Müllerian remnants of male mice exposed prenatally to diethylstilbestrol

Abstract

Prenatal exposure of males to diethylstilbestrol (DES) results in reproductive tract teratogenesis, ie, retention of Müllerian duct remnants. The potential of these remnants to develop pathological changes has not been studied. Therefore, pregnant outbred CD-1 mice were subcutaneously injected with daily doses of DES (100 μg/kg) on days 9 through 16 of gestation. DES-exposed male offspring and age-matched control male mice were sacrificed at 10 to 18 mo of age and examined for reproductive tract abnormalities. Prominent Müllerian remnants were observed in 268 out of 277 (97%) of the DES-exposed male mice. These remnants differentiated into “femalelike structures” homologous to oviduct and uterus. The Müllerian remnants were often enlarged and cystic and shared supporting connective tissue with adjacent male structures. Previously reported lesions, termed “epididymal cysts,” were determined histologically to be cystic “oviductlike” structures and were, therefore, considered a Müllerian duct abnormality. Pathological changes in these male oviductal and uterine homologs included benign and malignant lesions. In addition, epididymal structures were altered. Inflammation and sperm granulomas were prevalent in DES-treated mice as young as 10 mo old but were only observed in control mice at 18 mos. Cysts of epididymal duct origin, hyperplasia, and adenoma of the epididymal duct were also observed. No comparable abnormalities were noted in 122 control males of corresponding ages. The data presented in this report demonstrated that transplacental exposure to DES affected the differentiation and normal development of the male genital tract involving both the Müllerian (paramesonephric) and Wolffian (mesonephric) ducts. The long-term changes in these tissues include lesions, some of which resembled neoplasia although the natural history of the lesions is not known. Moreover, some previously described abnormalities referred to as “epididymal cysts” were associated with tissues derived from embryonic female origin.