Docosahexaenoic acid (C22:6, n-3), a major n-3 fatty acid of the brain, has been implicated in restoration and enhancement of memory-related functions. Because Alzheimer's disease impairs memory, and infusion of amyloid-b (Ab) peptide (1-40) into the rat cerebral ventricle reduces learning ability, we investigated the effect of dietary pre-administration of docosahexaenoic acid on avoidance learning ability in Ab peptide-produced Alzheimer's disease model rats. After a mini-osmotic pump filled with Ab peptide or vehicle was implanted in docosahexaenoic acid-fed and control rats, they were subjected to an active avoidance task in a shuttle avoidance system apparatus. Pre-administration of docosahexaenoic acid had a profoundly beneficial effect on the decline in avoidance learning ability in the Alzheimer's disease model rats, associated with an increase in the cortico-hippocampal docosahexaenoic acid/arachidonic acid molar ratio, and a decrease in neuronal apoptotic products. Docosahexaenoic acid pre-administration furthermore increased cortico-hippocampal reduced glutathione levels and glutathione reductase activity, and suppressed the increase in lipid peroxide and reactive oxygen species levels in the cerebral cortex and hippocampus of the Alzheimer's disease model rats, suggesting an increase in antioxidative defence. Docosahexaenoic acid is thus a possible prophylactic means for preventing the learning deficiencies of Alzheimer's disease.
Twenty 5-week-old male Wistar rats were divided into two groups: one group was fed a fish oil-deficient diet and the other group was fed the same diet supplemented with per orally administered docosahexaenoic acid (DHA) for 12 weeks. Six weeks after the start of the administration of DHA, rats were trained for 6 weeks to acquire a reward at the end of each of four arms of an eight-arm radial maze. On completion of the radial maze task, the Fos expression in the hippocampus was examined immunohistochemically. Chronic DHA administration significantly reduced the number of reference and working memory errors. The number of Fos-positive neurons in the CA1 hippocampus significantly increased in DHA-treated rats compared with control rats, demonstrating a statistically significant negative correlation with the number of reference memory errors. These results suggest that the DHA-induced improvement in spatial cognition is associated with increased Fos expression in the CA1 hippocampus.
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