The Impact of Carboxylesterase 1 ( CES1 ) in Personalized Antiplalet Therapy

羧酸酯酶 1 (CES1) 在个性化抗血小板治疗中的影响

• 批准号: 10191007
• 负责人: JOSHUA PATRICK LEWIS
• 金额: $ 30.9万
• 依托单位: UNIVERSITY OF MARYLAND BALTIMORE
• 依托单位国家: 美国
• 财政年份: 2017
• 资助国家: 美国
• 起止时间: 2017-07-01 至 2023-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10191007
• 关键词: Adverse event; Affect; Agonist; Alleles; Amino Acid Substitution; Angiotensin-Converting Enzyme Inhibitors; Antineoplastic Agents; Antiplatelet Drugs; Area; Aspirin; Bioinformatics; Biological; Blood Platelets; CYP2C19 gene; Carboxylesterase 1; Carboxylic Acids; Cardiovascular system; Catalytic Domain; Clinical; Coronary Arteriosclerosis; Cross-Over Studies; Data; Development; Drug Prescriptions; Enzymes; Event; Exons; Genes; Genetic; Genetic Determinism; Genetic Polymorphism; Genetic Predisposition to Disease; Genetic Variation; Genotype; Glutamic Acid; Glycine; Hemorrhage; Heritability; Hydrolysis; Individual; International; Intervention Studies; Investigation; Medical; Meta-Analysis; Metabolism; Oseltamivir; Outcome; Participant; Pathologic; Patient-Focused Outcomes; Patients; Pharmaceutical Preparations; Pharmacogenetics; Pharmacogenomics; Pharmacotherapy; Phenotype; Physicians; Platelet aggregation; Positioning Attribute; Prevention; Prodrugs; Randomized; Recurrence; Regimen; Research; Resistance; Risk; Ritalin; Single Nucleotide Polymorphism; Sulfhydryl Compounds; Testing; Therapeutic Agents; Time; Translating; United States National Institutes of Health; Variant; acute coronary syndrome; alternative treatment; base; clinical application; clopidogrel; cost; drug efficacy; exome; experience; flexibility; genetic information; genetic variant; genome sequencing; inhibitor/antagonist; insight; inter-individual variation; loss of function; loss of function mutation; novel; percutaneous coronary intervention; personalized medicine; platelet function; precision medicine; prevent; prospective; receptor; recruit; response; serine esterase; treatment strategy; whole genome

PROJECT SUMMARY Medical management of coronary artery disease patients is most commonly achieved through dual antiplatelet therapy with aspirin and clopidogrel in order to reduce rates of recurrent atherothrombotic events. While clopidogrel is generally effective, substantial inter-individual variation in platelet response to this medication has been documented and patients who have altered clopidogrel response have increased risk of experiencing a cardiovascular event and would likely benefit from alternative treatment strategies. Previous investigations have shown that clopidogrel response is highly heritable; however, apart from CYP2C19*2, identification of genetic factors that are reproducibly associated with clopidogrel response has been limited. We have previously shown that a missense loss-of-function single nucleotide polymorphism (SNP) in exon 4 of carboxylesterase 1 (CES1) results in a catalytic site glycine (G)-to-glutamic acid (E) amino acid substitution at position 143 (G143E) and substantially impacts response to clopidogrel. Importantly, CES1 is the primary enzyme responsible for metabolizing the clopidogrel prodrug, its intermediate metabolite (2-oxo-clopidogrel), and the final bioactive thiol metabolite into biologically inactive carboxylic acid derivatives. Therefore, genetic variation affecting CES1 expression and/or activity is likely to be a critical determinant of clopidogrel efficacy. However, no investigation to date has characterized the impact of genetic variation in CES1 on clopidogrel response. In this proposal, our overall hypothesis is that comprehensive characterization of CES1 will unveil novel variants that significantly impact variable clopidogrel response and that use of an alternative P2Y12 receptor inhibitor (i.e. ticagrelor) will reverse the effect of these variants on on-treatment platelet function. We will test this hypothesis by leveraging existing exome and whole genome sequencing data in 5,000 individuals to bioinformatically prioritize genetic variation in CES1 and then assess the impact of these variants on clopidogrel efficacy in participants of the Pharmacogenomics of Anti-Platelet Intervention Study (N = 566) and International Clopidogrel Pharmacogenomics Consortium (N = 5,819). We will extend these findings by performing a prospective, randomized crossover study of clopidogrel (75 mg per day for 7 days) and ticagrelor (90 mg twice daily for 7 days) in healthy individuals by CES1 genotype (G143E and the most significantly associated variant identified in Specific Aim 1, 30 individuals per genotype group) in order to assess the interaction of genotype and drug choice on on-treatment agonist-stimulated platelet aggregation. These studies will contribute to our knowledge regarding the genetic underpinnings underlying clopidogrel resistance and will assess the impact of alternative antiplatelet therapy in individuals who are genetically predisposed to altered clopidogrel response. Understanding drug response variability and the development of novel treatment strategies is critical to enhance personalized medicine initiatives, optimize cardiovascular pharmacotherapy, and ultimately reduce adverse patient outcomes.

项目概要 冠状动脉疾病患者的医疗管理最常通过双重方式实现 使用阿司匹林和氯吡格雷进行抗血小板治疗，以降低复发性动脉粥样硬化血栓事件的发生率。 虽然氯吡格雷通常有效，但血小板对此的反应存在显着的个体差异 药物治疗已被记录，改变氯吡格雷反应的患者发生风险增加 经历心血管事件，可能会受益于替代治疗策略。以前的 研究表明，氯吡格雷反应具有高度遗传性；然而，除了 CYP2C19*2 之外， 与氯吡格雷反应可重复相关的遗传因素的鉴定有限。 我们之前已经证明，外显子 4 中存在错义功能丧失的单核苷酸多态性 (SNP) 羧酸酯酶 1 (CES1) 导致催化位点甘氨酸 (G) 至谷氨酸 (E) 的氨基酸取代 位置 143 (G143E) 并显着影响对氯吡格雷的反应。重要的是，CES1 是主要的 负责代谢氯吡格雷前药及其中间代谢物（2-氧代-氯吡格雷）的酶， 最终的生物活性硫醇代谢物转化为生物非活性的羧酸衍生物。因此，遗传 影响 CES1 表达和/或活性的变异可能是氯吡格雷疗效的关键决定因素。 然而，迄今为止还没有研究表明 CES1 基因变异对氯吡格雷的影响 回复。在本提案中，我们的总体假设是 CES1 的全面表征将揭示 显着影响可变氯吡格雷反应的新变体以及替代 P2Y12 的使用 受体抑制剂（即替格瑞洛）将逆转这些变异体对治疗中血小板功能的影响。我们 将利用 5,000 名个体的现有外显子组和全基因组测序数据来检验这一假设 以生物信息学的方式对 CES1 中的遗传变异进行优先排序，然后评估这些变异对 氯吡格雷在抗血小板干预研究的药物基因组学参与者中的疗效 (N = 566) 和 国际氯吡格雷药物基因组学联盟（N = 5,819）。我们将通过以下方式扩展这些发现 对氯吡格雷（每天 75 毫克，持续 7 天）和替格瑞洛进行前瞻性、随机交叉研究 （90 毫克，每天两次，持续 7 天）在健康个体中，按 CES1 基因型（G143E 和最显着的 具体目标 1 中确定的相关变异，每个基因型组 30 个人），以便评估 基因型和药物选择对治疗激动剂刺激血小板聚集的相互作用。这些 研究将有助于我们了解氯吡格雷耐药性的遗传基础 并将评估替代抗血小板疗法对遗传易感人群的影响 改变氯吡格雷反应。了解药物反应变异性和新疗法的开发 策略对于加强个性化医疗计划、优化心血管药物治疗、 并最终减少患者的不良后果。

项目成果

Genomewide Association Study of Platelet Reactivity and Cardiovascular Response in Patients Treated With Clopidogrel: A Study by the International Clopidogrel Pharmacogenomics Consortium.

接受氯吡格雷治疗的患者血小板反应性和心血管反应的全基因组关联研究：国际氯吡格雷药物基因组学联盟的一项研究。

• 发表时间: 2020
• 影响因子: 6.7
• 作者: Verma, Shefali Setia;Bergmeijer, Thomas O;Gong, Li;Reny, Jean;Lewis, Joshua P;Mitchell, Braxton D;Alexopoulos, Dimitrios;Aradi, Daniel;Altman, Russ B;Bliden, Kevin;Bradford, Yuki;Campo, Gianluca;Chang, Kiyuk;Cleator, John H;Déry, Jean
• 通讯作者: Déry, Jean

Genome-wide and candidate gene approaches of clopidogrel efficacy using pharmacodynamic and clinical end points-Rationale and design of the International Clopidogrel Pharmacogenomics Consortium (ICPC).

使用药效学和临床终点的氯吡格雷功效的全基因组和候选基因方法 - 国际氯吡格雷药物基因组学联盟 (ICPC) 的基本原理和设计。

• 发表时间: 2018-04
• 影响因子: 4.8
• 作者: Bergmeijer, Thomas O;Reny, Jean;Pakyz, Ruth E;Gong, Li;Lewis, Joshua P;Kim, Eun;Aradi, Daniel;Fernandez;Horenstein, Richard B;Lee, Ming Ta Michael;Whaley, Ryan M;Montaner, Joan;Gensini, Gian Franco;Cleator, John H;C
• 通讯作者: C

Pharmacogenomic polygenic response score predicts ischaemic events and cardiovascular mortality in clopidogrel-treated patients.

药物基因组多基因反应评分可预测氯吡格雷治疗患者的缺血事件和心血管死亡率。

• 发表时间: 2020
• 作者: Lewis, Joshua P;Backman, Joshua D;Reny, Jean;Bergmeijer, Thomas O;Mitchell, Braxton D;Ritchie, Marylyn D;Déry, Jean;Pakyz, Ruth E;Gong, Li;Ryan, Kathleen;Kim, Eun;Aradi, Daniel;Fernandez;Lee, Ming Ta Michael
• 通讯作者: Lee, Ming Ta Michael

Implementation of Genotype-Guided Antiplatelet Therapy: Feasible but Not Without Obstacles.

基因型引导抗血小板治疗的实施：可行但并非没有障碍。

• DOI: 10.1161/circgen.118.002118
• 发表时间: 2018-04
• 期刊: Circulation: Genomic and Precision Medicine
• 作者: Lewis JP