Ontogeny of oestrogen receptor alpha in gonads and sex ducts of fetal and newborn mice.

The distribution of nuclear oestrogen receptor alpha (ER-alpha) in the sex organs of fetal and newborn mice has been investigated immunohistochemically. There was no visible ER-alpha immunoreaction in the sexually undifferentiated gonads, whereas a faint immunoreaction was detected in a few cells surrounding the sex ducts, the Müllerian and Wolffian ducts. After sex differentiation, the immunoreaction of ER-alpha was observed in various cell types, with the exception of both the male and female germ cells. In the fetal ovary, immunoreaction was restricted to the surface epithelium and a few stroma cells without any preferential localization. In the testis, the number of ER-alpha-immunopositive cells, identified as Leydig and peritubular cells, increased with age. Immediately after sex differentiation, cells surrounding the sex ducts were ER-alpha-immunopositive, but no immunoreaction was detected in the epithelium in either sex. During development, the epithelium of the sex ducts attained a topographic difference in ER-alpha immunoreaction. In females, immunoreaction was detected in the epithelium of the oviduct, but not in the uterus. In males, the immunoreaction of ER-alpha was intense in the epithelium of the efferent ducts, weak in the epididymis and absent in the vas deferens. ER-alpha immunoreaction in the cells surrounding the sex duct differed between the sexes, being high in all these cells in females, but of varying intensity in males. ER-alpha may not play an important role in the development and function of ovarian cells, but may be involved in the development of Leydig and peritubular cells. Furthermore, substances that react with ER-alpha may influence the male germ cells indirectly through the ER-alpha-immunopositive peritubular cells. In addition, in both sexes, ER-alpha-immunopositive cells surrounding the sex ducts may be involved in the mediation of growth and functional differentiation of the ductal epithelium.