考拉肝脏中睾酮脱氢酶活性:辅助因子和类固醇底物差异的表征

I. Stupans , S. Kong , A. Kirlich , R.A. McKinnon , M. Murray
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引用次数: 5

摘要

我们研究了考拉(Phascolarctos cinereus)和袋鼠(Macropus eugenii)肝微粒体17β-羟基类固醇脱氢酶(17β-HSD)的容量。对考拉肝组织和大鼠肝组织的活性进行了详细的比较。考拉肝微粒体nadp支持的17β-HSD活性(11.64±3.35 nmol /mg蛋白/min)显著高于灰袋鼠肝脏(1.52±0.79 nmol /mg蛋白/min)。然而,当NAD作为辅助因子时,两种有袋类动物的活性相似(2.83±2.03 nmol /mg protein/min,考拉;0.70±0.71 nmol /mg蛋白/min,灰袋鼠)。大鼠数据显示,辅助因子偏好NAD而非NADP(17.94±6.40 nmol /mg protein/min, NAD;2.18±1.04 nmol /mg protein/min, NADP)。测定了考拉体内NADP和NAD氧化17β-HSD睾丸素动力学的Michaelis-Menten参数。无论使用何种辅助因子,睾酮的Km为10.0-24.0 μM (n=6),而NADP的Km为0.28-0.43 μM (n=2), NAD的Km为13.9-18.5 μM (n=2)。17β-雌二醇是NAD-和NADP-支持的17β-HSD活性的抑制剂。这些结果表明,nadp介导的而非nadp介导的睾酮脱氢是考拉肝脏类固醇生物转化的主要途径;在小袋鼠、人类和大鼠的馏分中,反应不那么广泛。这种与物种相关的辅助因子偏好差异可能与物种基因表达差异一起导致哺乳动物中观察到的17β-HSD活性率。
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Testosterone dehydrogenase activity in koala liver: characterisation of cofactor and steroid substrate differences

We have studied the hepatic microsomal 17β-hydroxysteroid dehydrogenase (17β-HSD) capacity of koala (Phascolarctos cinereus) and tammar wallaby (Macropus eugenii). A detailed comparison of the activity in hepatic fractions from koala and rat was made. Hepatic microsomal NADP-supported 17β-HSD activity was significantly higher in koala (11.64±3.35 nmoles/mg protein/min), (mean±S.D.) than in tammar wallaby liver (1.52±0.79 nmoles/mg protein/min). However, when NAD was utilised as cofactor the activity was similar in both marsupial species (2.83±2.03 nmoles/mg protein/min, koala; 0.70±0.71 nmoles/mg protein/min, tammar wallaby). Data for rat indicated a cofactor preference for NAD rather than NADP (17.94±6.40 nmoles/mg protein/min, NAD; 2.18±1.04 nmoles/mg protein/min, NADP). Michaelis–Menten parameters for the kinetics of 17β-HSD testosterone oxidation by NADP and NAD were determined in the koala. The Km for testosterone was of the order of 10.0–24.0 μM (n=6) irrespective of the cofactor used, whilst the Km for NADP was 0.28–0.43 μM (n=2) and for NAD was 13.9–18.5 μM (n=2). 17β-estradiol was found to be an inhibitor of both NAD- and NADP- supported 17β-HSD activity. These findings indicate that NADP-mediated, but not NAD-mediated testosterone dehydrogenation is a major pathway of steroid biotransformation in koala liver; the reaction is less extensive in fractions from wallaby, human and rat. Such species-related differences in cofactor preference may contribute along with species differences in gene expression to observed rates of 17β-HSD activity in mammals.

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