Anxiolytic and antioxidant effects of Euterpe oleracea Mart. (açaí) seed extract in adult rat offspring submitted to periodic maternal separation.

Many studies suggest a protective role of phenolic compounds in mood disorders. We aimed to assess the effect of Euterpe oleracea (açaí) seed extract (ASE) on anxiety induced by periodic maternal separation (PMS) in adult male rats. Animals were divided into 6 groups: control, ASE, fluoxetine (FLU), PMS, PMS+ASE, and PMS+FLU. For PMS, pups were separated daily from the dam for 3 h between postnatal day (PN) 2 and PN21. ASE (200 mg·kg-1·day-1) and FLU (10 mg·kg-1·day-1) were administered by gavage for 34 days after stress induction, starting at PN76. At PN106 and PN108, the rats were submitted to open field (OF) and forced swim tests, respectively. At PN110, the rats were sacrificed by decapitation. ASE increased time spent in the center area in the OF test, glucocorticoid receptors in the hypothalamus, tropomyosin receptor kinase B (TRKB) levels in the hippocampus, and nitrite levels and antioxidant activity in the brain stem (PMS+ASE group compared with PMS group). ASE also reduced plasma corticotropin-releasing hormone levels, adrenal norepinephrine levels, and oxidative damage in the brain stem in adult male offspring submitted to PMS. In conclusion, ASE treatment has an anti-anxiety effect in rats submitted to PMS by reducing hypothalamic-pituitary-adrenal axis reactivity and increasing the nitric oxide (NO)-brain-derived neurotrophic factor (BDNF)-TRKB pathway and antioxidant defense in the central nervous system. Novelty ASE has anti-anxiety and antioxidant effects in early-life stress. ASE reduces hypothalamic-pituitary-adrenal axis reactivity. The anxiolytic effect of ASE may involve activation of the NO-BDNF-TRKB pathway in the central nervous system.

Exposure to tobacco smoke containing either high or low levels of nicotine during adolescence: differential effects on choline uptake in the cerebral cortex and hippocampus.

INTRODUCTION: There is a lack of experimental studies that investigate the effects of tobacco smoke exposure during adolescence. Here, we investigated the effects of tobacco smoke generated from cigarettes containing either high or low levels of nicotine on the cholinergic system. METHODS: From postnatal day (PN) 30 to 45, 18 C57BL/6 (inbred) and 16 Swiss (outbred) mice of both sexes were exposed to tobacco smoke (whole body exposure for 8 hr/day and 7 days/week) generated from one of two reference research cigarettes: type 3R4F (HighNIC group-nicotine = 0.73 mg/cigarette) or type 4A1 (LowNIC group-nicotine = 0.14 mg/cigarette). Control mice (CT) were exposed to air. On PN 45, cotinine (nicotine metabolite) serum levels and [(3)H]choline uptake in the cerebral cortex and hippocampus were assessed. RESULTS: Cotinine serum levels were eight times higher in HighNIC mice (C57BL/6:142.0 +/- 16.7 ng/ml and Swiss: 197.6 +/- 11.1 ng/ml) when compared with LowNIC ones (C57BL/6:17.4 +/- 7.4 ng/ml and Swiss: 24.6 +/- 2.2 ng/ml). Only HighNIC mice presented a significant increase in [(3)H]choline uptake in the hippocampus (C57BL/6: HighNIC > CT and HighNIC > LowNIC, p < .001 and Swiss: HighNIC > CT and HighNIC > LowNIC, p < .001), whereas in the cerebral cortex, both HighNIC and LowNIC mice presented increased [(3)H]choline uptake (C57BL/6: HighNIC > CT and LowNIC > CT, p < .05 and Swiss: HighNIC > CT and LowNIC > CT, p < .001). DISCUSSION: Our results indicate that tobacco smoke exposure during adolescence increases [(3)H]choline uptake. However, the effects are dependent on the type of cigarette and on the brain region.