Department of Medical Biology, Cerrahpasa Faculty of Medicine, Istanbul University, Istanbul, Turkey.
Neurol Sci. 2013 Aug;34(8):1453-8. doi: 10.1007/s10072-012-1268-6. Epub 2012 Dec 19.
Vitamin D receptor (VDR) and the enzymes involved in bioactivation of vitamin D, shown to be expressed in the central nervous system, particularly in areas affected by neurodegenerative disorders, especially in hippocampus. We showed that amyloid beta (Aβ) pathology includes VDR protein depletion and vitamin D-VDR pathway disruption either induced by Aβ or by VDR siRNA have very similar effects on cortical neurons. The goal of this study is to show the presence of 25 hydroxy vitamin D3-24 hydroxylase (24OHase) which is essential for vitamin D catabolism in hippocampal and cortical neurons. Additional goal is to compare the expression pattern of VDR and 24OHase both in hippocampal and in cortical neurons and to investigate the effects of VDR suppression in hippocampal neurons in order to see whether similar mechanisms work in hippocampus and cerebral cortex. Primary neuronal cultures were prepared from Sprague-dawley rat embryos. qRT-PCR was performed to determine VDR, 24OHase, and LVSCC-A1C mRNA expression levels. Cytotoxicity levels were determined by ELISA. Our findings illustrate that 24OHase mRNA was present both in hippocampal and in cortical neurons. VDR and 24OHase mRNA were higher in hippocampal neurons than the cortical ones. LVSCC-A1C mRNA levels increased in hippocampal neurons when VDR is down-regulated. Our results indicate that hippocampal neurons response to VDR suppression similar as cortical neurons, regarding calcium channel regulation. Higher gene expression of 24OHase and VDR might indicate "higher requirement of vitamin D" in hippocampus and potential consequences of vitamin D deficiency in cognitive decline, neurodegeneration, and Alzheimer's disease.
维生素 D 受体 (VDR) 和参与维生素 D 生物活化的酶,被证明在中枢神经系统中表达,特别是在受神经退行性疾病影响的区域,尤其是在海马体中。我们表明,淀粉样β (Aβ) 病理学包括 VDR 蛋白耗竭和维生素 D-VDR 途径的破坏,无论是由 Aβ 还是由 VDR siRNA 诱导的,对皮质神经元都有非常相似的影响。本研究的目的是展示 25 羟维生素 D3-24 羟化酶 (24OHase) 的存在,它是维生素 D 代谢所必需的。另一个目的是比较 VDR 和 24OHase 在海马体和皮质神经元中的表达模式,并研究 VDR 抑制对海马体神经元的影响,以观察类似的机制是否在海马体和大脑皮层中起作用。原代神经元培养物从 Sprague-dawley 大鼠胚胎中制备。进行 qRT-PCR 以确定 VDR、24OHase 和 LVSCC-A1C mRNA 的表达水平。通过 ELISA 测定细胞毒性水平。我们的发现表明,24OHase mRNA 存在于海马体和皮质神经元中。VDR 和 24OHase mRNA 在海马体神经元中的表达高于皮质神经元。当 VDR 下调时,LVSCC-A1C mRNA 水平在海马体神经元中增加。我们的结果表明,海马体神经元对 VDR 抑制的反应与皮质神经元相似,涉及钙通道调节。24OHase 和 VDR 的基因表达较高可能表明海马体“对维生素 D 的更高需求”,以及维生素 D 缺乏在认知能力下降、神经退行性变和阿尔茨海默病中的潜在后果。
