Liu Qiongyou, Zhang Yang, Shi Boyang, Lu Huijie, Zhang Lihong, Zhang Weimin
Institute of Aquatic Economic AnimalsSchool of Life Sciences, Sun Yat-Sen University, Guangzhou, People's Republic of China Department of Histology and EmbryologyZunyi Medical College, Zunyi, Guizhou, People's Republic of China.
Institute of Aquatic Economic AnimalsSchool of Life Sciences, Sun Yat-Sen University, Guangzhou, People's Republic of China.
J Mol Endocrinol. 2016 May;56(4):337-49. doi: 10.1530/JME-15-0251. Epub 2016 Mar 9.
FOXO3 has been shown to be a critical transcription factor for folliculogenesis in mammals, while the information on its roles in reproduction of nonmammalian vertebrates remains scarce. In this study, two foxo3 homologs, namely foxo3a and foxo3b, were identified in a teleost, the orange-spotted grouper Epinephelus coioides. foxo3a was mainly expressed in the central nervous system, ovary, and gut whereas foxo3b was expressed ubiquitously in tissues examined. In contrast to the dominant expression of mammalian FOXO3 in germ cells but barely detectable in ovarian follicular cells, immunoreactive Foxo3a and Foxo3b were identified both in the ovarian germ cells and follicular cells. The immunointensities of both Foxo3a and Foxo3b in ovarian follicular cells during vitellogenesis were significantly increased stage-dependently, and co-localized with Cyp19a1a. In the nucleus of ovarian follicular cells, both Foxo3a and Foxo3b immunostaining could be detected at the vitellogenic stages. Transient transfection and EMSA showed that Foxo3a and Foxo3b upregulated cyp19a1a promoter activities in vitro through a conserved Foxo-binding site, with the latter being a more potent activator. However, ChIP analysis showed that only Foxo3b binds to cyp19a1a proximal promoter region containing the conserved Foxo-binding site in the vitellogenic ovary. Taken together, these results suggested that Foxo3a and Foxo3b are involved in the ovarian development possibly through regulating the ovarian germ cells as well as follicular cells, and Foxo3b but not Foxo3a may activate cyp19a1a in the ovarian follicular cells during vitellogenesis in the orange-spotted grouper.
FOXO3已被证明是哺乳动物卵泡发生的关键转录因子,而其在非哺乳动物脊椎动物生殖中的作用信息仍然匮乏。在本研究中,在一种硬骨鱼——点带石斑鱼(Epinephelus coioides)中鉴定出了两个foxo3同源物,即foxo3a和foxo3b。foxo3a主要在中枢神经系统、卵巢和肠道中表达,而foxo3b在所检测的组织中普遍表达。与哺乳动物FOXO3在生殖细胞中占主导表达但在卵巢滤泡细胞中几乎检测不到不同,免疫反应性的Foxo3a和Foxo3b在卵巢生殖细胞和滤泡细胞中均被鉴定出来。在卵黄发生期间,卵巢滤泡细胞中Foxo3a和Foxo3b的免疫强度均呈阶段依赖性显著增加,并与Cyp19a1a共定位。在卵巢滤泡细胞的细胞核中,在卵黄发生阶段均可检测到Foxo3a和Foxo3b的免疫染色。瞬时转染和电泳迁移率变动分析表明,Foxo3a和Foxo3b在体外通过一个保守的Foxo结合位点上调cyp19a1a启动子活性,其中后者是一种更强效的激活剂。然而,染色质免疫沉淀分析表明,在卵黄发生的卵巢中,只有Foxo3b与包含保守Foxo结合位点的cyp19a1a近端启动子区域结合。综上所述,这些结果表明,Foxo3a和Foxo3b可能通过调节卵巢生殖细胞和滤泡细胞参与卵巢发育,并且在点带石斑鱼卵黄发生期间,Foxo3b而非Foxo3a可能激活卵巢滤泡细胞中的cyp19a1a。
