Lipid peroxide formation in rat brain.

Abstract

Abstract— Lipid peroxide formation as measured by the thiobarbituric acid reaction was demonstrated in subcellular fractions of rat brain. The ascorbic acid induced nonenzymic lipid peroxidation was distributed in all the subcellular fractions with a maximum in microsomes. The NADPH dependent enzymic lipid peroxidation occurred mainly in microsomes and to a smaller extent in synaptosomes; NADH could replace NADPH for the enzymic lipid peroxidation under the assay conditions employed. Fe2+ but not Fe3+ stimulated the NADPH or NADH dependent lipid peroxide formation. The optimum conditions with respect to pH, ascorbic acid or NADPH concentration, time of incubation and protein concentration were studied. Heating the microsomes at 100oCdid not influence the ascorbate‐induced lipid peroxidation but completely abolished the NADPH linked peroxidation. Several heavy metal ions, surface active agents and EDTA were inhibitory to lipid peroxidation. The effect of thiol agents indicated that ‐SH groups were involved in the enzymic lipid peroxidation. Studies on subcellular fractions of developing rat brain showed an increasing trend in lipid peroxidation with the advancing age of the animal. No significant difference in lipid peroxidation was observed between brains from normal rats and those from rats affected by experimental allergic encephalomyelitis.