Manevski Nenad, Balavenkatraman Kamal Kumar, Bertschi Barbara, Swart Piet, Walles Markus, Camenisch Gian, Schiller Hilmar, Kretz Olivier, Ling Barbara, Wettstein Reto, Schaefer Dirk J, Pognan Francois, Wolf Armin, Litherland Karine
Drug Metabolism and Pharmacokinetics (N.M., P.S., M.W., G.C., H.S., O.K., K.L.) and Pre-clinical Safety (K.K.B., B.B., F.P., A.W.), Novartis Institutes for BioMedical Research, Novartis Pharma, Basel, Switzerland; and Department of Plastic, Reconstructive, Aesthetic and Hand Surgery, University Hospital Basel, Basel, Switzerland (B.L., R.W., D.J.S.).
Drug Metabolism and Pharmacokinetics (N.M., P.S., M.W., G.C., H.S., O.K., K.L.) and Pre-clinical Safety (K.K.B., B.B., F.P., A.W.), Novartis Institutes for BioMedical Research, Novartis Pharma, Basel, Switzerland; and Department of Plastic, Reconstructive, Aesthetic and Hand Surgery, University Hospital Basel, Basel, Switzerland (B.L., R.W., D.J.S.)
Drug Metab Dispos. 2014 Dec;42(12):2049-57. doi: 10.1124/dmd.114.060368. Epub 2014 Sep 23.
Human aldehyde oxidase (AO) is a molybdoflavoenzyme that commonly oxidizes azaheterocycles in therapeutic drugs. Although high metabolic clearance by AO resulted in several drug failures, existing in vitro-in vivo correlations are often poor and the extrahepatic role of AO practically unknown. This study investigated enzymatic activity of AO in fresh human skin, the largest organ of the body, frequently exposed to therapeutic drugs and xenobiotics. Fresh, full-thickness human skin was obtained from 13 individual donors and assayed with two specific AO substrates: carbazeran and zoniporide. Human skin explants from all donors metabolized carbazeran to 4-hydroxycarbazeran and zoniporide to 2-oxo-zoniporide. Average rates of carbazeran and zoniporide hydroxylations were 1.301 and 0.164 pmol⋅mg skin(-1)⋅h(-1), resulting in 13 and 2% substrate turnover, respectively, after 24 hours of incubation with 10 μM substrate. Hydroxylation activities for the two substrates were significantly correlated (r(2) = 0.769), with interindividual variability ranging from 3-fold (zoniporide) to 6-fold (carbazeran). Inclusion of hydralazine, an irreversible inhibitor of AO, resulted in concentration-dependent decrease of hydroxylation activities, exceeding 90% inhibition of carbazeran 4-hydroxylation at 100 μM inhibitor. Reaction rates were linear up to 4 hours and well described by Michaelis-Menten enzyme kinetics. Comparison of carbazeran and zoniporide hydroxylation with rates of triclosan glucuronidation and sulfation and p-toluidine N-acetylation showed that cutaneous AO activity is comparable to tested phase II metabolic reactions, indicating a significant role of AO in cutaneous drug metabolism. To our best knowledge, this is the first report of AO enzymatic activity in human skin.
人醛氧化酶(AO)是一种钼黄素酶,通常可氧化治疗药物中的氮杂环。尽管AO导致的高代谢清除率致使多种药物研发失败,但现有的体外-体内相关性往往较差,且AO在肝外的作用实际上尚不清楚。本研究调查了AO在新鲜人皮肤中的酶活性,皮肤是人体最大的器官,经常接触治疗药物和外源性物质。从13名个体供体获取新鲜的全层人皮肤,并用两种特异性AO底物进行检测:卡巴嗪和佐尼普明。所有供体的人皮肤外植体均将卡巴嗪代谢为4-羟基卡巴嗪,将佐尼普明代谢为2-氧代佐尼普明。卡巴嗪和佐尼普明的平均羟化速率分别为1.301和0.164 pmol·mg皮肤⁻¹·h⁻¹,在与10 μM底物孵育24小时后,底物转化率分别为13%和2%。两种底物的羟化活性显著相关(r² = 0.769),个体间差异范围为3倍(佐尼普明)至6倍(卡巴嗪)。加入肼屈嗪(一种AO的不可逆抑制剂)导致羟化活性呈浓度依赖性降低,在100 μM抑制剂时,卡巴嗪4-羟化的抑制率超过90%。反应速率在长达4小时内呈线性,可用米氏酶动力学很好地描述。将卡巴嗪和佐尼普明的羟化速率与三氯生葡萄糖醛酸化和硫酸化以及对甲苯胺N-乙酰化速率进行比较,结果表明皮肤AO活性与测试的II相代谢反应相当,这表明AO在皮肤药物代谢中起重要作用。据我们所知,这是关于人皮肤中AO酶活性的首次报道。
