Compounds derived from glucocorticoids, 21-aminosteroids, were reported to inhibit in vitro lipid peroxidation in CNS tissue. In order to evaluate the possible scavenging and/or iron chelating activities in vivo of the 21-aminosteroid U74500A (pregna-1,4,9(11)-triene-3,20-dione, 21-(4-(5,6-bisdiethylamino)-2-pyridinyl)-1-piperazinyl)-16-methyl- , HCl (16 alpha)), the drug was administered for seven days to rats. These rats had been induced by iron-saccharate complex injection a slow process of lipid peroxidation into their right brain hemicortex. The drug was injected also to intact rats (normal rats). Seven days after the operation the extent of iron-induced lipid peroxidation in both the hemicortices and the effect of the drug, were assessed by the evaluation of lipid-soluble fluorescence and of conjugated diene formation. The assessment was performed both in vehicle (control) and in U74500A-treated rats. In the iron-injected rat groups the drug induced a significant dose-related reduction of fluorescence values. Formation of conjugated dienes showed a significant decrease when U74500A (48 mg/kg every 48 hr) was administered to cortico-cerebrally iron-injected animals. The lipid peroxidation of cortices in normal rats was evaluated as thiobarbituric acid reactant substances in both the drug-treated and the control animals. In normal rats, U74500A (48 mg/kg every 48 hr) caused a significant decrease of TBARS values, as compared to those observed in the control group. The iron content in the iron-injected hemicortices, which was evaluated by the ferrozine method, was not modified by drug treatment. U74500A appears to have in vivo antioxidant properties and not to affect the iron content in the neural tissue. An interaction of this drug with the metal, however, cannot be excluded.