Interferon inducing agents, including tilorone and polyriboinosinic acid polyribocytidylic acid (poiy IC), are known to depress hepatic cytochrome P-450-dependent monooxygenase systems and the induction of these systems by phenobarbital (PB) and 3-methylcholanthrene (MC) in mature male rats. The current study investigated the effects of tilorone and poly IC on the cytochrome P-450 systems of non-induced, PB-induced, MC-induced and pregnenolonecarbonitrile (PCN)-induced pregnant rats and their fetuses. Pregnant rats received either tilorone or poly IC and saline, PB, MC or PCN, and microsomes from their livers and those of their fetuses were examiued for cytochrome P-450 content, aminopyrine (AP) N-demethylase activity and benxo[ a]pyrene (BP) hydroxylase activity. The generalixation can be made from these studies that, when the interferon inducing agents caused changes in cytochrome P-450 content or monooxygenase activities of either induced (PB, MC or PCN) or non-induced (saline) animals, decreases were seen in maternal livers and increases in fetal livers. Thus, in maternal livers tilorone depressed cytochrome P-450 and AP N-demethylase activity in non-induced and PB-, MC- and PCN-induced rats and BP hydroxylase activity in the induced animals; BP hydroxylase activity was not depressed in non-induced maternal livers. Poly IC depressed cytochrome P-450 and AP N-demethylase activity in non-induced and PB-induced rats but not in PCN-induced animals. BP hydroxylase was depressed by poly IC in both PB- and PCN-induced animals. Fetal hepatic cytochrome P-450 and monooxygenase activities were increased by tilorone in PB- and PCN-induced rats but not in non-induced or MC-induced animals. Poly IC increased cytochrome P-450 and both monooxygenase activities in PB- and PCN-induced fetal livers, whereas only BP hydroxylase activity was increased in the fetuses of non-induced rats. Several possible explanations are offered for the opposite effects produced by interferon inducing agents in maternal and fetal livers. Unlike maternally administered tilorone, which induced fetal cytocbrome P-450 and monooxygenase activities in the liver, intrauterine tilorone depressed cytochrome P-450 and had no effect on AP N-demethylase or BP hydroxylase activities in the fetal liver. Intrauterine poly IC was without effect on the cytochrome P-450 systems of the fetal liver. Treatment of pregnant rats with tilorone on days 17–20 of gestation inhibited normal maternal weight gain and produced overt signs of toxicity. A dose of 10 mg/kg of poly IC was very toxic in pregnant rats but produced no overt signs of toxicity in virgin female rats. Time courses of the depressant effects of a single injection of poly IC were observed in mid-term pregnant, late-term pregnant, lactating and adult virgin females. Maximum losses of cytochrome P-450 and ethyhnorphine (EM) N-demethylase activity were seen 48 hr after poly IC administration to pregnant and virgin rats, and recoveries were complete within 96 hr. Similar results were observed in lactating rats except that the nadir occurred at 24 rather than at 48 hr. The response of BP hydroxylase activity to poly IC was qualitatively similar except that this activity was not depressed in the mid-term pregnant rats.