Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Platelets have a crucial role in the maintenance of normal haemostasis, and perturbations of this system can lead to pathological thrombus formation and vascular occlusion, resulting in stroke, myocardial infarction and unstable angina. ADP released from damaged vessels and red blood cells induces platelet aggregation through activation of the integrin GPIIb-IIIa and subsequent binding of fibrinogen. ADP is also secreted from platelets on activation, providing positive feedback that potentiates the actions of many platelet activators. ADP mediates platelet aggregation through its action on two G-protein-coupled receptor subtypes. The P2Y1 receptor couples to Gq and mobilizes intracellular calcium ions to mediate platelet shape change and aggregation. The second ADP receptor required for aggregation (variously called P2Y(ADP), P2Y(AC), P2Ycyc or P2T(AC)) is coupled to the inhibition of adenylyl cyclase through Gi. The molecular identity of the Gi-linked receptor is still elusive, even though it is the target of efficacious antithrombotic agents, such as ticlopidine and clopidogrel and AR-C66096 (ref. 9). Here we describe the cloning of this receptor, designated P2Y12, and provide evidence that a patient with a bleeding disorder has a defect in this gene. Cloning of the P2Y12 receptor should facilitate the development of better antiplatelet agents to treat cardiovascular diseases.
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PMID:Identification of the platelet ADP receptor targeted by antithrombotic drugs. 1119 25

Clopidogrel is a potent antithrombotic drug that inhibits ADP-induced platelet aggregation. The results of large clinical trials have demonstrated an overall benefit of clopidogrel over aspirin in the prevention of vascular ischemic events (myocardial infarction, stroke, vascular death) in patients with a history of symptomatic atherosclerotic disease. The antiaggregating effect of clopidogrel is attributed to an irreversible inhibition of ADP binding to a purinergic receptor present at the platelet surface. Clopidogrel is not active in vitro and can be considered a precursor of an active metabolite formed in the liver. The chemical structure of this active metabolite and its biological activity have been described recently. Several purinergic receptors have been described on platelets; P2X (1), a calcium channel, and P2Y1 a Gq-coupled seven-transmembrane domain receptor, have been found not to be antagonized by clopidogrel. Another Gi (2)-coupled receptor (named P2Y12) has been recently cloned and stably expressed in CHO cells. These cells displayed a strong affinity for (33)P-2MeS-ADP, a stable analogue of ADP, the binding characteristics of which corresponded in all points to those observed on platelets. The binding of (33)P-2MeS-ADP to these cells was strongly inhibited by the active metabolite of clopidogrel with a potency that was consistent with that observed for this compound on platelets. In these transfected CHO cells, as in platelets, ADP and 2MeS-ADP induced adenylyl cyclase downregulation, an effect that was inhibited by the active metabolite of clopidogrel. These results demonstrate that this receptor corresponds to the previously called "P2t" platelet receptor and show that the active metabolite of clopidogrel binds in a covalent manner to this receptor, thus explaining how it blocks the aggregating effect of ADP on platelets.
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PMID:P2Y12, a new platelet ADP receptor, target of clopidogrel. 1519 74

Peripheral arterial disease (PAD) is associated with platelet hyperaggregability as well as an increase in morbidity and mortality from myocardial infarction (MI) and stroke. Purinergic signaling has been shown, both experimentally and clinically, to play an important role in the activation of platelets. Platelets express three different purinergic receptors: P2Y1, P2Y12 and P2X1. We assessed the hypothesis that the hyperaggregability associated with PAD is partly due to an increased P2 receptor expression at the transcriptional and/or translational level. Patients with PAD (n=8) and controls (n=8) were studied. Using a high-resolution channelyzer, platelet shape change (PSC) was assessed by measuring the median platelet volume (MPV). The fall in free platelet count following the addition of ADP was also assessed. Real-time PCR was used to quantify the mRNA expression and Western blots to quantify the protein expression of P2 receptors in platelets. The median (and range) fall in free platelet count after adding ADP was significantly (P=0.02) greater for patients [11% (5-24); n=8] than for controls [0.5% (0-10); n=8] despite using a lower concentration of ADP for the patient samples. The MPV did not differ significantly. The mRNA levels for the three P2 receptors were similar in PAD patients and controls. Western blot detected no significant differences in protein expression between these groups. Thus, platelets from PAD patients show an increased activation after stimulation with ADP (even though all patients were on aspirin). This hyperactivity was neither due to an obvious up-regulation of the mRNA levels nor to altered protein levels of P2 receptors in the platelets. It is suggested that the increased sensitivity to ADP in PAD is caused by post-receptor mechanisms.
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PMID:Increased platelet purinergic sensitivity in peripheral arterial disease--a pilot study. 1601 76

Recent advances in our understanding of cardiovascular disease have revealed that atherothrombotic events, such as myocardial infarction and ischemic stroke, are the end result of a complex inflammatory response to multifaceted vascular pathology. As well as initiating thrombus formation at the site of a ruptured atherosclerotic plaque, platelets play a key role in vascular inflammation, through release of their own pro-inflammatory mediators and interactions with other relevant cell types (endothelial cells, leukocytes, and smooth muscle cells). An increasing body of literature shows that inflammatory biomarkers can be used to predict atherothrombotic risk and that antiplatelet therapy may reduce the levels of these markers. Acetylsalicylic acid (ASA) has been attributed with reducing levels of the transcription factor nuclear factor kappaB (NF-kappaB), C-reactive protein, and soluble CD40 ligand, although the evidence relating to the latter two markers is conflicting. There is also substantial evidence that therapy with clopidogrel, a specific antagonist of the platelet P2Y12 ADP-receptor, also leads to reductions in serum levels of CD40 ligand, C-reactive protein, P-selectin, and platelet-leukocyte aggregate formation. Beneficial effects of clopidogrel on inflammatory markers have been demonstrated across the spectrum of atherothrombotic disease (acute coronary syndrome patients, patients undergoing percutaneous coronary intervention (PCI), acute ischemic stroke patients, and those with peripheral arterial disease). Oral glycoprotein (GP) IIb/IIIa receptor antagonists, at doses that achieve moderate levels of receptor blockade, may paradoxically be associated with platelet-mediated pro-inflammatory effects. A similar phenomenon has been observed with intravenous GP IIb/IIIa antagonists in vitro, but most often at low doses, and data from clinical studies suggest that these agents may actually attenuate release of inflammatory mediators when administered at doses producing more complete receptor blockade.
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PMID:Clinical evidence for anti-inflammatory effects of antiplatelet therapy in patients with atherothrombotic disease. 1761 99

Recent data have implicated a haplotype of the purinergic receptor P2Y, G-protein coupled, 12 gene (P2RY12), as potential risk determinant for atherothrombosis. However, to date, no prospective, genetic-epidemiological data are available. Using DNA samples collected at baseline in a prospective cohort of 14,916 initially healthy American men, we examined the possible association of P2RY12 genetic variants, in particular a haplotype H2 (constituted by dbSNP rs10935838, rs2046934, rs5853517, and rs6809699) amongst 708 white males who subsequently developed a thromboembolic event (incident myocardial infarction (MI), ischemic stroke, or deep venous thromboembolism/pulmonary embolism (DVT/PE)) and amongst an equal number of age- and smoking-matched white males who remained free of reported vascular disease during follow-up (controls). The P2RY12 gene variants tested were in linkage disequilibrium. The haplotype H2 distribution was significantly different between the DVT/PE cases (12%) and their matched controls (21%), p-permuted=0.02. In an adjusted conditional logistic regression analysis, the haplotype H2 was significantly associated with a lower risk of incident DVT/PE as compared to the reference haplotype H1 (odds ratio=0.50, 95% CI=0.27-0.93, p=0.028). However, we found no evidence for an association of the P2RY12 variants or the haplotype H2 with incident MI or ischemic stroke. The present investigation provides evidence for an association of the P2RY12 haplotype H2 with lower risk of DVT/PE; however these findings require replication in other well-designed studies.
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PMID:Purinergic receptor P2Y, G-protein coupled, 12 gene variants and risk of incident ischemic stroke, myocardial infarction, and venous thromboembolism. 1770 82

Antiplatelet drugs are used to prevent aberrant platelet activation in pathophysiologic conditions such as myocardial infarction and ischemic stroke. The key role that ADP plays in this process has led to the development of antiplatelet drugs that target the P2Y12 receptor. The aim of this study was to characterize the pharmacodynamic (PD) and pharmacokinetic (PK) properties of the novel P2Y12 receptor antagonists, BX 667 and BX 048. BX 667 blocks ADP-induced platelet aggregation in human, dog and rat blood (IC50=97, 317 and 3000 nM respectively). BX 667 had nominal effects on collagen-induced aggregation and weakly inhibited arachidonic acid-induced aggregation. BX 667 has an active metabolite, BX 048, that also potently inhibits ADP-induced aggregation (IC50=290 nM) in human blood. BX 667 was shown to have high oral bioavailability in both dog and rat unlike BX 048. Administration of BX 667 resulted in a rapid and sustained inhibition of platelet aggregation where the extent and duration of platelet inhibition was directly proportional to circulating plasma levels. This report describes the PK/PD properties of BX 667 showing that it has the properties required for a potential antiplatelet therapeutic agent.
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PMID:Novel P2Y12 adenosine diphosphate receptor antagonists for inhibition of platelet aggregation (II): pharmacodynamic and pharmacokinetic characterization. 1853 12

Atherothrombosis is an acute complication that develops on the surface of a ruptured atheromatous plaque or as a consequence of endothelial erosion that may cause myocardial infarction or ischemic stroke. Anti-platelet therapy has been highly effective at reducing atherothrombotic risk. However, patients continue to experience thrombotic events despite the use of agents such as aspirin and clopidogrel. Many of these events occur, in part, because of the inadequate response to these drugs. This has prompted the pursuit of novel agents with aspirations of optimizing anti-platelet therapy. New opportunities have emerged to address the deficiencies in current anti-platelet agents. Among these are thrombin receptor antagonists, such as SCH530348 and P2Y12 receptor antagonists, such as prasugrel, cangrelor, and AZD6140. The patents describe these novel compounds and compositions, their ability to inhibit platelet activation and/or aggregation and their use in the treatment of atherothrombotic diseases. These drugs have pharmacologic properties that translate into increased potency, more rapid onset of action, and less variability in response compared to standard therapy. In this review, we highlight the current data on these potential drugs and the role they could play in atherothrombotic disease.
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PMID:Future prospects in anti-platelet therapy: a review of potential P2Y12 and thrombin receptor antagonists. 1899 94

Thrombin induces platelet activation through an early, reversible stage of platelet aggregation, which is followed by a later, irreversible stage of platelet aggregation. Without intervention, events leading to pathological platelet activation can result in vessel occlusion, acute coronary syndrome, and stroke. Therefore, a better understanding of events leading to platelet-mediated clot formation may provide insight into new therapeutic targets. Once activated, protease activated receptors (PARs) are essential in regulating events leading to platelet aggregation. We have determined a signaling cascade through PAR1, which involves phosphatidylinositol (PI) kinases, phosphatidylinositol bisphosphate (PIP(2)), and Rap1 activation (independent of P2Y12) in the formation of a stable platelet aggregate. The putative phosphatidylinositol-3 kinase (PI3K) inhibitor LY294002 was found to reduce basal and PAR-stimulated PIP(2) levels by mass spectrometry and to inhibit PAR1-mediated stable platelet aggregation. Rap1 activation in platelets (during time points corresponding to the late, irreversible phase of aggregation) was found to require the PI signaling pathway. Perturbation of PI3K signaling by isoform-selective inhibitors had differential effects on Rap1 activation through PAR1 and PAR4. Hence, it is possible to disrupt lipid signaling pathways involved in stable clot formation without inhibiting early clot formation, offering a new potential target for antiplatelet therapy.
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PMID:Irreversible platelet activation requires protease-activated receptor 1-mediated signaling to phosphatidylinositol phosphates. 1948 2

Despite its widespread use, there are many concerns about the efficacy of aspirin in the secondary prevention of cardiovascular events after stroke, leading to the concept of aspirin non-response (ANR). Although the mechanisms of ANR remain uncertain, it is expected to be due to a combination of clinical, biological and genetic characteristics affecting platelet function. In this study, we investigated whether clinical and/or biological factors such as hypertension and platelet response to ADP could contribute to the ANR. As a secondary objective, we determine whether ANR and collagen/ADP closure time (CADP-CT) could be related to platelet glycoprotein single nucleotide polymorphisms (SNPs). One hundred patients on aspirin (160 mg/day) were enrolled. ANR was measured with a platelet function analyzer (PFA-100); genotyping of four SNPs (GP IIIa, GP Ia, P2Y12 and GP VI) was performed using a tetra-primer amplification refractory mutation system. Using a collagen/epinephrine-coated cartridge on the PFA-100, the prevalence of ANR was 15% (n = 15). In the ANR group, (i) CADP-CT was significantly shorter and (ii) hypertension was an independent clinical predictive factor of ANR (OR = 4.25; 95%CI: 1.06-17.11). No clear relation was found between CADT-CT and platelet gene polymorphism as well as ANR status and SNPs. In conclusion our study confirms the independent relationship between hypertension, platelet hypersensitivity to ADP and aspirin (160 mg/day) non-response. The differential sensitivity to aspirin may have potential clinical implications, where adaptation of antiplatelet therapy is necessary according to a patient's clinical and genetic characteristics.
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PMID:Stroke and aspirin non-responder patients: relation with hypertension and platelet response to adenosine diphosphate. 1985 85

Dual antiplatelet therapy with aspirin and clopidogrel, a P2Y12 antagonist, is a cornerstone for treatment of patients with stroke, peripheral arterial disease, and acute coronary artery disease followed with or without percutaneous coronary intervention. Giachini and colleagues found that clopidogrel could normalize the increased phenylephrine-induced vascular contraction and impaired acetylcholine-induced vasodilatation in mesenteric arteries from angiotensin II-infused Sprague-Dawley rats. This might develop a new area for clopidogrel application. However, whether clopidogrel can improve the arterial function in patients with hypertension or diabetes, or whether clopidogrel outweighs the beneficial effect aspirin in those patients, remains an open field for future inquiry.
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PMID:Clopidogrel application: beyond coronary artery disease. 1981 50


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