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    Anti-apoptotic effects of valproic acid treatment on dopaminergic neuronal loss in a 6-hydroxydopamine model of parkinson’s disease in rats
    (2022) Cumbul, Alev; Genç, Ece; Keleş, Çiğdem Elif; Uslu, Ünal; Eyüboğlu, Siğnem
    Aim: Parkinson’s disease (PD) is characterized by the progressive loss of dopaminergic neurons resulting in deterioration of motor activity in patients. Currently, available therapies including Levodopa (L-DOPA) are more geared toward the treatment of symptoms. Therefore, developing effective neuroprotective therapies is needed. Valproic acid (VPA) has shown potent neuroprotective effects on dopamine (DA) neurons in various brain regions. The aim of this study is to investigate whether VPA attenuates the neuronal loss when co-treated with L-DOPA in a 6-hydroxydopamine (6-OHDA) induced PD model in rats. Methods: Male Wistar Albino rats received intranigral injection of 6-OHDA unilaterally. Twelve days later rats received either saline, L-DOPA, VPA, or L-DOPA+ VPA for 9 days. To determine whether rats had dopaminergic neuronal loss apomorphine-induced rotation test was used. Immunohistochemical analyses were performed in the Substantia Nigra pars compacta (SNpc) by measuring the tyrosine hydroxylase (TH) positive neurons and the apoptotic neurons. Results: 6-OHDA injection showed clinically impairment of the motor function with histologically significant damage to the dopaminergic neurons. VPA administration combined with L- DOPA protected neurons in SNpc by increasing the TH positive neurons and by decreasing the apoptotic neurons. L-DOPA given as a monotherapy, on the other hand, was ineffective on these parameters. Conclusion: Our experiments demonstrated that VPA had a neuroprotective effect when used with L-DOPA in the PD rat model.
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    Effects of Melatonin and Memantine Administration on The Learning and Memory Performances of Hypoxic Juvenile Rat Pups
    (YERKURE TANITIM & YAYINCILIK HIZMETLERI A S, 2020) Elibol, Birsen; Şahbaz, Çiğdem; Eyüboğlu, Siğnem; Çevreli, Burcu; Kılıç, Ulkan; Kılıç, Ertuğrul
    Objective: Herein, we aimed to investigate the long-term effects of neonatal hypoxia and the potential protective role of melatonin and memantine on the learning and memory. Methods: Seven-day-old rat underwent right carotid ligation, followed by hypoxia. Rat received Melatonin (MLT) (4 mg/kg), Memantine (MEM) (20 mg/kg), and MLT+MEM combination after hypoxia. We tested these rats for anxiety by elevated O-maze and for spatial learning and memory by Morris water maze (MWM) at postnatal day 45. Results: Hypoxia increased the level of anxiety compared to the control group (p=0.05) while treatment of MLT, MEM, and MLT+MEM ameliorated this effect. In addition, hypoxia produced significant decrease in spatial learning of the rats on the fourth day of training (P=0.05) and the percent time spent in the platform quadrant and the entrance frequencies to the platform quadrant compared to the control group (P=0.049 and P=0.023). Treatment of MLT, MEM, and MLT+MEM after hypoxia improved the performance of the rats at the third (P=0.686, P=0.876, P=0.977, respectively) and fourth day (P=0.738, P=0.553, P=0.789, respectively) of MWM training. The decrease in the percent time spent was ameliorated by the treatment of MLT (P=0.239), MEM (P=0.289), and MLT+MEM (P=0.567) compared to the control group. In addition, MLT treatment significantly increased the entrance frequency to the platform quadrant compared to the hypoxia group (P=0.020). Conclusion: Our data suggested that the MLT was more effective in the release of memory deficits from hypoxia-related damage. MLT might have a therapeutic value in improving hypoxic damage in the developing brain.