Foxo3b but not Foxo3a activates cyp19a1a in Epinephelus coioides.

Abstract

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.