细胞色素 P450 CYP2B6 和细胞色素 P450 氧化还原酶遗传变异体的立体选择性丁丙诺啡羟化作用。
Stereoselective Bupropion Hydroxylation by Cytochrome P450 CYP2B6 and Cytochrome P450 Oxidoreductase Genetic Variants.
机构信息
Department of Anesthesiology, Duke University School of Medicine, Durham, North Carolina (P.-F.W., E.D.K.) and Department of Anesthesiology, Washington University in St. Louis, St. Louis, Missouri (A.N.).
Department of Anesthesiology, Duke University School of Medicine, Durham, North Carolina (P.-F.W., E.D.K.) and Department of Anesthesiology, Washington University in St. Louis, St. Louis, Missouri (A.N.)
出版信息
Drug Metab Dispos. 2020 Jun;48(6):438-445. doi: 10.1124/dmd.119.090407. Epub 2020 Apr 1.
Bioactivation of the antidepressant and smoking cessation drug bupropion is catalyzed predominantly by CYP2B6. The metabolite hydroxybupropion derived from t-butylhydroxylation is considered to contribute to the antidepressant and smoking-cessation effects of the parent drug. Bupropion hydroxylation is the canonical in vitro and in vivo probe for CYP2B6 activity. P450 also requires obligate partnership with P450 oxidoreductase (POR). Human and genes are highly polymorphic. Some variants affect bupropion disposition. This investigation evaluated the influence of several human and genetic variants on stereoselective bupropion metabolism, using an insect cell coexpression system containing CYP2B6, POR, and cytochrome Based on intrinsic clearances (Cls), relative activities for -hydroxybupropion formation were in the order CYP2B6.4 > CYP2B6.1 > CYP2B6.17 > CYP2B6.5 > CYP2B6.6 ≈ CYP2B6.26 ≈ CYP2B6.19 > CYP2B6.7 > CYP2B6.9 > > CYP2B6.16 and CYP2B6.18; relative activities for -hydroxybupropion formation were in the order CYP2B6.17 > CYP2B6.4 > CYP2B6.1 > CYP2B6.5 ≈ CYP2B6.19 ≈ CYP2B6.26 > CYP2B6.6 > CYP2B6.7 ≈ CYP2B6.9 > > CYP2B6.16 and CYP2B6.18. Bupropion hydroxylation was not influenced by POR variants. CYP2B6-catalyzed bupropion hydroxylation is stereoselective. Though V and K varied widely among variants, stereoselectivity was preserved, reflected by similar Cl(-hydroxybupropion)/Cl(-hydroxybupropion) ratios (1.8-2.9), except CYP2B6.17, which was less enantioselective. Established concordance between human bupropion hydroxylation in vitro and in vivo, together with these new results, suggests additional variants may influence human bupropion disposition. SIGNIFICANCE STATEMENT: Bupropion pharmacokinetics, metabolism, and clinical effects are affected by the polymorphism. Other expressed CYP2B6 polymorphisms had diminished (*5, *6, *7, *9, *19, *26) or defective (*16, *18) in vitro bupropion hydroxylation. P450 oxidoreductase genetic variants had no effect on metabolism, suggesting no clinical consequence of this polymorphism. These CYP2B6 polymorphisms may portend diminished in vivo bupropion hydroxylation and predict additional clinically important variant alleles.
生物转化的抗抑郁药和戒烟药物安非他酮主要由 CYP2B6 催化。代谢物羟基丁丙诺啡来源于叔丁基羟化被认为有助于抗抑郁药和戒烟药物的母药的效果。丁丙诺啡羟化是经典的体外和体内探针 CYP2B6 活性。P450 还需要与 P450 氧化还原酶(POR)强制性合作。人类和基因高度多态性。一些变体影响丁丙诺啡处置。本研究评估了几种人类和基因变体对立体选择性丁丙诺啡代谢的影响,使用含有 CYP2B6、POR 和细胞色素的昆虫细胞共表达系统。根据内在清除率(Cls),-羟基丁丙诺啡形成的相对活性顺序为 CYP2B6.4>CYP2B6.1>CYP2B6.17>CYP2B6.5>CYP2B6.6≈CYP2B6.26≈CYP2B6.19>CYP2B6.7>CYP2B6.9>>CYP2B6.16 和 CYP2B6.18;-羟基丁丙诺啡形成的相对活性顺序为 CYP2B6.17>CYP2B6.4>CYP2B6.1>CYP2B6.5≈CYP2B6.19≈CYP2B6.26>CYP2B6.6>CYP2B6.7≈CYP2B6.9>>CYP2B6.16 和 CYP2B6.18。POR 变体不影响丁丙诺啡羟化。CYP2B6 催化的丁丙诺啡羟化是立体选择性的。虽然 V 和 K 在基因变体中差异很大,但立体选择性得到了保留,反映在相似的 Cl(-羟基丁丙诺啡)/Cl(-羟基丁丙诺啡)比值(1.8-2.9),除了 CYP2B6.17,其对映选择性较低。人类丁丙诺啡体外和体内羟化作用之间的一致性,加上这些新结果,表明其他基因变体可能会影响人类丁丙诺啡的处置。意义声明:丁丙诺啡的药代动力学、代谢和临床效果受多态性的影响。其他表达的 CYP2B6 多态性具有降低(*5、*6、*7、*9、*19、*26)或缺陷(*16、*18)的体外丁丙诺啡羟化作用。P450 氧化还原酶遗传变体对代谢没有影响,表明这种多态性没有临床后果。这些 CYP2B6 多态性可能预示着体内丁丙诺啡羟化作用降低,并预测了其他具有临床重要意义的变体等位基因。
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