Estrogen receptor 2b is the major determinant of sex-typical mating behavior and sexual preference in medaka.

Male and female animals typically display innate sex-specific mating behaviors, which, in vertebrates, are highly dependent on sex steroid signaling. While estradiol-17β (E2) signaling through estrogen receptor 2 (ESR2) serves to defeminize male mating behavior in rodents, the available evidence suggests that E2 signaling is not required in teleosts for either male or female mating behavior. Here, we report that female medaka deficient for Esr2b, a teleost ortholog of ESR2, are not receptive to males but rather court females, despite retaining normal ovarian function with an unaltered sex steroid milieu.

Teleocortin: A Novel Member of the CRH Family in Teleost Fish.

The CRH family of neuropeptides, including CRH and urocortins, plays pivotal roles in the regulation of physiological and behavioral stress responses in vertebrates. In this study, we identified a previously undescribed member of the CRH family of peptides in a teleost fish species (medaka; Oryzias latipes) and named this peptide teleocortin (Tcn). Medaka Tcn is a 41-amino acid polypeptide derived from the C terminus of a larger precursor protein that is encoded by a 2-exon gene, thus sharing common structural features with known CRH family peptides.

Sexually dimorphic expression of the sex chromosome-linked genes cntfa and pdlim3a in the medaka brain.

In vertebrates, sex differences in the brain have been attributed to differences in gonadal hormone secretion; however, recent evidence in mammals and birds shows that sex chromosome-linked genes, independent of gonadal hormones, also mediate sex differences in the brain. In this study, we searched for genes that were differentially expressed between the sexes in the brain of a teleost fish, medaka (Oryzias latipes), and identified two sex chromosome genes with male-biased expression, cntfa (encoding ciliary neurotrophic factor a) and pdlim3a (encoding PDZ and LIM domain 3 a). These genes were found to be located 3-4 Mb from and on opposite sides of the Y chromosome-specific region containing the sex-determining gene (the medaka X and Y chromosomes are genetically identical, differing only in this region).

Neuropeptide B is female-specifically expressed in the telencephalic and preoptic nuclei of the medaka brain.

In the brain of medaka (Oryzias latipes), a teleost fish, we recently found that the supracommissural/posterior nuclei of the ventral telencephalic area (Vs/Vp) and the magnocellular/gigantocellular portions of the magnocellular preoptic nucleus (PMm/PMg) express estrogen receptor (ER) and androgen receptor (AR) specifically in females. This finding led us to postulate that sex steroid hormones might induce gene expression unique to females in these nuclei. In the present study, we searched for genes differentially expressed between the sexes in the medaka brain and identified the gene encoding neuropeptide B (npb) as being female-specifically expressed in Vs/Vp and PMm/PMg.

hebp3, a novel member of the heme-binding protein gene family, is expressed in the medaka meninges with higher abundance in females due to a direct stimulating action of ovarian estrogens.

The brains of teleost fish exhibit remarkable sexual plasticity throughout their life span. To dissect the molecular basis for the development and reversal of sex differences in the teleost brain, we screened for genes differentially expressed between sexes in the brain of medaka (Oryzias latipes). One of the genes identified in the screen as being preferentially expressed in females was found to be a new member of the heme-binding protein gene family that includes hebp1 and hebp2 and was designated here as hebp3.