Interactive Effects of Vinclozolin and Testosterone Propionate on Pregnancy and Sexual Differentiation of the Male and Female SD Rat

doi:10.1093/toxsci/kfh018

ToxSci Advance Access originally published online on January 21, 2004

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Toxicological Sciences 78, 135-143 (2004)
Copyright © 2004 by the Society of Toxicology

REGULAR ARTICLE

Interactive Effects of Vinclozolin and Testosterone Propionate on Pregnancy and Sexual Differentiation of the Male and Female SD Rat

Cynthia J. Wolf^*^,, Gerald A. LeBlanc and L. Earl Gray, Jr.^*^,1

^* U.S. Environmental Protection Agency, Office of Research and Development, NHEERL, Reproductive Toxicology Division, Research Triangle Park, North Carolina 27711; and Department of Environmental and Molecular Toxicology, North Carolina State University, Raleigh, North Carolina 27695

¹ To whom correspondence should be addressed at RTD, NHEERL, ORD, U.S. EPA, MD 72, 2525 Highway 54, RTP, NC, 27711. E-mail: gray.earl{at}epa.gov.

ABSTRACT

In mammals, androgens are essential in directing mammalian sexualdifferentiation of the male phenotype. Administration of testosteroneduring this period alters female development in a male-likedirection, whereas exposure to an androgen receptor antagonistlike vinclozolin (V) demasculinizes and feminizes the male offspring.In the current study, we administered V (gavage at 200 mg/kg/day)and/or testosterone propionate (TP, sc, at 1 mg/rat/day), aloneand in combination to Sprague-Dawley (SD) rats on days 14 through19 of pregnancy, to determine if V would antagonize the effectsof TP in the female and, conversely, if TP would antagonizethe effects of V in the male offspring. These doses of TP andV were selected because they significantly alter sexual differentiationin the majority of female and male rat offspring, respectively,without producing severe toxicity in the dam or offspring. Thestudy design is a 2 x 2 factorial (7 dams per group) includingvehicle control, V, TP, and V + TP groups. As expected, individually,both V and TP reduced maternal weight gain and the V + TP groupwas affected in a cumulative fashion. Litter size on postnatalday (PND) 2 was reduced only by V + TP, whereas pup body weightwas reduced in all three treated groups, the effect of V + TPagain being cumulative. In female offspring, TP-induced alterations(i.e., increased anogenital distance [AGD] and fewer nipples,vaginal agenesis, hydrometrocolpos, induced prostate and bulbourethralglands, and levator ani muscle tissues) were all reversed bycoadministration of V. In male offspring, V-induced alterationswere only modestly antagonized by TP. At the dosage levels usedherein, V + TP-treated male offspring had less well-developednipples as infants and adults and a lower incidence of ectopictestis than did the V group. However, V-induced changes in reproductiveorgan weights, AGD, atrophic testes, vaginal pouch, and agenesisof the sex accessory tissues were not antagonized by concurrentTP treatment in male offspring. We observed that the combinationof V and TP, two chemicals with opposing endocrine action, antagonizedone another during sexual differentiation, especially in thefemale offspring and induced cumulative effects on maternaland neonatal toxicity. We suspect that antagonism of V by TPwould be enhanced in the male if lower dose levels of V wereused, but then the antagonism of TP by V in the female wouldlikely be attenuated.

Key Words: sexual differentiation; endocrine-disrupting compounds; cumulative risk; androgen; antiandrogen.

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