Distinct Roles of Estrogen Receptors in the Regulation of Vitellogenin Expression in Orange-Spotted Grouper (<i>Epinephelus coioides</i>)

During their breeding season, estrogen induces vitellogenin (VTG) production in the liver of teleost fish through estrogen receptors (ERs) that support oocyte vitellogenesis. There are at least three ER subtypes in teleost fish, but their roles in mediating E₂-induced VTG expression have yet to be ascertained. In this study, we investigated the expression of <i>vtgs</i> and <i>ers</i> in the liver of orange-spotted grouper (<i>Epinephelus coioides</i>). Their expression levels were significantly increased in the breeding season and were upregulated by an estradiol (E₂) injection in female fish, except for the expression of <i>erβ1</i>. The upregulation of <i>vtgs</i>, <i>erα</i> and <i>erβ2</i> by E₂ was also observed in primary hepatocytes, but these stimulatory effects could be abolished by ER antagonist ICI182780 treatment. Subsequent studies showed that ERβ antagonist Cyclofenil downregulated the E₂-induced expression of <i>vtg</i>, <i>erα</i>, and <i>erβ2</i>, while the ERβ agonist DPN simulated their expression. Knockdown of <i>erβ2</i> by siRNA further confirmed that ERβ2 mediated the E₂-induced expression of <i>vtgs</i> and <i>erα</i>. To reveal the mechanism of ERβ2 in the regulation of <i>erα</i> expression, the <i>erα</i> promoter was cloned, and its activity was examined in cells. E₂ treatment simulated the activity of the <i>erα</i> promoter in the presence of ERβ2. Deletions and site-directed mutations showed that the E₂ up-regulated transcriptional activity of <i>erα</i> occurs through a classical half-estrogen response element- (ERE) dependent pathway. This study reveals the roles of ER subtypes in VTG expression in orange-spotted grouper and provides a possible explanation for the rapid and efficient VTG production in this species during the breeding season.