Molecular and cellular regulation on sexual fate and gonadal development in hermaphrodite yellowfin seabream Acanthopagrus latus

Abstract

Yellowfin seabream (Acanthopagrus latus) is a hermaphroditic fish with male prematurity, which is also an economically important mariculture species in coastal areas of China. Although the production yield has been increasing in recent years, artificial breeding of this species remains imperfect due to the lack understanding of its sex differentiation mechanism. In this study, we conducted transcriptomic sequencing to screen for sex-related genes in different stage of the testis, ovotestis, ovary, hypothalamus, and pituitary tissues of yellowfin seabream. During gonad development (from intersex to mature stage), Gnrh3, Kiss2, and Dbh were expressed in the hypothalamus and Lhb and Fshb were expressed in the pituitary. Sex-related genes such as Hsd11b1, Foxl2l, Amh, and Gsdf were among the top 10 downregulated genes in the intersex testis compared with the mature testis. The expression of Hsd11b, Wnt, and Sox families genes differed significantly in the sex change process among functional mature gonads. In addition, treatment with estradiol resulted in feminizing of the ovotestis. Inhibition of androgens or estrogens promoted ovarian or testicular steps of ovotestis development. In summary, we systematically evaluated gene expression profiles during yellowfin seabream gonad development from intersex to functional male or female. Our results confirmed that regulation by the hypothalamus-pituitary-gonad (HPG) axis and the promotion of sex steroid hormones acted on this process, and they provide a reference for further studies of the involvement of the HPG axis in sex change and of sex induction methods in yellowfin seabream.