Lopes E S, Foster B A, Donjacour A A, Cunha G R
Anatomy Department, University of California, San Francisco 94143-0452, USA.
Endocrinology. 1996 Oct;137(10):4225-34. doi: 10.1210/endo.137.10.8828481.
Functional differentiation of prostatic epithelium is manifested by the production of tissue specific secretory proteins. In vivo production of these proteins is dependent on the presence of serum androgens. A serum-free organ culture system was used to examine the initiation of prostatic epithelial cytodifferentiation in vitro using two rat prostate specific secretory proteins (DP-1 and probasin) as markers of epithelial cytodifferentiation. The dorsal-lateral and anterior prostatic (AP) lobes from 12-day-old rats were cultured for 6 days in serum-free medium in the presence or absence of androgens. At the start of culture, secretory proteins DP-1 and probasin were undetectable using Western blot analysis. DP-1 and probasin were produced by explants cultured in the presence of androgens but were not detected in the absence of androgens. Dose-response studies were carried out for testosterone (T), 5 alpha-dihydrotestosterone (DHT), 5 alpha-Androstan-3 alpha, 17 beta-diol (3 alpha-Adiol), and two synthetic androgens: 17 alpha-methyl-19-nortestosterone (MENT) and methyltrienolone (R1881). All androgens used were capable of inducing expression of DP-1 and probasin in vitro. T, R1881, and Ment were effective at doses of 10(-7) M to 10(-9) M, whereas both DHT and 3 alpha-Adiol were able to induce DP-1 and probasin at concentrations as low as 10(-10) M. Estrogen (17 beta-Estradiol), hydrocortisone (11 beta, 17 alpha, 21-trihydroxypregn-4-ene-3, 20-dione), and progesterone (4-pregnen-3, 20-Dione) were ineffective in inducing prostatic secretory activity. Hydroxyflutamide (alpha-alpha-alpha-trifluro-2-methyl-4'-nitro-m-lactoluidide ) blocked the induction of secretory activity elicited by T. From histological sections, it was observed that explants cultured with T exhibited tall columnar epithelial morphology with organized stromal components. Tissue sections of explants cultured without T exhibited a cuboidal to low columnar morphology with less organized stromal components when compared with glands cultured with T. A DNA synthetic index was established to measure proliferation in the explants at the end of the culture period. Explants cultured in the presence of T exhibited greater DNA synthetic activity than explants cultured in the absence of T (P < 0.05). Using this serum-free model, we can explore the mechanism for the initiation of secretory cytodifferentiation.
前列腺上皮的功能分化表现为组织特异性分泌蛋白的产生。这些蛋白在体内的产生依赖于血清雄激素的存在。使用无血清器官培养系统,以两种大鼠前列腺特异性分泌蛋白(DP-1和前列腺素)作为上皮细胞分化的标志物,来检测体外前列腺上皮细胞分化的起始。将12日龄大鼠的背外侧和前叶前列腺(AP)叶在无血清培养基中培养6天,培养基中添加或不添加雄激素。在培养开始时,使用蛋白质免疫印迹分析未检测到分泌蛋白DP-1和前列腺素。在添加雄激素的培养基中培养的外植体产生了DP-1和前列腺素,但在没有雄激素的情况下未检测到。对睾酮(T)、5α-二氢睾酮(DHT)、5α-雄甾烷-3α,17β-二醇(3α-二醇)以及两种合成雄激素:17α-甲基-19-去甲睾酮(MENT)和甲三烯olone(R1881)进行了剂量反应研究。所有使用的雄激素都能够在体外诱导DP-1和前列腺素的表达。T、R1881和Ment在10^(-7)M至10^(-9)M的剂量下有效,而DHT和3α-二醇在低至10^(-10)M的浓度下就能诱导DP-1和前列腺素。雌激素(17β-雌二醇)、氢化可的松(11β,17α,21-三羟基孕-4-烯-3,20-二酮)和孕酮(4-孕烯-3,20-二酮)在诱导前列腺分泌活性方面无效。羟基氟他胺(α-α-α-三氟-2-甲基-4'-硝基间甲苯胺)阻断了T诱导的分泌活性。从组织学切片观察到,用T培养的外植体呈现高柱状上皮形态,基质成分有组织。与用T培养的腺体相比,未用T培养的外植体组织切片呈现立方状至低柱状形态,基质成分组织性较差。建立了DNA合成指数来测量培养期末外植体的增殖情况。在添加T的培养基中培养的外植体比在没有T的培养基中培养的外植体表现出更高的DNA合成活性(P < 0.05)。使用这个无血清模型,我们可以探索分泌性细胞分化起始的机制。
