Abstract

Derangements of neuroimmune, neurotrophic and neurochemical homeostasis have important implications in psychosocial stress-induced psychopathologies. Whether quercetin, a neuroactive compound, protects against psychosocial stress-induced psychiatric disturbances particularly via neurochemical mechanisms remain less well elucidated. Therefore, we further investigated the putative neurochemical as well as other cellular mechanisms of quercetin on social-defeat stress (SDS) model of psychosocial impairments. Saline (10 mL/kg,i.p.), quercetin (25, 50 and 100 mg/kg,i.p.) and ginseng (50 mg/kg,i.p.) were given to intruder mice for 14 days. From days 7–14, ten minutes of aggressive-resident-induced SDS (physical and psychological) were conducted thirty minutes after treatments. Subsequently, behavioral assessments: open-field, light/dark board, Y-maze, novel-object recognition, social-interaction and tail-suspension tests were conducted on day 14. Adrenal weight and glucose levels were measured. Monoamines, brain-derived neurotrophic factor (BDNF), corticosterone, inflammatory cytokines (TNF-α, IL-6) and executioner caspase-3 concentrations were determined in specific brain regions by ELISA. Oxidative/nitrergic stress and cholinergic markers were determined with UV-spectrophotometry. Psychosocial stress-induced anxiety, depression and cognitive defects were improved by quercetin. The decreased serotonin in the prefrontal-cortex and dopamine in the striatum, elevated levels of noradrenaline and acetylcholinesterase in the prefrontal-cortex and hippocampus with corresponding decrease in BDNF were reversed by quercetin. Quercetin reduced SDS-induced increased neuronal inflammation, caspase-3 activity, malondialdehyde, nitrite levels, but increased antioxidant activities in the three brain regions. Adrenal hypertrophy, increased serum glucose and corticosterone release were reduced by quercetin. Our findings showed that quercetin attenuates psychosocial stress-induced passive coping behavior via normalization of HPA-axis, modulation of neurochemical release, enhancement of BDNF, and inhibition of brain oxidative/nitrergic stress, neuroinflammation and apoptotic pathway.

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