Local mechanisms in sex specific morphogenesis

Abstract

Sex determination in mammals occurs on three levels. Segregation of sex chromosomes determines the chromosomal sex. Sry on the Y chromosome induces formation of a testis which in turn regulates via AMH and testosterone the development of the genital tract and the external phenotype. Recently a number of new factors have been described, which affect sexual development but have not yet found a place in the above canonical scheme of sex determination. For the purpose of this review, the factors are aligned according to their quality as transcription factors, steroid hormones, or growth factors. In this web of regulatory factors, the classical sex determining factors have evolved as master mechanisms while others function as slaves, or were totally suppressed. In this context, androgens acquired a dominant role in mammalian development. Androgens determine the morphogenesis of the genital tract. The effects of androgens are mediated by local cellular interactions. In the cranial section of the Wolffian duct the androgen receptor appears in the epithelium and mediates maintenance of the duct via an epithelial factor. In the caudal section of the duct the androgen receptor is expressed in the embryonic mesenchyme. Vesicular glands are induced via a morphogenetically active mesenchymal condensation, while the epithelial buds are primarily AR androgen receptor negative. The dominant role of androgens and formation of a vagina evolved together at the transition to eutherian mammals. Under this aspect, the role of androgens in the development of the vagina is analyzed.