Role of P34S, G169R, R296C, and S486T Substitutions in Ligand Access and Catalysis for Cytochrome P450 2D6 Allelic Variants CYP2D6*14A and CYP2D6*14B.

Amelia Nathania Dong, Nafees Ahemad, Yan Pan, Uma Devi Palanisamy, Beow Chin Yiap, Chin Eng Ong
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引用次数: 1

Abstract

Background: Genetic polymorphism of cytochrome P450 (CYP) contributes to variability in drug metabolism, clearance, and response. This study aimed to investigate the functional and molecular basis for altered ligand binding and catalysis in CYP2D6*14A and CYP2D6*14B, two unique alleles common in the Asian population.

Methods: CYP proteins expressed in Escherichia coli were studied using the substrate 3-cyano-7- ethoxycoumarin (CEC) and inhibitor probes (quinidine, fluoxetine, paroxetine, terbinafine) in the enzyme assay. Computer modelling was additionally used to create three-dimensional structures of the CYP2D6*14 variants.

Results: Kinetics data indicated significantly reduced intrinsic clearance in CYP2D6*14 variants, suggesting that P34S, G169R, R296C, and S486T substitutions worked cooperatively to alter the conformation of the active site that negatively impacted the deethylase activity of CYP2D6. For the inhibition studies, IC50 values decreased in quinidine, paroxetine, and terbinafine but increased in fluoxetine, suggesting a varied ligand-specific susceptibility to inhibition. Molecular docking further demonstrated the role of P34S and R296C in altering access channel dimensions, thereby affecting ligand access and binding and subsequently resulting in varied inhibition potencies.

Conclusion: In summary, the differential selectivity of CYP2D6*14 variants for the ligands (substrate and inhibitor) was governed by the alteration of the active site and access channel architecture induced by the natural mutations found in the alleles.

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P34S、G169R、R296C和S486T取代在细胞色素P450 2D6等位变异CYP2D6*14A和CYP2D6*14B的配体通路和催化中的作用
背景:细胞色素P450 (CYP)的遗传多态性有助于药物代谢、清除和反应的变异性。本研究旨在探讨亚洲人群中常见的两个独特等位基因CYP2D6*14A和CYP2D6*14B的配体结合和催化改变的功能和分子基础。方法:采用底物3-氰-7-乙氧基香豆素(CEC)和抑制剂探针(奎尼丁、氟西汀、帕罗西汀、特比萘芬)对大肠杆菌中表达的CYP蛋白进行酶分析。此外,还使用计算机建模来创建CYP2D6*14变体的三维结构。结果:动力学数据显示CYP2D6*14变异的内在清除率显著降低,表明P34S、G169R、R296C和S486T置换协同作用,改变了活性位点的构象,从而对CYP2D6去乙基酶活性产生负面影响。在抑制研究中,奎尼丁、帕罗西汀和特比萘芬的IC50值降低,但氟西汀的IC50值升高,表明不同配体对抑制的敏感性不同。分子对接进一步证明了P34S和R296C在改变通路尺寸方面的作用,从而影响配体的进入和结合,从而导致不同的抑制能力。结论:综上所述,CYP2D6*14变异对配体(底物和抑制剂)的差异选择性是由等位基因的自然突变引起的活性位点和通路结构的改变所决定的。
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