Department of Physiology and Pharmacology, Karolinska Institutet, 171 77, Stockholm, Sweden.
Dr. Margarete Fischer-Bosch Institute of Clinical Pharmacology, Stuttgart, Germany.
Hum Genet. 2022 Jun;141(6):1113-1136. doi: 10.1007/s00439-021-02385-x. Epub 2021 Oct 15.
Both safety and efficacy of medical treatment can vary depending on the ethnogeographic background of the patient. One of the reasons underlying this variability is differences in pharmacogenetic polymorphisms in genes involved in drug disposition, as well as in drug targets. Knowledge and appreciation of these differences is thus essential to optimize population-stratified care. Here, we provide an extensive updated analysis of population pharmacogenomics in ten pharmacokinetic genes (CYP2D6, CYP2C19, DPYD, TPMT, NUDT15 and SLC22A1), drug targets (CFTR) and genes involved in drug hypersensitivity (HLA-A, HLA-B) or drug-induced acute hemolytic anemia (G6PD). Combined, polymorphisms in the analyzed genes affect the pharmacology, efficacy or safety of 141 different drugs and therapeutic regimens. The data reveal pronounced differences in the genetic landscape, complexity and variant frequencies between ethnogeographic groups. Reduced function alleles of CYP2D6, SLC22A1 and CFTR were most prevalent in individuals of European descent, whereas DPYD and TPMT deficiencies were most common in Sub-Saharan Africa. Oceanian populations showed the highest frequencies of CYP2C19 loss-of-function alleles while their inferred CYP2D6 activity was among the highest worldwide. Frequencies of HLA-B15:02 and HLA-B58:01 were highest across Asia, which has important implications for the risk of severe cutaneous adverse reactions upon treatment with carbamazepine and allopurinol. G6PD deficiencies were most frequent in Africa, the Middle East and Southeast Asia with pronounced differences in variant composition. These variability data provide an important resource to inform cost-effectiveness modeling and guide population-specific genotyping strategies with the goal of optimizing the implementation of precision public health.
治疗的安全性和疗效可能因患者的人种地理背景而异。这种变异性的原因之一是参与药物处置的基因中的药物遗传学多态性以及药物靶点的差异。因此,了解和认识这些差异对于优化人群分层护理至关重要。在这里,我们对十个药代动力学基因(CYP2D6、CYP2C19、DPYD、TPMT、NUDT15 和 SLC22A1)、药物靶点(CFTR)和参与药物过敏(HLA-A、HLA-B)或药物引起的急性溶血性贫血(G6PD)的基因中的人群药物基因组学进行了广泛的更新分析。综合来看,分析基因中的多态性影响 141 种不同药物和治疗方案的药理学、疗效或安全性。这些数据揭示了人种地理群体之间遗传景观、复杂性和变异频率的显著差异。CYP2D6、SLC22A1 和 CFTR 的功能降低等位基因在欧洲血统个体中最为常见,而 DPYD 和 TPMT 缺乏在撒哈拉以南非洲最为常见。大洋洲人群显示出 CYP2C19 失活等位基因的最高频率,而他们推断的 CYP2D6 活性在全球范围内是最高的。HLA-B15:02 和 HLA-B58:01 的频率在整个亚洲最高,这对卡马西平和别嘌醇治疗时严重皮肤不良反应的风险有重要影响。G6PD 缺乏在非洲、中东和东南亚最为常见,其变异组成存在显著差异。这些变异性数据为成本效益建模提供了重要资源,并指导特定人群的基因分型策略,以优化精准公共卫生的实施。
