The ability of Cd to induce the synthesis of fetal hepatic metallothionein (MT) was investigated in rat fetuses exposed to Cd throughout gestation via the mother's drinking water or injected directly with Cd through the uterine wall on Day 18 of gestation. On Day 21 all dams were killed and fetal and maternal tissues were removed. Tissue MT, Zn, Cu, and Cd concentrations were measured. Fetal hepatic Cd concentration was increased only at the high maternal Cd exposure, whereas Zn concentration was significantly reduced by Cd exposure. Both fetal liver and kidney MT were reduced following maternal Cd exposure. Unlike maternal hepatic MT, fetal hepatic MT was not increased after maternal Cd exposure nor did the direct injection of Cd into the 18 days of gestation fetus induce fetal MT synthesis. These data suggest that fetal rat liver is incapable of synthesizing MT in response to Cd, possibly because Cd is not transported to the site of MT synthesis in the fetal system. Furthermore, neither the route of exposure, the duration of prenatal Cd exposure, nor the stage of gestation appear to account for the differences observed between fetal and adult hepatic MT induction by Cd.