性类固醇激素的血清生物利用度

William M. Pardridge
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引用次数: 186

摘要

本章综述了体内组织中睾酮和雌二醇运输的相关因素。强调了以下几点。(1)白蛋白结合的睾酮几乎可以自由地运输到脑和肝脏,部分可运输到唾液腺和淋巴结;(2)与shbg结合的睾酮无法运输到组织中;shbg结合的雌二醇可运输到肝脏、唾液腺和淋巴结,但在正常情况下不能运输到大脑。(3)激素从循环血浆蛋白结合池的运输涉及组织介导的激素与蛋白质的解离,而血浆蛋白从微循环室明显外流。组织介导的增强解离机制在不同器官间的活性不同,在调节激素向不同组织传递的放大过程中,比毛细血管传递时间的器官差异更重要。(4)在没有显著细胞代谢激素的情况下,细胞内的游离睾酮浓度比体外的游离睾酮浓度高近10倍。(5)在激素的组织代谢活跃的情况下,细胞内游离睾酮的浓度可能远低于白蛋白结合激素的浓度,并可能偶然接近体外游离睾酮的浓度。这是唾液腺的情况;唾液中睾酮的低浓度似乎是由于活跃的唾液代谢激素,因为游离睾酮和白蛋白结合睾酮都可运输到唾液腺。
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4 Serum bioavailability of sex steroid hormones

This chapter has reviewed the factors underlying the transport of testosterone and oestradiol into tissues in vivo. The following points have been emphasized. (1) Albumin-bound testosterone is nearly freely available for transport into brain and liver and is partially available for transport into salivary gland and lymph node; testosterone transport into hair follicles has not been measured thus far.

(2) SHBG-bound testosterone is not available for transport into tissues; SHBG-bound oestradiol is available for transport into liver, salivary gland, and lymph node, but not into brain under normal conditions.

(3) The transport of hormone from the circulating plasma protein-bound pool involves tissue-mediated enhanced dissociation of the hormone from the protein without significant exodus of the plasma protein from the microcirculation compartment. The tissue-mediated enhanced dissociation mechanism varies in activity between different organs and is a much more important factor than organ differences in capillary transit times in regulating the amplification of hormone delivery to different tissues.

(4) The concentration of free testosterone inside cells in the absence of significant cellular metabolism of the hormone is nearly ten times greater than the concentration of free testosterone in vitro, but is nearly equal to the concentration of free plus albumin-bound hormone.

(5) In the presence of active tissue metabolism of hormone, the concentration of cellular free testosterone may be much less than the albumin-bound hormone and may fortuitously approximate the concentration of free testosterone in vitro. This is the situation in salivary gland; the low concentration of testosterone in saliva appears to be due to active salivary metabolism of the hormone, since both free and albumin-bound testosterone are available for transport into salivary gland.

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