Blockade of the in vitro effects of testosterone and erythropoietin on Cfu-E and Bfu-E proliferation by pretreatment of the donor rats with cyproterone and flutamide.

L A Malgor, M Valsecia, E Vergés, E E De Markowsky
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Abstract

Erythropoietin is obligatory to support the terminal proliferation and differentiation of erythroid cells but it is not the only agent in modulating red cell production. Previously, we have shown that Testosterone enhances erythropoiesis, at least in part, by increasing renal erythropoietin production. Testosterone may also influence directly the behavior of the erythroid progenitor cells increasing erythroid stem cell proliferation. To gain further insight into the role of testosterone in regulation of erythropoiesis and its interactions with erythropoietin, we studied the effect of testosterone and erythropoietin, using clonal cultures of erythropietic progenitors, to observe CFU-E and late and early BFU-E colonies proliferation from bone marrow cells of donor rats pretreated for 2 days with the androgen antagonists cyproterone (10 mg/kg/day) and flutamide (160 mg/kg/day). Specific nuclear receptors for testosterone were demonstrated in marrow erythroid cells. Then, erythroid progenitors may come with their androgen receptors blocked by pretreatment. Cultures were prepared using the methylcellulose technique containing a standard dose of erythropoietin (250 mU/ml) or testosterone (10(-7)M). Results obtained demonstrate that testosterone produced a significant stimulation on CFU-E and BFU-E colony formation. A dose effect correlation was apparent. Testosterone enhances proliferation of late BFU-E more than CFU-E and produce only a slight augmentation of early BFU-E. As expected, erythropoietin markedly stimulate all erythroid colony growth, mainly CFU-E. The effects of testosterone were completely abolished in cultures from bone marrow cells of rats pretreated with cyproterone and flutamide. Activation of the specific androgen nuclear receptors in erythroid cells appears to be necessary for testosterone to develop the erythropoietic effect. Surprisingly, the effects of erythropoietin on erythroid colonies proliferation were also completely blocked by pretreatment with flutamide and partially blocked by pretreatment with cyproterone. Right now, we do not have a satisfactory explanation regarding inhibition of the effects of erythropoietin by pretreatment to marrow donor rats with the androgen antagonists. In conclusion, we postulate triggering late BFU-E cells, a marrow erythropoietin responsive cell population, into active cell cycle, as well as by increasing blood erythropoietin concentration.

环丙孕酮和氟他胺预处理体外阻断睾酮和促红细胞生成素对供体大鼠Cfu-E和Bfu-E增殖的影响
促红细胞生成素是支持红细胞终末增殖和分化的必要因素,但它不是调节红细胞生成的唯一因素。以前,我们已经表明睾酮通过增加肾促红细胞生成素的产生,至少在一定程度上增强了红细胞生成。睾酮也可能直接影响红系祖细胞的行为,增加红系干细胞的增殖。为了进一步了解睾酮对红细胞生成的调控作用及其与促红细胞生成素的相互作用,我们利用红细胞祖细胞克隆培养,观察供体大鼠骨髓细胞经雄激素拮抗剂环丙孕酮(10 mg/kg/天)和氟他胺(160 mg/kg/天)预处理2天后的CFU-E和晚期、早期BFU-E菌落增殖。在骨髓红细胞中发现了特异性的睾酮核受体。然后,红系祖细胞可能会被预处理阻断雄激素受体。使用甲基纤维素技术制备培养物,其中含有标准剂量的促红细胞生成素(250 mU/ml)或睾酮(10(-7)M)。结果表明,睾酮对CFU-E和BFU-E集落形成有显著的刺激作用。剂量效应相关性很明显。睾酮对晚期BFU-E增殖的促进作用大于对早期BFU-E增殖的促进作用。正如预期的那样,促红细胞生成素显著刺激所有红细胞集落的生长,主要是CFU-E。在用环丙孕酮和氟他胺预处理的大鼠骨髓细胞培养物中,睾酮的作用完全消失。激活红细胞中特定的雄激素核受体似乎是睾酮发挥促红细胞生成作用的必要条件。令人惊讶的是,促红细胞生成素对红系菌落增殖的影响也被氟他胺预处理完全阻断,被环丙孕酮预处理部分阻断。目前,对于雄激素拮抗剂预处理骨髓供体大鼠对促红细胞生成素的抑制作用,我们还没有一个令人满意的解释。总之,我们假设触发晚期BFU-E细胞,骨髓促红细胞生成素应答细胞群,进入活跃的细胞周期,以及通过增加血液促红细胞生成素浓度。
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