Ticagrelor: a P2Y12 antagonist for use in acute coronary syndromes

Agents that inhibit platelet function are used routinely in the treatment and prevention of acute coronary syndromes. The main antiplatelet treatments used combine aspirin with one of the thienopyridine P2Y₁₂ antagonists, either clopidogrel or prasugrel. By blocking the synthesis of thromboxane A₂ in platelets and by blocking the effects of ADP, respectively, these agents reduce platelet activity, platelet aggregation and thrombus formation. Ticagrelor (marketed by AstraZeneca as Brilinta? in the USA, and as Brilique^® or Possia^® in Europe) is a cyclopentyl-triazolo-pyrimidine, a new chemical class of P2Y₁₂ antagonist that is now approved for use in the wide spectrum of acute coronary syndromes. In this article we provide an overview of ticagrelor. We discuss the differences in mode of action compared with other P2Y₁₂ antagonists, examine its pharmacodynamic, pharmacokinetic and safety profile, and summarize the various clinical trials that have provided information on its efficacy in combination with aspirin. Ticagrelor appears to overcome some of the difficulties that have been encountered with other antiplatelet treatments, clopidogrel in particular.     

Developments in antiplatelet therapy for acute coronary syndromes and considerations for long-term management

ABSTRACT

Objective: This article reviews the currently available antiplatelet therapies and emerging investigational drugs in the treatment of acutecoronary syndrome (ACS), and considerations for primary and secondary prevention in the long-term management of ACS patients undergoing percutaneous coronary intervention (PCI).

Research design and methods: Primary studies and reviews in the peer-reviewed, English-language literature were identified through searches of MEDLINE (1966–2008) using the terms ‘acute coronary syndrome’, ‘antiplatelet’, ‘aspirin’, ‘long-term management’, ‘P2Y₁₂ receptor’, and ‘thienopyridine’. Additional references were obtained by searching the reference lists of the identified articles. Articles were included if they were recently published and pertinent, patient-focused, and authors were recognized as leaders in the field. Current review is limited by literature search on single database.

Results: Platelets play a major role in atherogenesis and the formation of thrombi, the main events in the pathogenesis of ACS. Although aspirin is an effective antiplatelet agent, efficacy and safety data from a number of randomized clinical trials on atherothrombotic disease support the use of dual antiplatelet therapies such as aspirin and thienopyridines over single antiplatelet therapy for ACS and up to 1?year following ACS. Antiplatelet agents reduce, but do not eliminate, ischemic events after ACS due, in part, to variable individual response (or resistance) in antiplatelet agents, non-compliance, progression of atherosclerosis, modest inhibition of platelet aggregation (IPA) levels and other factors. Several antiplatelet agents, including novel P2Y₁₂-receptor antagonists and thrombin-receptor antagonists, are currently under investigation for ACS and primary and secondary prevention in the long-term management of patients undergoing PCI.

Conclusions: Current antiplatelet therapies have clinical benefits such as reducing immediate and long-term cardiovascular risk, but substantial residual risk remains indicating a need for new therapeutic agents. Additional large randomized trials are necessary to determine the most appropriate treatment regimens for ACS patients.     

Antiplatelet and Anticoagulant Therapy for Atherothrombotic Disease: The Role of Current and Emerging Agents

Coronary atherothrombotic disease, including chronic stable angina and acute coronary syndromes (ACS), is associated with significant global burden. The acute clinical manifestations of atherothrombotic disease are mediated by occlusive arterial thrombi that impair tissue perfusion and are composed of a core of aggregated platelets, generated by platelet activation, and a superimposed fibrin mesh produced by the coagulation cascade. Long-term antithrombotic therapies, namely oral antiplatelet agents and anticoagulants, have demonstrated variable clinical effects. Aspirin and P2Y₁₂ adenosine diphosphate (ADP) receptor antagonists have been shown to reduce the risk for thrombosis and ischaemic events by blocking the thromboxane (Tx) A₂ and platelet P2Y₁₂ activation pathways, respectively, whereas the benefits of oral anticoagulants have not been consistently documented. However, even in the presence of aspirin and a P2Y₁₂ receptor antagonist, the risk for ischaemic events remains substantial because platelet activation continues via pathways independent of TxA₂ and ADP, most notably the protease-activated receptor (PAR)-1 platelet activation pathway stimulated by thrombin. Emerging antithrombotic therapies include those targeting the platelet, such as the new P2Y₁₂ antagonists and a novel class of oral PAR-1 antagonists, and those inhibiting the coagulation cascade, such as the new direct factor Xa antagonists, the direct thrombin inhibitors, and a novel class of factor IX inhibitors. The role of emerging antiplatelet agents and anticoagulants in the long-term management of patients with atherothrombotic disease will be determined by the balance of efficacy and safety in large ongoing clinical trials.     

Platelet P2Y<Subscript>12</Subscript> Receptor Inhibition

Antiplatelet therapy is the cornerstone of treatment for patients with coronary artery disease. Since adenosine diphosphate (ADP) represents one of the most important mediators of thrombosis, the inhibition of the platelet ADP receptor, in particular the P2Y₁₂ subtype, plays a pivotal role in secondary prevention of recurrent atherothrombotic events in high-risk settings. Numerous clinical trials have shown the efficacy of clopidogrel, an inhibitor of the ADP P2Y₁₂ receptor, in patients presenting with an acute coronary syndrome and undergoing percutaneous coronary intervention. However, laboratory and clinical experience with clopidogrel have led to understanding some of the limitations of this drug, the most important of which is its broad range in interindividual response variability, resulting in the development of novel ADP P2Y₁₂ receptor-inhibiting strategies. This article provides an overview of ADP P2Y₁₂ receptor-inhibiting strategies, including high clopidogrel dosing regimens and novel agents under advanced clinical development.     

AZD6140

Oral antiplatelet therapy with P2Y₁₂ receptor blockers (especially clopidogrel) is the current choice of treatment during acute coronary syndromes and percutaneous interventions. To address the various limitations of thienopyridine therapy (including response variability and non-responsiveness) a novel drug, AZD6140, is under clinical development. AZD6140 is an oral and reversible P2Y₁₂ receptor blocker that does not require hepatic conversion to an active metabolite and produces an overall superior ADP-induced platelet inhibition with less response variability than clopidogrel. It has fast onset and offset actions that may be advantageous in patients who may have to undergo immediate surgery.     

Genetics of platelet inhibitor treatment

Dual antiplatelet therapy with aspirin and a P2Y₁₂ receptor antagonist is the standard of care in patients undergoing percutaneous coronary intervention (PCI) and in patients with acute coronary syndromes (ACS) because this regimen has markedly decreased the rate of cardiovascular events. The substantial variability in pharmacodynamic response as well as the moderate antiplatelet efficacy of clopidogrel has raised major concerns, since high on-clopidogrel platelet reactivity has consistently been associated with increased risk for ischaemic events in PCI patients. Baseline demographic and clinical variables contributing to the observed variability have been identified. Besides this, research within the past decade has focused on the impact of genetic polymorphisms encoding transport systems or enzymes involved in the absorption and metabolism of these drugs. Loss-of-function polymorphisms in CYP2C19 are the strongest individual variables affecting pharmacokinetics and antiplatelet response to clopidogrel, but explain no more than 5 to 12% of the variability in adenosine diphosphate-induced platelet aggregation on clopidogrel. No genetic variables contributing to clinical outcomes of patients treated with the newer P2Y₁₂ receptor antagonists, prasugrel or ticagrelor, have been identified so far. This review aims to provide an update on the current status of genotype-based personalized therapy with clopidogrel.     

Ticagrelor for the treatment of arterial thrombosis

Importance of the field: High platelet reactivity has been linked to recurrent ischemic events in patients treated with conventional dual antiplatelet therapy, in patients with arterial diseases and particularly in patients treated with coronary artery stenting. The limitations of clopidogrel have served as a major rationale for the development of new P2Y₁₂ blockers that have superior pharmacodynamic profiles uninfluenced by concomitant therapies or specific genotypes. Ticagrelor is the first direct-acting reversibly binding oral P2Y₁₂ receptor antagonist. Extensive Phase II investigations have addressed the pharmacokinetic, pharmacodynamic and safety-related properties of ticagrelor compared with clopidogrel. The recently completed PLATO trial demonstrated promise for ticagrelor as a major treatment strategy for a wide spectrum of patients with acute coronary syndromes. Ticagrelor is now being reviewed by the FDA as a P2Y₁₂ receptor blocker to treat patients with coronary artery disease and, once accepted, will be in widespread use as an antiplatelet agent. Thus, it is both appropriate and timely to review available data and provide a comprehensive review of ticagrelor.

Areas covered in this review: We discuss the rationale for the development of ticagrelor, a reversible and potent P2Y₁₂ receptor blocker. The data regarding ticagrelor based on preclinical and clinical studies are examined. We researched articles about ‘AZD6140’ and ‘ticagrelor’ in PubMed from 2006 to 2010 and also reviewed data presented at recent cardiology meetings.

What the reader will gain: This is an updated and comprehensive review of ticagrelor. The advantages and disadvantages of ticagrelor and available P2Y₁₂ receptor blockers such as clopidogrel and prasugrel are discussed, thus providing a clear picture to readers.

Take home message: Ticagrelor has an important role as an antiplatelet agent in the settings of acute coronary syndrome and percutaneous coronary intervention and once accepted will be in widespread use.     

Targeting thrombin long-term after an acute coronary syndrome: Opportunities and challenges

Patients after an acute coronary syndrome (ACS) are at increased risk of recurrent thrombotic events, justifying the search for additional antithrombotic treatments. The pathophysiology of ACS involves arterial thrombus formation, in turn occurring because of a combination of platelet activation and fibrin formation, with thrombin playing a key role in both. Antiplatelet therapy, targeting the thromboxane pathway and the ADP P2Y₁₂ receptor has been widely accepted for secondary prevention after an ACS. Now, data from recent clinical trials in such patients also encourage the pursuit of inhibiting thrombin formation or thrombin-mediated platelet activation in addition to antiplatelet therapy. This “triple pathway inhibition”, including inhibition of thrombin activity or thrombin receptor(s), is currently an option in pure ACS, but already a must in the setting of ACS accompanied by atrial fibrillation (AF), where anticoagulants have been shown to be much more effective than antiplatelet agents in preventing stroke. We here discuss the challenges of managing combined thrombin activity or receptor inhibition and antiplatelet therapy in all such patients. Translating this into practice still requires further studies and patient tailoring to fully exploit its potential.     

Cangrelor in percutaneous coronary intervention

Cangrelor is a novel, intravenous P2Y₁₂ receptor antagonist in development for use in percutaneous coronary intervention. Currently in Phase III testing, the reversible platelet inhibitor provides several inherent advantages over other P2Y₁₂ receptor antagonists in this setting for the prevention of adverse cardiac events. Unlike the class of thienopyridines (ticlopidine, clopidogrel and potentially soon to be available, prasugrel), cangrelor has nearly immediate onset after a bolus dose and a short half-life, and achieves maximal inhibition of ADP-mediated platelet function. Cangrelor’s distinct mechanism of action allows for intravenous administration and avoids both hepatic and renal metabolism. These unique characteristics make cangrelor a promising agent for use in cardiovascular patients undergoing percutaneous coronary intervention.     

Ticagrelor: Positive,negative and misunderstood properties as a new antiplatelet agent

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Prasugrel

Clinical trials have demonstrated the superior clinical efficacy of dual antiplatelet therapy with a thienopyridine (a P2Y₁₂ receptor blocker) and aspirin (COX-1 inhibitor) in patients undergoing stenting as well as patients with acute coronary syndromes. However, clopidogrel treatment is associated with a wide response variability and non-responsiveness in selected patients. The latter phenomenon is linked to the occurrence of recurrent ischaemic events including stent thrombosis in the recent studies. Prasugrel is a new thienopyridine derivative that produces more potent platelet inhibition and a rapid onset of action that is associated with irreversible P2Y₁₂ receptor blockade. The latter properties of prasugrel may provide a superior alternative to clopidogrel, with less response variability and a decreased prevalence of non-responsiveness.     

Prasugrel: a novel platelet ADP P2Y12 receptor antagonist. A review on its mechanism of action and clinical development

Antiplatelet therapy is the cornerstone of treatment for patients who present with acute coronary syndrome (ACS) or undergo percutaneous coronary intervention (PCI). Clopidogrel, in combination with aspirin, is associated with improvement in long-term clinical outcomes in these patients and is currently the antiplatelet therapy of choice. However, a significant number of patients experience recurrent ischemic events, which have been in part attributed to variability in individual response profiles to currently recommended treatment regimens. The presence of variable degrees of responsiveness, thus inadequate platelet inhibition in some patients, underscores the need for novel agents with more potency and less variable platelet inhibitory effects. Prasugrel (CS-747; LY640315), a novel third-generation oral thienopyridine, is a specific, irreversible antagonist of the platelet adenosine diphosphate (ADP) P2Y₁₂ receptor. Pre-clinical and early phase clinical studies have shown prasugrel to be characterized by more potent antiplatelet effects, lower interindividual variability in platelet response, and faster onset of activity compared with clopidogrel. Recent findings from large-scale Phase III testing showed prasugrel to be more efficacious in preventing ischemic events in ACS patients undergoing PCI; however, this is achieved at the expense of an increased risk of bleeding. This article reviews the currently available data regarding the efficacy and safety of prasugrel.     

新型P2Y12受体抑制剂替格瑞洛临床研究进展

抗血小板药物是急性冠脉综合征（Acute Coronary Syndrome,ACS）治疗的基石,对防治心肌缺血和介入并发症是有益的。目前治疗ACS和经皮冠状动脉介入治疗（percutaneous coronary intervention,PCI）指南推荐使用的口服抗血小板药物包括氯吡格雷、替格瑞洛、普拉格雷联合阿司匹林双重抗血小板治疗预防复发性缺血事件。本文对新型P2Y12受体抑制剂替格瑞洛的药代动力学和药效学特点以及在ACS患者中的循证医学证据作一介绍。     

Antiplatelet therapy in acute coronary syndromes

Introduction: Coronary thrombosis is a frequent cause of death and myocardial infarction most often explained by superimposition of a platelet-rich thrombus on existing coronary artery disease. Therefore, antiplatelet drugs are essential in the treatment and secondary prevention of acute coronary syndromes (ACS) and during percutaneous coronary intervention. Several novel antiplatelet drugs are now available.

Areas covered: For several years, aspirin and clopidogrel remained the cornerstone of treatment for ACS. However, prasugrel and ticagrelor have a more consistent, faster-acting and more potent antiplatelet effect than clopidogrel, which translates into improved clinical outcomes, although at the expense of an increased bleeding risk. Importantly, some patients experience cardiovascular events despite current antiplatelet treatment, because platelet activation may occur via pathways not inhibited by these agents. Therefore, improved antiplatelet strategies are warranted.

Expert opinion: Despite undisputable benefits of current antiplatelet strategies, a considerable number of patients continue to experience adverse thrombotic events, although clinical outcomes have been improved with new oral P2Y₁₂ antagonists. New drugs have been developed, including intravenous P2Y₁₂ antagonists and oral antagonist targeting the protease-activated receptor-1 platelet activation pathway stimulated by thrombin. This review provides an overview of current and novel antiplatelet strategies and also discusses unmet needs related to antiplatelet therapy for ACS.     

P2Y12 receptor inhibitors for secondary prevention of ischemic stroke

Introduction: Ischemic stroke (IS) is a major cause of death and disability worldwide. The P2Y₁₂ receptor plays a critical role in the formation of a stable thrombus leading to ischemic complications. Therefore, P2Y₁₂ receptor inhibitors constitute a major antiplatelet strategy in the secondary prevention of IS.

Areas covered: We searched articles about P2Y₁₂ receptor inhibitors and stroke in PubMed published until December 2014. This is a comprehensive review of the role of P2Y₁₂ receptor inhibitors alone and in combination with aspirin in the secondary prevention of noncardioembolic stroke.

Expert opinion: The potential benefit of more potent antiplatelet therapy for secondary stroke prevention must be weighed against the risk of bleeding in patients with IS. Short-term (≤ 3 months) dual antiplatelet therapy with clopidogrel and aspirin that is initiated early after IS or transient ischemic attack due to large artery atherosclerosis appears most efficient.     

Resistance to antiplatelet drugs: what progress has been made?

Introduction: Despite well-documented efficacy, recurrent thrombotic event occurrences, particularly stent thrombosis, have been repeatedly demonstrated in stented patients treated with aspirin and clopidogrel. The latter observation stimulated the close scrutiny of the pharmacodynamic effects of clopidogrel and revealed the ‘wide variability’ and the phenomenon of ‘antiplatelet resistance’. High on-treatment platelet reactivity to ADP (HPR) during clopidogrel therapy is an independent risk factor for ischemic event occurrences in post-percutaneous coronary intervention (post-PCI) patients. Recent observational studies demonstrated a link between low on-treatment platelet reactivity to bleeding. The concept of a ‘therapeutic window’ of P2Y₁₂ receptor reactivity associated with both ischemic event occurrence (upper threshold) and bleeding risk (lower threshold) has been proposed.

Areas covered: An update on and a brief review of the current knowledge on antiplatelet resistance were presented. Evidence available from studies evaluating aspirin resistance and high and low on-treatment platelet reactivity to ADP during P2Y₁₂ receptor blocker therapy was collected from a selective literature search.

Expert opinion: The available evidence indicates that HPR is an independent risk factor for post-PCI ischemic event occurrences. The therapeutic window concept for the P2Y₁₂ receptor blocker therapy may facilitate the balance between reducing ischemic events and avoiding bleeding events, thereby improving net clinical outcome.     

Pharmacogenetics of P2Y12 receptor inhibitors

Oral P2Y₁₂ inhibitors are commonly prescribed for cardiovascular disease and include clopidogrel, prasugrel, and ticagrelor. Each of these drugs has its strengths and weaknesses. Prasugrel and ticagrelor are more potent inhibitors of platelet aggregation and were shown to be superior to clopidogrel in preventing major adverse cardiovascular events after an acute coronary syndrome and percutaneous coronary intervention (PCI) in the absence of genotyping. However, both are associated with an increased risk for non-coronary artery bypass-related bleeding. Clopidogrel is a prodrug requiring bioactivation, primarily via the CYP2C19 enzyme. Approximately 30% of individuals have a CYP2C19 no function allele and decreased or no CYP2C19 enzyme activity. Clopidogrel-treated carriers of a CYP2C19 no function allele have decreased exposure to the clopidogrel active metabolite and lesser inhibition of platelet aggregation, which likely contributed to reduced clopidogrel efficacy in clinical trials. The pharmacogenetic data for clopidogrel are most robust in the setting of PCI, but evidence is accumulating for other indications. Guidance is available from expert consensus groups and regulatory agencies to assist with integrating genetic information into P2Y₁₂ inhibitor prescribing decisions, and CYP2C19 genotype-guided antiplatelet therapy after PCI is one of the most common examples of clinical pharmacogenetic implementation. Herein, we review the evidence for pharmacogenetic associations with clopidogrel response and outcomes with genotype-guided P2Y₁₂ inhibitor selection and describe guidance to assist with pharmacogenetic implementation. We also describe processes for applying genotype data for P2Y₁₂ inhibitor therapy selection and remaining gaps in the field. Ultimately, consideration of both clinical and genetic factors may guide selection of P2Y₁₂ inhibitor therapy that optimally balances the atherothrombotic and bleeding risks.     

Features of reversible P2Y<Subscript>12</Subscript> receptor antagonists based on piperazinyl-glutamate-pyridines

P2Y₁₂ receptor becomes a favorable target for therapeutic antiplatelet agents. Reversible P2Y₁₂ receptor antagonists have more benefits than the irreversible ones on rapid absorption, onset of action and higher inhibition of platelet aggregation. As potent reversible P2Y₁₂ receptor antagonists, piperazinyl-glutamate-pyridines exhibit a significant improvement in efficacy while maintaining a better safety profile than the irreversible ones. In this study, we developed a 3D pharmacophore model with r ² = 0.966 based on a set of piperazinyl-glutamate-pyridines showing the important pharmacophore features (one hydrogen bond acceptor, one hydrogen bond donor, one ring aromatic and one hydrophobic feature) which is necessary for reversible P2Y₁₂ receptor antagonists. The obtained pharmacophore models were validated by using well-known methodologies such as test molecules and Fischer’s randomization method. A docking study was also performed based on the recently released P2Y₁₂ receptor crystal structure (PDB ID: 4NTJ) which revealed key residues (Tyr105, His 187 and Lys280) in the receptor–ligand interaction. The docking results were well in agreement with the pharmacophore model that raised the model’s reliability. The pharmacophore model was further confirmed by estimating the activity of six known drugs which can distinguish the reversible P2Y₁₂ receptor antagonists from the irreversible ones. The results of our study provide confidence for the utility of the selected chemical features to retrieve further compounds as reversible P2Y₁₂ receptor antagonists.     

Platelet function and antiplatelet therapy in cardiovascular disease: implications of genetic polymorphisms

Platelets play a crucial role in thrombosis, inflammation, immunity and atherogenesis. Antiplatelet agents are widely used in patients with acute coronary syndrome and other cardiovascular disorders. Aspirin and clopidogrel are the most commonly prescribed antiplatelet agents, with a relatively safe profile and efficiency in a variety of clinical conditions. Numerous prospective studies have revealed variability of antiplatelet efficacy. The so called "antiplatelet resistance" prompted a search for mechanisms implicated in poor responsiveness to aspirin and clopidogrel therapy. In this regard, genetic polymorphisms in the platelet receptor genes attracted considerable interest. Specific genetic variants in platelet receptors such as the P2Y12, glycoprotein (GP) IIb/IIIa, GPIa/IIa, GPIb/IX/V and the cytochrome P450 (CYP) family of genes are associated with variable response to antiplatelet therapy and cardiovascular events. Genetic polymorphisms and haplotypes that comprehensively capture the genetic information encoded within the platelet receptor genes can, to some extent, predict response to the antiplatelet drug better than any single genotype. Genotyping for multiple receptor variants in patients on antiplatelet therapy, complemented by standardized quantification of platelet function, can provide useful information for future drug design studies and possibly for personalized antiplatelet therapy and prevention of thrombotic events. Additional information is, however, needed to evaluate the cost-effectiveness of complex genetic and platelet function testing.