platelet activation and are essential for the full aggregation response of platelets under several experimental conditions. Do we need new anti-aggregating drugs?Despite the fact that aspirin and thienopyridines have a good risk-to-benefit ratio, they suffer some drawbacks, which justifies the unceasing search for agents that can further improve the clinical outcome of patients with atherosclerosis through greater efficacy and/or safety. Although the definition of 'aspirin resistance' is still elusive [1,2], there are indeed reports of patients relatively insensitive to aspirin inhibition of thromboxane production, who seem to be less well protected from vascular events [3]: whether this effect is only due to negative interaction with other drugs, such as ibuprofen [4,5], or also to other variables is presently unknown. The problem of drug resistance is certainly more relevant for thienopyridines. Ticlopidine and clopidogrel are prodrugs, which need to be metabolized by the liver in an active metabolite with antiaggregating activity. Therefore, their pharmacological effect can be detected only several hours after their first administration and, more importantly, the plasma levels of the active metabolite, and, consequently, the degree of inhibition of platelet aggregation may vary widely among subjects. Interference with clopidogrel metabolism by other drugs that are frequently given to patients with atherosclerosis, such as atorvastatin [6,7], can increase the number of patients who are resistant to clopidogrel. Safety issues are of less concern for clopidogrel than for ticlopdidine, although thrombotic thrombocytopenic purpura complicating clopidogrel therapy has also been reported [8]. New antagonists of the platelet ADP receptorsThe combined action of two platelet ADP receptors, P2Y 1 (coupled to Gq and PLCb) and P2Y 12 (negatively coupled to adenylyl cyclase through Gi), is necessary f...

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Section: New Antagonists Of the Platelet Adp Receptorsmentioning

confidence: 99%

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confidence: 99%

The platelet P2Y receptors as targets for new antithrombotic drugs

Cattaneo

2003

Journal of Thrombosis and Haemostasis

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“…it amplifies the platelet responses induced by other platelet agonists [1,8,9], stabilizes platelet aggregates [10][11][12] and inhibits the antiplatelet effects of prostacyclin [13].…”

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confidence: 99%

“…The interaction of ADP with its G q -coupled, P2Y 1 receptor mediates a transient rise in cytoplasmic Ca 2+ , platelet shape change and rapidly reversible aggregation, while its interaction with the G i -coupled, P2Y 12 receptor mediates inhibition of adenylyl cyclase, phosphatidylinositol 3-kinase activation and the amplification of the platelet aggregation response [1]. About 20-30% of the plateletbinding sites for ADP are associated with P2Y 1 , while the remaining 70% are associated with P2Y 12 [1,14].…”

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Molecular defects of the platelet P2 receptors

Cattaneo

2011

Purinergic Signalling

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Human platelets express three types of P2 receptors, which play important roles in platelet function: P2X 1 , P2Y 1 and P2Y 12 . Only patients with either quantitative or qualitative abnormalities of the platelet P2Y 12 receptor have been well-characterized so far. Deficiencies of P2Y 12 are associated with nucleotide deletions in the open-reading frame, frameshifts, and early truncation of the protein, or with a nucleotide substitution in the transduction initiation codon. Congenital dysfunctions of P2Y 12 are associated with molecular defects involving the sixth trans-membrane domain or the adjacent third extracellular loop of the receptor, which identify a region of the protein whose integrity is necessary for normal receptor function. A mutation, predicting a lysine to glutamate (Lys174Glu) substitution was associated with decreased ligand binding to the receptor, suggesting that it is responsible for disruption of the adenosine diphosphate (ADP)-binding site of the receptor. Patients with P2Y 12 defects display a mild-tomoderate bleeding diathesis, characterized by mucocutaneous bleedings and excessive post-surgical and posttraumatic blood loss. Defects of P2Y 12 should be suspected when ADP, even at high concentrations (≥10 μM), is unable to induce full, irreversible platelet aggregation. Tests that evaluate the degree of inhibition of adenylyl cyclase by ADP should be used to confirm the diagnosis.

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Qualitative Platelet Disorders

Cattaneo¹

2005

Practical Hemostasis and Thrombosis

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ADP Receptors and Clinical Bleeding Disorders

Cited by 191 publications

References 34 publications

The platelet P2Y receptors as targets for new antithrombotic drugs

The platelet P2Y receptors as targets for new antithrombotic drugs

Molecular defects of the platelet P2 receptors

Qualitative Platelet Disorders

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