Rapid and reversible modulation of platelet function in man by a novel P2Y12 ADP-receptor antagonist, INS50589

Rapid and reversible modulation of platelet function in man by a novel P2Y12 ADP-receptor antagonist, INS50589

P2Y12 receptors participate in ADP-induced activation and aggregation of human platelets. INS50589, a selective P2Y12 receptor antagonist, is being developed for use where controlled, reversible modulation of the platelet hemostatic function is needed. The tolerability, pharmacokinetics, and pharmac...

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Bibliographic Details
Published in:Platelets (Edinburgh) Vol. 18; no. 5; pp. 346 - 356
Main Authors: Johnson, Fred L., Boyer, José L., Leese, Philip T., Crean, Christopher, Krishnamoorthy, Ramesh, Durham, Todd, Fox, Anthony W., Kellerman, Donald J.
Format: Journal Article
Language:English
Published: Informa UK Ltd 01-01-2007
Taylor & Francis
Subjects:
ADP receptor
cardiopulmonary bypass
clinical trial
P2Y12 receptor
percutaneous coronary intervention
pharmacodynamics
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Summary:P2Y12 receptors participate in ADP-induced activation and aggregation of human platelets. INS50589, a selective P2Y12 receptor antagonist, is being developed for use where controlled, reversible modulation of the platelet hemostatic function is needed. The tolerability, pharmacokinetics, and pharmacodynamics of INS50589 were tested in healthy human volunteers. Thirty-six subjects received intravenous infusions of placebo or INS50589 at 0.1-3 mg/kg/h for four hours. Platelet function, clotting parameters, bleeding time, safety assessments, and plasma concentrations of INS50589 and its major metabolite were monitored for 24 hours. Near-steady state plasma concentrations of INS50589 and effects on platelet function were achieved rapidly. The average maximal plasma concentration of INS50589 was linearly related to the dose administered. Intravenous INS50589 produced dose-dependent inhibition of platelet activation and aggregation in response to ADP in vitro until nearly full inhibition was achieved at the higher doses. Bleeding time was correspondingly increased, without any effect on activated clotting time, prothrombin time, or activated partial thromboplastin time. Platelet response to ADP had returned to at least 75% of the baseline value within 0.25-4 h after cessation of the intravenous infusion of INS50589, depending upon the dose and ADP challenge concentration. Infusions were well tolerated up to the highest dose tested. There was no evidence that the principal metabolite (INS51088) contributed to these effects. INS50589 is a well-tolerated, reversible, competitive antagonist of ADP at the P2Y12 human platelet receptor, and its potential therapeutic utility in various cardiovascular settings is discussed.
ISSN:0953-7104
1369-1635
DOI:10.1080/09537100701268741