Juvonen Risto O, Jokinen Elmeri M, Huuskonen Juhani, Kärkkäinen Olli, Raunio Hannu, Pentikäinen Olli T
School of Pharmacy, Faculty of Health Sciences, University of Eastern Finland, Kuopio, Finland.
Institute of Biomedicine, Faculty of Medicine, Integrative Physiology and Pharmacology, University of Turku, Turku, Finland.
Xenobiotica. 2021 Nov;51(11):1207-1216. doi: 10.1080/00498254.2021.1898700. Epub 2021 Nov 2.
CYP2A13 enzyme is expressed in human extrahepatic tissues, while CYP2A6 is a hepatic enzyme. Reactions catalysed by CYP2A13 activate tobacco-specific nitrosamines and some other toxic xenobiotics in lungs.To compare oxidation characteristics and substrate-enzyme active site interactions in CYP2A13 vs CYP2A6, we evaluated CYP2A13 mediated oxidation characteristics of 23 coumarin derivatives and modelled their interactions at the enzyme active site.CYP2A13 did not oxidise six coumarin derivatives to corresponding fluorescent 7-hydroxycoumarins. The K-values of the other coumarins varied 0.85-97 µM, V-values of the oxidation reaction varied 0.25-60 min, and intrinsic clearance varied 26-6190 kL/min*mol CYP2A13). K of 6-chloro-3-(3-hydroxyphenyl)-coumarin was 0.85 (0.55-1.15 95% confidence limit) µM and V 0.25 (0.23-0.26) min, whereas K of 6-hydroxy-3-(3-hydroxyphenyl)-coumarin was 10.9 (9.9-11.8) µM and V 60 (58-63) min. Docking analyses demonstrated that 6-chloro or 6-methoxy and 3-(3-hydroxyphenyl) or 3-(4-trifluoromethylphenyl) substituents of coumarin increased affinity to CYP2A13, whereas 3-triazole or 3-(3-acetate phenyl) or 3-(4-acetate phenyl) substituents decreased it.The active site of CYP2A13 accepts more diversified types of coumarin substrates than the hepatic CYP2A6 enzyme. New sensitive and convenient profluorescent CYP2A13 substrates were identified, such as 6-chloro-3-(3-hydroxyphenyl)-coumarin having high affinity and 6-hydroxy-3-(3-hydroxyphenyl)-coumarin with high intrinsic clearance.
CYP2A13酶在人体肝外组织中表达,而CYP2A6是一种肝酶。CYP2A13催化的反应可激活烟草特异性亚硝胺和肺部中的一些其他有毒外源性物质。为了比较CYP2A13与CYP2A6的氧化特性以及底物-酶活性位点相互作用,我们评估了CYP2A13介导的23种香豆素衍生物的氧化特性,并对它们在酶活性位点的相互作用进行了建模。CYP2A13未将六种香豆素衍生物氧化为相应的荧光7-羟基香豆素。其他香豆素的K值在0.85-97µM之间变化,氧化反应的V值在0.25-60分钟之间变化,内在清除率在26-6190kL/min*mol CYP2A13之间变化。6-氯-3-(3-羟基苯基)-香豆素的K值为0.85(0.55-1.15 95%置信限)µM,V值为0.25(0.23-0.26)分钟,而6-羟基-3-(3-羟基苯基)-香豆素的K值为10.9(9.9-11.8)µM,V值为60(58-63)分钟。对接分析表明,香豆素的6-氯或6-甲氧基以及3-(3-羟基苯基)或3-(4-三氟甲基苯基)取代基增加了对CYP2A13的亲和力,而3-三唑或3-(3-乙酸苯基)或3-(4-乙酸苯基)取代基则降低了亲和力。与肝脏CYP2A6酶相比,CYP2A13的活性位点接受更多种类的香豆素底物。鉴定出了新的灵敏且方便的前荧光CYP2A13底物,例如具有高亲和力的6-氯-3-(3-羟基苯基)-香豆素和具有高内在清除率的6-羟基-3-(3-羟基苯基)-香豆素。
