Abstract
BackgroundDepression is one of the most common mental illnesses worldwide. Nitric oxide (NO) is involved in the pathophysiology of depression. Auraptene (a coumarin derivative) has been shown to possess pharmacological effects on neurological diseases.PurposeThe present study aimed to investigate the possible role of the NO pathway in Auraptene antidepressant effects in male mice.MethodsBehavioral tests were used to assess depression-like behaviors. The mice received Auraptene at 10, 30, and 100 mg/kg, the combination of the sub-effective (ineffective) dose of Auraptene (10 mg/kg) and L-NAME, and the combination of the effective dose of Auraptene (30 mg/kg) and L-arginine. Finally, OFT, TST, FST, brain, serum MDA level, antioxidant capacity, hippocampus, and serum NO level were measured.ResultsThe data analysis showed that Auraptene (30 mg/kg) improved depression-like behaviors. Auraptene (30 mg/kg) also significantly reduced serum NO levels (P < 0.05) and significantly increased serum MDA (10 mg/kg, P < 0.05). Auraptene at 30 mg/kg also increased serum antioxidant capacity (P < 0.01). Co-administration of L-NAME and the sub-effective dose of Auraptene enhanced the effects of Auraptene. However, co-administration of the effective dose of Auraptene and L-arginine reduced the impacts of Auraptene.ConclusionsThe results showed that Auraptene causes antidepressant effects in a dose-dependent manner and acts as a prooxidant at 100 mg/kg, and exacerbates oxidative stress. The antidepressant effects of this active molecule are exerted by reducing the NO level in the hippocampus and serum, increasing the antioxidant capacity, and reducing the MDA level in the serum.
Highlights
Depression is one of the most common psychiatric diseases with a prevalence of 15-25% and can cause a significant decline in patient performance in all occupational areas and social and family relationships [1]
The results showed that Auraptene causes antidepressant effects in a dose-dependent manner and acts as a prooxidant at 100 mg/kg, and exacerbates oxidative stress
The antidepressant effects of this active molecule are exerted by reducing the Nitric oxide (NO) level in the hippocampus and serum, increasing the antioxidant capacity, and reduc‐ ing the MDA level in the serum
Summary
Depression is one of the most common psychiatric diseases with a prevalence of 15-25% and can cause a significant decline in patient performance in all occupational areas and social and family relationships [1]. Oxidative stress is an influential factor for various central nervous system disorders and can accelerate the aging process and lead to behaviors related to depression and anxiety. The production of free radicals exceeds the capacity of the body’s antioxidant defense system, including enzymatic. Free radicals cause cell damage and death by attacking various components, including nucleic acids, proteins, enzymes, and cell membrane lipids [3]. Serum malondialdehyde (MDA) level is one of the markers of lipid peroxidation and the critical indicator to evaluate oxidative stress. It has been explained that the total antioxidant capacity of serum is significantly reduced in people with major depressive disorder [4]. Auraptene (a coumarin derivative) has been shown to possess pharmacological effects on neurological diseases. Purpose: The present study aimed to investigate the possible role of the NO pathway in Auraptene antidepressant effects in male mice
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