Andrology, ANZAC Research Institute, University of Sydney, Sydney, Australia.
Prostate. 2013 Feb 15;73(3):316-27. doi: 10.1002/pros.22570. Epub 2012 Sep 13.
Regulation of steroid synthesis within the prostate is not well understood. In this study, we examined androgen synthesis and metabolism in the mouse prostate.
Using LC-MSMS steroid assays, immunohistochemistry and real-time PCR we examined the role of prostate epithelial AR in regulating 5αR expression and subsequent androgen metabolism by analyzing natural differences in epithelial AR expression between lobes as well as in the prostate epithelial AR knockout (PEARKO) mouse model. Subsequently, the role of intraprostatic androgen metabolism and epithelial AR in the generation and progression of prostate epithelial pathology was examined using long-term exogenous testosterone (T) + estradiol (E2) exposure.
Epithelial AR and 5αR2 expression as well as intraprostatic DHT followed the same lobe-specific pattern being lower in anterior than the other lobes (n = 6-8, P < 0.05). Lobe-specific 5αR2 expression was similar in PEARKO and wild-type (WT) prostate. However, PEARKO prostate had higher intraprostatic DHT content with significantly increased 5αR2 expression localized in abnormal epithelium. T + E2 treatment induced epithelial pathology was more common in PEARKO prostate compared to WT (20% vs. 2%), and was associated with increased 5αR2 expression (n = 6, P < 0.001).
We suggest that androgen synthesis via 5αR2 expression is driven by its own product (DHT) acting on adjacent stromal cells in a paracrine loop leading to increased in situ androgen levels in the PEARKO prostate. This may form part of a feed-forward loop that promotes the development of epithelial pathology.
前列腺内甾体合成的调控机制尚不清楚。在这项研究中,我们研究了小鼠前列腺中的雄激素合成和代谢。
我们使用 LC-MSMS 类固醇检测、免疫组织化学和实时 PCR 来检测前列腺上皮 AR 在调节 5αR 表达和随后的雄激素代谢中的作用,方法是分析上皮 AR 表达在叶间的天然差异,以及在前列腺上皮 AR 敲除 (PEARKO) 小鼠模型中的差异。随后,通过长期外源性睾酮 (T) + 雌二醇 (E2) 暴露,研究了前列腺内雄激素代谢和上皮 AR 在前列腺上皮病变的发生和进展中的作用。
上皮 AR 和 5αR2 表达以及前列腺内 DHT 遵循相同的叶特异性模式,即前部比其他叶低(n=6-8,P<0.05)。PEARKO 和野生型 (WT) 前列腺的 5αR2 表达具有相似的叶特异性。然而,PEARKO 前列腺内的 DHT 含量更高,5αR2 表达明显增加,定位于异常上皮。与 WT 相比,T+E2 处理诱导的上皮病变在 PEARKO 前列腺中更为常见(20%对 2%),并且与 5αR2 表达增加相关(n=6,P<0.001)。
我们认为,通过 5αR2 表达进行的雄激素合成是由其自身产物 (DHT) 驱动的,DHT 作用于邻近的基质细胞,形成旁分泌环,导致 PEARKO 前列腺内原位雄激素水平升高。这可能是促进上皮病变发展的正反馈回路的一部分。
