D-penicillamine affects lipid peroxidation and iron content in the rat brain cortex

Abstract

D-Penicillamine, a trifunctional amino acid known for its ability to form metal complexes and for being a radical scavenger, has been investigated "in vitro" and "in vivo" in the rat brain cortex. At 50 microM the drug facilitated lipid hydroperoxides and TBARS formation in brain cortex homogenates, while at higher concentrations a clear inhibition of the lipid peroxidative process was observed. The activity of the D-penicillamine (25 and 50 mg/Kg i.p.) was evaluated "in vivo" after a 7-day treatment in rats in whose brain cortex a slow process of lipid peroxidation was induced by iron-saccharate injection. Lipid hydroperoxides, lipid soluble fluorescent compounds and the iron content of both iron-injected and contralateral hemicortices showed a significant decrease in comparison to rats untreated with D-penicillamine. The higher dose also induced in normal rats a significant decrease in basal TBARS and iron content of the brain cortex. In the iron-injected cortex the observed Fe2+/Fe3+ ratio was significantly different from that of normal rats. On the contrary ratios obtained form D-penicillamine treated animals were higher in comparison to both normal and iron-injected animals. These results suggest that D-penicillamine, acting as a reducing agent, inhibits the iron redox system and, as a chelating agent, can remove metal from action sites where lipid peroxidation may occur.