Abstract
The present study was aimed to evaluate the protective effect of hesperidin against immobilization-stress-induced alterations in biochemical, behavioral, and mitochondrial functions in mice. In many instances neuroscientists have reported that acute immobilization stress for 6 h resulted in anxiety and impaired locomotor activity due to excess oxidative-nitrergic stress, depletion of antioxidant defense mechanisms, and mitochondrial dysfunction in animals. In the present study, 6 h of acute immobilization stress had significantly altered the behavioral (anxiety and memory) and biochemical parameters coupled with mitochondrial dysfunction in Swiss albino mice. Fourteen days of pretreatment with Hesperidin (50 and 100 mg/kg, p.o.) significantly and dose-dependently inhibited the behavioral and biochemical alterations and mitochondrial dysfunction caused by acute immobilization stress. Furthermore, pre-treatment of l-arginine (50 mg/kg, i.p.), a nitric oxide precursor, reversed the protective effect of Hesperidin (50 and 100 mg/kg) (P < 0.05). In contrast, pretreatment of l-NAME (5 mg/kg, i.p.), a nitric oxide synthase inhibitor, potentiated the protective effect of Hesperidin (P < 0.05). These results suggest the possible involvement of nitrergic pathway in the protective effect Hesperidin against immobilization-stress-induced behavioral, biochemical, and mitochondrial dysfunction in mice.
Highlights
Stress is a very crucial factor in the maintenance of health and disease [1]
The 6 h acute immobilization stress has significantly reduced the locomotor activity and induced anxiety-like behaviors as compared to the unstressed group (P < 0.05) (Figures 2, 3, 4, 5, and 6)
Fourteen days of Hesperidin (50 and 100 mg/kg) (P < 0.05 and P < 0.01) pretreatment had significantly inhibited the anxietylike behavior and improved locomotor activity as compared to control animals
Summary
Stress induces changes in emotional behavior and anxiety like state, which are associated with oxidative damage, that is, free radical damage [2, 3]. Acute immobilization stress triggers numerous cellular cascades that lead to increase in ROS production [4]. Because of the brain high oxygen consumption, abundant lipid content, and relative paucity of antioxidant enzymes, the central nervous system is highly vulnerable to free radical damage [5]. Immobilization stress has been reported to induce 2-3-fold higher rise of plasma cortisol level; increased cortisol level has been linked with anxiety-like behavior [6, 7]. It is been reported that stress triggers the motor alteration in different animal models and central nucleus of amygdala is important in modulating affective response to stress [8,9,10]
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