The beneficial effects of vortioxetine on BDNF, CREB, S100B, ß amyloid, and glutamate NR2b receptors in chronic unpredictable mild stress model of depression.

BACKGROUND: Depression, one of the most significant mental disorders, is still poorly understood in terms of its pathogenetic mechanisms despite its well-recognized association with stress. OBJECTIVES: The current study's goal was to ascertain how the novel antidepressant drug vortioxetine (VOR) affected the BDNF (brain-derived neurotrophic factor), S100, amyloid ß (Aß), CREB (cAMP response element-binding protein), and NR2B, as well as its impact on depression-like behaviors, and tissue damage in an experimental rodent model of depression caused by chronic unpredictable stress. METHODS: We employed twenty-eight Wistar albino male rats, and we randomly divided them into four groups, each consisting of 7 rats: control, CUMS (chronic unpredictable mild stress), CUMS+vortioxetine (CUMS+VOR), and CUMS+fluoxetine (CUMS+FLU). Sucrose preference and forced swimming tests (SPT and FST, respectively), PCR, ELISA, and histopathological and immunohistochemical evaluation were made on brains. RESULTS: The behaviors of reduced immobility in the FST and increased sucrose preference were observed in the CUMS group and they improved in the groups treated with VOR and FLU. Compared with the control group, the group exposed to CUMS showed increased Aß and decreased BDNF, CREB, and S-100 expressions, as well as neuronal degeneration (p<0.001). VOR and FLU treatment ameliorate the findings. CONCLUSIONS: This study demonstrated significant ameliorative effects of VOR in an experimental model of chronic unpredictable depression to reduce brain tissue damage and depression-like behaviors in rats. Effects of CUMS on the brain and possible effects of VOR.

Hypothalamic NR3C1 DNA methylation in rats exposed to prenatal stress.

BACKGROUND: Human and animal studies have indicated that maternal prenatal stress (PS) has molecular and behavioral effects during pregnancy and early life. The present study aimed to evaluate the epigenetic changes of the NR3C1 gene involved in the HPA axis in the hypothalamic tissues of rats exposed to PS induced by chronic unpredictable mild stress (CUMS). Behavioral and molecular effects of these changes on the next generation were also assessed. METHODS AND RESULTS: CUMS protocol was used to generate stress in pregnant Wistar rats. To determine the effects of stress on anhedonia and movement, sucrose preference test, forced swimming test, and open field test were performed. Following these behavioral experiments, bisulfite sequencing PCR for DNA methylation levels of the NR3C1 gene, RT-qPCR for mRNA levels, and Western blot techniques for protein analysis were used in the hypothalamic tissue of sacrificed rats. Depression-like behaviors were evident in the behavioral tests of stress-exposed mothers and pups. In PS-exposed pups, hypothalamic NR3C1 promoter methylation was higher, and NR3C1 mRNA levels and NR3C1 protein levels were lower compared with controls, regardless of sex. CONCLUSION: Our results confirm the relationship between PS and epigenetic changes of HPA axis-related genes and show that NR3C1 gene methylation status in pups is sensitive to PS during pregnancy. Environmental maternal stress may have transgenerational effects that are potentially associated with adverse outcomes in the pups.

Agomelatine reduces brain, kidney and liver oxidative stress but increases plasma cytokine production in the rats with chronic mild stress-induced depression.

Agomelatine (AGOM) as an antidepressant acts both as a melatonin-receptor agonist and a selective serotonin-receptor antagonist. As a potent melatonin derived antioxidant, AGOM might modulate depression-induced lipid peroxidation and pro-inflammatory cytokines in brain, kidney and liver. The present study explores whether AGOM protects against experimental depression-induced brain, kidney and liver oxidative stress, and plasma cytokine production in rats with chronic mild stress (CMS)-induced depression. Thirty-six rats were divided into four groups. The first group was used as an untreated control. The second group received AGOM for 4 weeks. The third group was exposed to chronic mild stress (CMS) of 4 weeks for induction depression. The fourth group received 40 mg/kg AGOM and CMS for 4 weeks. Liver and kidney lipid peroxidation levels were high in the CMS group although they were low in AGOM treatments. AGOM and AGOM + CMS treatments increased the lowered glutathione peroxidase activity and reduced glutathione levels in brain, kidney and liver of CMS group. ß-carotene, vitamin A and vitamin E concentrations in the brain, kidney and liver of the four groups were not changed by CMS and AGOM treatments. However, plasma TNF-α, interleukin (IL)-1ß, and IL-4 levels were high in the CMS and AGOM group and their levels were further increased by the AGOM + CMS treatment. In conclusions, AGOM induced protective effects against experimental depression-induced brain, kidney, and liver oxidative injuries through regulation of the glutathione concentrations and glutathione peroxidase activity. However, plasma cytokine productions were increased by the AGOM treatment.