Ethyl docosahexaenoate-associated decrease in fetal brain lipid peroxide production is mediated by activation of prostanoid and nitric oxide pathways

Abstract

Previously we have shown that intraamniotic administration of ethyl docosahexaenoate (Et-DHA) to pregnant rats resulted in decreased lipid peroxidation in the fetal brain, under a variety of conditions (S. Glozman, P. Green, E. Yavin, J. Neurochem. 70 (1998) 2482–2491). In the present study we examine the potential mechanisms to explain this effect. This was done by a pharmacological approach, utilizing brain slice preparations from Et-DHA treated or control rats in the presence of various agents and examining the formation of products in the tissue slices or incubation medium. Et-DHA treated brains produced 2–3-fold more prostanoids (PN) than control brains, indicating cyclooxygenase (COX) activation. Indomethacin at 50 μM inhibited PN formation and also abolished Et-DHA induced decrease in lipid peroxides, as evident by the levels of thiobarbituric acid reactive substances (TBARS) released in the medium. The phospholipase A 2 inhibitors quinacrine and p-bromophenacyl bromide added at 0.1 mM concentration each to either slices from controls or Et-DHA treated fetal brains, decreased TBARS production. Et-DHA treated brains released 2.2-fold more nitric oxide (NO) than control brains and NO synthase (NOS) inhibitors abolished this effect. Increasing the concentration of NO by the addition of an NO donor greatly decreased the concentration of the TBARS in the medium. These results suggest that at least some of the effect of Et-DHA on decreased lipid peroxidation may be explained by a shift of oxygen species utilization via enzymatically regulated, therefore metabolically controlled, COX and NOS activities.