Department of Endocrinology, Institute of Zoology and Biomedical Research, Jagiellonian University in Kraków, Gronostajowa 9, 30-387 Krakow, Poland.
Department of Swine and Small Animal Breeding, Institute of Animal Sciences, Agricultural University of Krakow, 24/28 Mickiewicza Ave., 30-059 Krakow, Poland.
Anim Reprod Sci. 2019 Aug;207:21-35. doi: 10.1016/j.anireprosci.2019.06.006. Epub 2019 Jun 6.
Organotypic culture of testicular fragments from 7-day-old male pigs (Polish White Large) was used. Tissues were treated with an antagonist of G-protein coupled estrogen receptor (GPER) (G-15; 10 nM), and bisphenol A (BPA), and its analogs (TBBPA, TCBPA; 10 nM) alone or in combination and analyzed using electron and light (stainings for collagen fibers, lipid droplet and autophagy markers) microscopes. In addition, mRNA and protein abundances and localization of molecules required for miRNA biogenesis and function (Drosha, Exportin 5; EXPO5, Dicer, and Argonaute 2; AGO2) were assessed together with calcium ion (Ca) and estradiol concentrations. Regardless of GPER blockade and/or treatment with BPA, TBBPA and TCBPA, there were no changes in Leydig cell morphology. Also, there were no changes in lipid droplet content and distribution but there were changes in lipid and autophagy protein abundance. In the interstitial tissue, there was an increase of collagen content, especially after treatment with BPA analogs and G-15 + BPA. Independent of the treatment, there was downregulation of EXPO5 and Dicer genes but the Drosha and AGO2 genes were markedly upregulated as a result of treatment with G-15 + BPA and TCBPA, respectively. There was always a lesser abundance of EXPO5 and AGO2 proteins regardless of treatment. There was markedly greater abundances of Drosha after G-15 + BPA treatment, and this also occurred for Dicer after treatment with G-15 + TCBPA. Immunolocalization of miRNA proteins indicated there was a cytoplasmic-nuclear pattern in control and treated cells. There was an increase of Ca concentrations after treatment with G-15 and BPA analogs. Estradiol secretion decreased after antagonist and chemical treatments when these were administered alone, however, there was an increase in estradiol secretion after treatment with combinations of these compounds.
本研究采用 7 日龄雄性波兰白猪睾丸组织的器官型培养物。组织分别用 G 蛋白偶联雌激素受体(GPER)拮抗剂(G-15;10nM)、双酚 A(BPA)及其类似物(TBBPA、TCBPA;10nM)单独或联合处理,并通过电子和光学显微镜(胶原纤维、脂滴和自噬标志物染色)进行分析。此外,还评估了 miRNA 生物发生和功能所需分子(Drosha、Exportin 5;EXPO5、Dicer 和 Argonaute 2;AGO2)的 mRNA 和蛋白丰度及定位,以及钙离子(Ca)和雌二醇浓度。无论是否阻断 GPER 以及是否用 BPA、TBBPA 和 TCBPA 处理,Leydig 细胞形态均无变化。此外,脂滴含量和分布无变化,但脂滴和自噬蛋白丰度有变化。在间质组织中,胶原含量增加,特别是在用 BPA 类似物和 G-15+BPA 处理后。无论处理方式如何,EXPO5 和 Dicer 基因均下调,但由于 G-15+BPA 和 TCBPA 处理,Drosha 和 AGO2 基因分别显著上调。无论处理与否,EXPO5 和 AGO2 蛋白的丰度总是较低。用 G-15+BPA 处理后 Drosha 的丰度显著增加,用 G-15+TCBPA 处理后 Dicer 的丰度也增加。miRNA 蛋白的免疫定位显示,在对照和处理细胞中存在细胞质-核模式。用 G-15 和 BPA 类似物处理后 Ca 浓度增加。单独用拮抗剂和化学处理时,雌二醇分泌减少,但这些化合物联合处理后,雌二醇分泌增加。
