Prenatal stress may lead to cognitive and behavioral dysfunction in the offspring. Large evidence has shown the deleterious effects of maternal stress on cognitive and behavioral functions of the offs Show more
Prenatal stress may lead to cognitive and behavioral dysfunction in the offspring. Large evidence has shown the deleterious effects of maternal stress on cognitive and behavioral functions of the offspring; however, the effect of paternal stress has not been well documented. In the present study, we aimed to investigate the effect of paternal stress (chronic electrical footshocks, post-traumatic stress disorder or PTSD-like model) on cognitive and behavioral functions, and brain-derived neurotrophic factor (BDNF) hippocampal level in both male and female offspring during adolescence. The father rat (stress-exposed) was exposed to three consecutive shocks in a fear conditioning apparatus for ten times during four weeks, in an uncertain and unpredictable schedule. Saline (0.5 mL) or lithium chloride (50 mg/kg) was intraperitoneally injected to male and female offspring during 21-41 postnatal day (PND). The results showed that paternal stress decreased locomotor activity in female offspring, and increased anxiety-like behavior in both male and female offspring, with more effect on females. Paternal stress also decreased pain subthreshold only in female offspring and impaired passive avoidance and spatial memory in both male and female offspring. Paternal stress also decreased BDNF expression level only in female offspring. However, lithium reversed most of the behavioral dysfunctions in rats' offspring with a history of paternal stress. We concluded that paternal stress significantly impairs cognitive and behavioral function in the offspring during adolescence, with more effect on females. Also, chronic lithium treatment may reverse the deleterious effects of paternal stress. Show less
Schinus molle L. (Anacardiaceae) has been traditionally used for conditions related to the nervous system and emotional well-being, often through aromatic preparations. However, its cognition-specific Show more
Schinus molle L. (Anacardiaceae) has been traditionally used for conditions related to the nervous system and emotional well-being, often through aromatic preparations. However, its cognition-specific effects have not yet been investigated. To assess the cognitive effects of the fruit-derived essential oil of Schinus molle L. (SMEO), administered via oral and inhalation routes, in a rat model of scopolamine-induced amnesia. SMEO was obtained by hydrodistillation and characterised by GC-MS/GC-FID. Amnesic rats received SMEO for 14 days by inhalation (1% or 3%) or oral gavage (100 or 200 mg/kg). Cognition was assessed by Morris water maze (MWM), passive avoidance (PA), and novel object recognition (NOR) tests; locomotion was measured by activity-meter. Hippocampal BDNF and GFAP immunoreactivity were assessed by immunohistochemistry. SMEO was dominated by α-phellandrene (48.7%). Scopolamine impaired cognition, whereas SMEO attenuated deficits with efficacy comparable to piracetam. Key behavioural and immunohistochemical findings (main omnibus statistical effects) were as follows: In the MWM, treatment and time effects on escape latency were significant (both p < 0.001), and probe performance improved (p < 0.001). PA retention was restored (p < 0.001) and the NOR index improved (p < 0.001), without locomotor changes (all p > 0.05). Scopolamine reduced hippocampal BDNF immunoreactivity in CA1 and DG (p < 0.01) and CA3 (p < 0.001), which was restored by SMEO via both routes. GFAP immunoreactivity was reduced in CA1/CA3/DG (all p < 0.001) and was rescued selectively after inhalation. These findings provide preclinical evidence consistent with an ethnopharmacological rationale for SMEO and support further translational work to clarify its relevance beyond this experimental paradigm. Show less