Joshua P. Lewis, Kathleen A. Ryan, Elizabeth A. Streeten, Hilary B. Whitlatch, Melanie Daue, Keith Tanner, James A. Perry, Jeffrey R. O'Connell, Alan R. Shuldiner, Braxton D. Mitchell
{"title":"功能缺失的羧基酯酶 1 (CES1) G143E 变体对氯吡格雷和替卡格雷药效学的随机评估。","authors":"Joshua P. Lewis, Kathleen A. Ryan, Elizabeth A. Streeten, Hilary B. Whitlatch, Melanie Daue, Keith Tanner, James A. Perry, Jeffrey R. O'Connell, Alan R. Shuldiner, Braxton D. Mitchell","doi":"10.1111/cts.70079","DOIUrl":null,"url":null,"abstract":"<p>Antiplatelet therapy with a P2Y<sub>12</sub> receptor inhibitor, in combination with aspirin, is standard of care for medical management of patients with coronary artery disease, and flexibility in prescribing options among these medications offers great potential for individualizing patient care. Previously, we showed that a loss-of-function missense mutation (G143E) in carboxylesterase 1 (CES1), the primary enzyme responsible for clopidogrel degradation, significantly impacts on-clopidogrel platelet aggregation and recurrent cardiovascular event risk. In the current investigation, we conducted a prospective randomized crossover study of clopidogrel (75 mg/day for 7 days) and ticagrelor (180 mg/day for 7 days) in 50 individuals stratified by <i>CES1</i> G143E genotype (<i>N</i> = 34 143GG and 16 143GE) to determine the effect of drug choice on inhibition of platelet aggregation (IPA). Consistent with prior reports, we observed strong association between G143E and adenosine diphosphate-stimulated platelet aggregation following clopidogrel administration (IPA = 71.6 vs. 48.0% in 143E-allele carriers vs. non-carriers, respectively, <i>p</i> = 3.8 × 10<sup>−5</sup>). Similar significant effects on platelet aggregation were also noted between 143E-allele carriers versus non-carriers in response to stimulation with arachidonic acid (45.8 vs. 25.8%, <i>p</i> = 0.04), epinephrine (44.4 vs. 18.8%, <i>p</i> = 0.03), and collagen (5 μg/mL, 25.8 vs. 11.4%, <i>p</i> = 3.7 × 10<sup>−3</sup>). In contrast, no relationship between <i>CES1</i> G143E and IPA was observed following ticagrelor administration regardless of the platelet agonist used. Collectively, these data suggest that on-clopidogrel platelet aggregation is substantially modified by <i>CES1</i> G143E genotype, that this variant does not modify ticagrelor pharmacodynamics, and that more consistent inhibition of platelet aggregation may be achieved by using ticagrelor in patients who carry clopidogrel response-modifying alleles in <i>CES1</i>.</p>","PeriodicalId":50610,"journal":{"name":"Cts-Clinical and Translational Science","volume":"17 11","pages":""},"PeriodicalIF":3.1000,"publicationDate":"2024-11-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11583987/pdf/","citationCount":"0","resultStr":"{\"title\":\"Randomized evaluation of the loss-of-function carboxylesterase 1 (CES1) G143E variant on clopidogrel and ticagrelor pharmacodynamics\",\"authors\":\"Joshua P. Lewis, Kathleen A. Ryan, Elizabeth A. Streeten, Hilary B. Whitlatch, Melanie Daue, Keith Tanner, James A. Perry, Jeffrey R. O'Connell, Alan R. Shuldiner, Braxton D. Mitchell\",\"doi\":\"10.1111/cts.70079\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Antiplatelet therapy with a P2Y<sub>12</sub> receptor inhibitor, in combination with aspirin, is standard of care for medical management of patients with coronary artery disease, and flexibility in prescribing options among these medications offers great potential for individualizing patient care. Previously, we showed that a loss-of-function missense mutation (G143E) in carboxylesterase 1 (CES1), the primary enzyme responsible for clopidogrel degradation, significantly impacts on-clopidogrel platelet aggregation and recurrent cardiovascular event risk. In the current investigation, we conducted a prospective randomized crossover study of clopidogrel (75 mg/day for 7 days) and ticagrelor (180 mg/day for 7 days) in 50 individuals stratified by <i>CES1</i> G143E genotype (<i>N</i> = 34 143GG and 16 143GE) to determine the effect of drug choice on inhibition of platelet aggregation (IPA). Consistent with prior reports, we observed strong association between G143E and adenosine diphosphate-stimulated platelet aggregation following clopidogrel administration (IPA = 71.6 vs. 48.0% in 143E-allele carriers vs. non-carriers, respectively, <i>p</i> = 3.8 × 10<sup>−5</sup>). Similar significant effects on platelet aggregation were also noted between 143E-allele carriers versus non-carriers in response to stimulation with arachidonic acid (45.8 vs. 25.8%, <i>p</i> = 0.04), epinephrine (44.4 vs. 18.8%, <i>p</i> = 0.03), and collagen (5 μg/mL, 25.8 vs. 11.4%, <i>p</i> = 3.7 × 10<sup>−3</sup>). In contrast, no relationship between <i>CES1</i> G143E and IPA was observed following ticagrelor administration regardless of the platelet agonist used. 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Randomized evaluation of the loss-of-function carboxylesterase 1 (CES1) G143E variant on clopidogrel and ticagrelor pharmacodynamics
Antiplatelet therapy with a P2Y12 receptor inhibitor, in combination with aspirin, is standard of care for medical management of patients with coronary artery disease, and flexibility in prescribing options among these medications offers great potential for individualizing patient care. Previously, we showed that a loss-of-function missense mutation (G143E) in carboxylesterase 1 (CES1), the primary enzyme responsible for clopidogrel degradation, significantly impacts on-clopidogrel platelet aggregation and recurrent cardiovascular event risk. In the current investigation, we conducted a prospective randomized crossover study of clopidogrel (75 mg/day for 7 days) and ticagrelor (180 mg/day for 7 days) in 50 individuals stratified by CES1 G143E genotype (N = 34 143GG and 16 143GE) to determine the effect of drug choice on inhibition of platelet aggregation (IPA). Consistent with prior reports, we observed strong association between G143E and adenosine diphosphate-stimulated platelet aggregation following clopidogrel administration (IPA = 71.6 vs. 48.0% in 143E-allele carriers vs. non-carriers, respectively, p = 3.8 × 10−5). Similar significant effects on platelet aggregation were also noted between 143E-allele carriers versus non-carriers in response to stimulation with arachidonic acid (45.8 vs. 25.8%, p = 0.04), epinephrine (44.4 vs. 18.8%, p = 0.03), and collagen (5 μg/mL, 25.8 vs. 11.4%, p = 3.7 × 10−3). In contrast, no relationship between CES1 G143E and IPA was observed following ticagrelor administration regardless of the platelet agonist used. Collectively, these data suggest that on-clopidogrel platelet aggregation is substantially modified by CES1 G143E genotype, that this variant does not modify ticagrelor pharmacodynamics, and that more consistent inhibition of platelet aggregation may be achieved by using ticagrelor in patients who carry clopidogrel response-modifying alleles in CES1.
期刊介绍:
Clinical and Translational Science (CTS), an official journal of the American Society for Clinical Pharmacology and Therapeutics, highlights original translational medicine research that helps bridge laboratory discoveries with the diagnosis and treatment of human disease. Translational medicine is a multi-faceted discipline with a focus on translational therapeutics. In a broad sense, translational medicine bridges across the discovery, development, regulation, and utilization spectrum. Research may appear as Full Articles, Brief Reports, Commentaries, Phase Forwards (clinical trials), Reviews, or Tutorials. CTS also includes invited didactic content that covers the connections between clinical pharmacology and translational medicine. Best-in-class methodologies and best practices are also welcomed as Tutorials. These additional features provide context for research articles and facilitate understanding for a wide array of individuals interested in clinical and translational science. CTS welcomes high quality, scientifically sound, original manuscripts focused on clinical pharmacology and translational science, including animal, in vitro, in silico, and clinical studies supporting the breadth of drug discovery, development, regulation and clinical use of both traditional drugs and innovative modalities.
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