Estrogen suppresses DMRT1 expression during ovarian development in the chicken

Primary sex determination is the choice between two different developmental fates, a testis or an ovary. This selection is thought to require the action of a master regulator gene that triggers expression of a gene cascade in the bipotential gonad precursor in one sex. The selection of a particular developmental pathway is also thought to suppress the alternative developmental pathway. In birds, where the male is the homogametic sex (ZZ) and females the heterogametic sex (ZW), the Z-linked transcription factor DMRT1 is considered the master regulator and has been shown to be essential for testis development, and to also inhibit the ovarian pathway. Here, we characterise in detail, DMRT1 transcription and protein levels during gonadal development in the chick. Our analysis suggests that DMRT1 protein levels are equivalent in male and female gonads during the bipotential phase of development, and that DMRT1 protein levels are reduced in the developing ovary during the differentiation phase. The reduction in DMRT1 protein levels in the somatic cells of the female medulla, coincides with the induction of aromatase expression and the initiation of estrogen synthesis. Analysis of sex-reversed gonads and mixed-sex chimeric gonads, suggests that the reduction in DMRT1 protein is due to inhibition of DMRT1 expression by estrogen. Our data suggests that estrogen signalling is involved in primary sex determination by regulation of DMRT1 protein expression. ### Competing Interest Statement The authors have declared no competing interest.