PROCESS OF FUNCTIONAL SEX REVERSAL OF THE GONAD IN THE FEMALE GUPPY, POECILIA RETICULATA, TREATED WITH ANDROGEN BEFORE BIRTH

Abstract

In the guppy, Poecilia reticulata, ovarian differentiation occurs during the embryonal life by 14 days after the preceding parturition. Testicular differentiation begins with the appearance of prominent aggregations of stroma cells in the gonadal hilus occurring by 18 days following the last parturition. Oral administration of methyltestosterone (400 μ/g diet) to gravid guppies, begun 13-15 days after the preceding parturition and continued until the end of gestation, induced a male-type aggregation of somatic cells in the hilus of ovaries of female embryos. Gonads of newly born, androgenized females still had developing oocytes but were always provided with atypical clusters of stroma cells in their hilus. The gonads of affected female offspring developed successively into definite testes within 20 days after birth, displaying a precocious differentiation of the hilar stroma into sperm ducts and testicular interstitium, a concomitant initiation of spermatogenesis, and a conspicuous degeneration of oocytes. A successful masculinization of the somatic element, which may occur prior to that of the germ cells, in androgen-affected embryonic ovaries seems to be essential for the functional sex reversal of genetic females in the guppy.