Background: Alzheimer disease is a progressive neurodegenerative disease, affecting a very high proportion of the aging population. Several studies have demonstrated that one of the main contributors to this disease is oxidative stress (OS), which causes peroxidation of protein, lipids, and DNA resulting in the formation of advanced glycosylated end products (AGE) in the brain tissues. These AGE are usually associated with the amyloid β (Aβ), which could further aggravate its toxicity and its clearance. Antioxidants counteract the deterioration caused by OS. Objective: We aimed to evaluate the effect of vitamin D3 and curcumin on primary cortical neuronal cultures exposed to Aβ1-42 toxicity for different time periods. Methods: Primary cortical neuronal cultures were set up and exposed to Aβ1-42 for up to 72 hours. Cell viability was studied by 3[4,5-dimethylthiazole-2-yl]-2,5-dipheyltetrazolium bromide (MTT) and lactate dehydrogenase (LDH) assay. Biochemical assays for OS such as lipid peroxidation, reduced Glutathione(GSH), Glutathione S-transferase (GST), catalase, and superoxide dismutase (SOD) were conducted. Sandwich enzyme-linked immunosorbent assay (ELISA) was used to study the neurotrophic growth factor (NGF) expression. Results: Treatments with Aβ1-42 caused an elevation in lipid peroxidation products, which were ameliorated in the presence of vitamin D3 and curcumin. Both enzymatic (GST, catalase, and SOD) and nonenzymatic antioxidants (reduced GSH) were raised significantly in the presence of vitamin D3 and curcumin, which resulted in the better recovery of neuronal cells from Aβ1-42 treatment. Treatment with vitamin D3 and curcumin also resulted in the upregulation of NGF levels. Conclusions: This study suggests that vitamin D3 and curcumin can be a promising natural therapy for the treatment of Alzheimer disease.
BACKGROUND: In addition to calcium and phosphate homeostasis in peripheral tissues; vitamin D performs a neuroprotection role in the nervous system. The neuroprotective actions of vitamin D include: increasing vitamin D receptor (VDR) expression, control glutathione synthesis and nitric oxide synthase activity and induce neurotrophins such as nerve growth factor (NGF). VDR mediates cellular actions, and biological responses of the vitamin D. OBJECTIVE: To study the effect of VDR and NGF expression levels by vitamin D3 treatment in induced oxidative stress in primary cortical neuronal cultures. METHOD: Primary neuronal cultures were set up from the cortex region of neonatal rat’s brain. They were cultured for up to 72 h in the presence of 0.25μg/ml vitamin D3. These cells were exposed to 0.5 mM H2O2 for two hours before collecting cell pellet and medium for biochemical assays. Control and H2O2 treated cells were cultured in the absence of vitamin D3 treatment. Sandwich ELISA was used to study NGF expression. Western blotting and Immunofluorescence of cultured cells were used to estimate the expression of VDR. RESULTS: Vitamin D3 treatment increased more significantly (P < 0.001) NGF levels with and without induced oxidative stress. Protein expression studies confirmed the positive correlation between VDR expression and vitamin D3 treatment after 72 h in culture. Moreover, pre-treating the cells with vitamin D3 before H2O2 exposure significantly increase (P < 0.05) VDR expression in comparison with the cells exposed to H2O2 alone. CONCLUSION: The neuroprotective effect of vitamin D3 against oxidative stress could be through up-regulating VDR and NGF levels.
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