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大鼠脑内去氢表雄酮的 7-羟化。

The 7-hydroxylation of dehydroepiandrosterone in rat brain.

机构信息

Department of Biomedical and Pharmaceutical Sciences, College of Pharmacy, Idaho State University, Pocatello, ID 83209-8334, USA.

出版信息

Steroids. 2010 Jun;75(6):404-10. doi: 10.1016/j.steroids.2010.02.003. Epub 2010 Feb 11.

DOI:10.1016/j.steroids.2010.02.003
PMID:20153344
Abstract

Dehydroepiandrosterone (DHEA) is an important neurosteroid with multiple functions in the central nervous system including neuroprotection. How DHEA exerts its neuroprotection function has not been fully elucidated. One possible mechanism is via its active metabolites, 7alpha-OH DHEA and 7beta-OH DHEA. The purpose of this research is to understand how DHEA is metabolized to 7alpha-OH DHEA and 7beta-OH DHEA by brain tissue. DHEA was incubated with rat brain microsomes and mitochondria and the 7alpha-OH DHEA and 7beta-OH DHEA formed by these fractions were analyzed by LC/MS. For the first time, we observed that DHEA could be metabolized to 7alpha-OH DHEA and 7beta-OH DHEA in mitochondria but the formation of 7alpha-OH DHEA and 7beta-OH DHEA demonstrated different enzymatic kinetic properties. Adding NADPH, an essential cofactor, to mitochondria incubation mixtures increased only the formation of 7alpha-OH DHEA, but not that of 7beta-OH DHEA. Addition of estradiol to the incubation mixtures inhibited only the formation of 7alpha-OH DHEA, but not that of 7beta-OH DHEA. Western blot analysis showed that both microsomes and mitochondria contained cytochrome P450 7B. We also found that 7alpha-OH DHEA could be converted to 7beta-OH DHEA by rat brain homogenates. Our data suggest that 7alpha-OH DHEA and 7beta-OH DHEA are formed by different enzymes and that 7beta-OH DHEA can be formed from both DHEA and 7alpha-OH DHEA, although the overall level of 7beta-OH DHEA was very low.

摘要

脱氢表雄酮(DHEA)是一种重要的神经甾体,在中枢神经系统中具有多种功能,包括神经保护作用。DHEA 如何发挥其神经保护作用尚未完全阐明。一种可能的机制是通过其活性代谢物 7α-OH DHEA 和 7β-OH DHEA。本研究的目的是了解 DHEA 如何被脑组织代谢为 7α-OH DHEA 和 7β-OH DHEA。DHEA 与大鼠脑微粒体和线粒体孵育,通过 LC/MS 分析这些级分形成的 7α-OH DHEA 和 7β-OH DHEA。我们首次观察到 DHEA 可以在线粒体中代谢为 7α-OH DHEA 和 7β-OH DHEA,但 7α-OH DHEA 和 7β-OH DHEA 的形成表现出不同的酶动力学特性。向线粒体孵育混合物中添加 NADPH,一种必需的辅助因子,只能增加 7α-OH DHEA 的形成,但不能增加 7β-OH DHEA 的形成。向孵育混合物中添加雌二醇只能抑制 7α-OH DHEA 的形成,而不能抑制 7β-OH DHEA 的形成。Western blot 分析表明,微粒体和线粒体均含有细胞色素 P450 7B。我们还发现 7α-OH DHEA 可以被大鼠脑匀浆转化为 7β-OH DHEA。我们的数据表明,7α-OH DHEA 和 7β-OH DHEA 是由不同的酶形成的,尽管 7β-OH DHEA 的总体水平非常低,但 7β-OH DHEA 可以由 DHEA 和 7α-OH DHEA 形成。

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