Effects of environmental stress or ACTH treatment during pregnancy on maternal and fetal plasma androstenedione in the rat

Prenatal stress applied during the last trimester of pregnancy has been shown to alter fetal development and influence adult sexual behavior. Since androstenedione (Δ⁴) has the potential to participate in differentiation processes, this study was designed to assess the effect of prenatal stress on maternal and fetal Δ⁴ titers. Restraint/illumination/heat (environmental stress) or ACTH injections were used to stress pregnant rat dams beginning on Day 14 of pregnancy. Blood samples and organ weights were obtained from nonpregnant animals, pregnant rats on Days 5, 10, 15, 18, and 20 of pregnancy, and fetuses on Days 18 and 20 of gestation. Maternal and male and female fetal Δ⁴ titers were determined by radioimmunoassay. ACTH and environmental stress significantly reduced fetal body weight and male anogenital distance. Environmental stress also significantly reduced the size of 20-day fetal adrenals and testes. Each treatment caused significant short-term (1 hr after treatment) and long-term (16 hr after treatment) elevation of maternal plasma Δ⁴ on Days 15 and 18 of gestation, but only short-term elevation of Δ⁴ titers on Day 20. ACTH treatment did not cause long-term elevation of fetal Δ⁴ although both ACTH treatment and environmental stress generated a significant short-term increase in fetal Δ⁴ titers. Environmental stress produced long-term elevation of fetal Δ⁴ in 18-day fetuses of both sexes and in 20-day female fetuses. It is concluded that maternal stress and exogenous ACTH significantly elevate maternal and fetal Δ⁴ titers during the prenatal period postulated to be critical in sexual differentiation of the rat brain.