Endocrine differentiation of the XY sex-reversed mouse ovary during postnatal development.

When the mouse Y chromosome of Mus musculus domesticus is placed onto the C57BL/6J genetic background, half of the XY progeny develop bilateral ovaries and the female phenotype, but lack regular estrous cyclicity and lose embryos after fertilization. In the present study, we compared the endocrinological activity of XY ovaries with XX ovaries during postnatal development by measuring steroids in the incubation medium by radioimmunoassay. At 1 day postpartum (d.p.p.), production of progesterone and estradiol was significant while testosterone was undetectable in both ovaries. At 14 and 35 d.p.p., amounts of testosterone and estradiol produced by XY ovaries were half of those by XX ovaries. Production of progesterone by XY ovaries was slightly higher than XX ovaries at 14 d.p.p., but only half of that at 35 d.p.p. Addition of gonadotropins increased testosterone production by XX ovaries but not by XY ovaries at either 14 or 35 d.p.p. Progesterone production in XY ovaries at 35 d.p.p. was increased by gonadotropins to a much lesser extent than in XX ovaries. Gonadotropins increased estradiol production similarly in both ovaries at 35 d.p.p. Striking differences were found in the histochemical distribution of 3 beta-hydroxysteroid dehydrogenase between XY and XX ovaries at 14, but not at 35 d.p.p. In conclusion, the XY ovary develops abnormal endocrine features during the postnatal period, which likely lead to the fertility problems at puberty.