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缺血或 PKCε预处理后 BDNF 蛋白表达增加,促进导致神经保护的电生理变化。

Increased BDNF protein expression after ischemic or PKC epsilon preconditioning promotes electrophysiologic changes that lead to neuroprotection.

机构信息

1] Cerebral Vascular Disease Research Laboratories, University of Miami Leonard M. Miller School of Medicine, Miami, Florida, USA [2] Evelyn F. McKnight Brain Institute, University of Miami Leonard M. Miller School of Medicine, Miami, Florida, USA [3] Department of Neurology, University of Miami Leonard M. Miller School of Medicine, Miami, Florida, USA.

1] Cerebral Vascular Disease Research Laboratories, University of Miami Leonard M. Miller School of Medicine, Miami, Florida, USA [2] Department of Neurology, University of Miami Leonard M. Miller School of Medicine, Miami, Florida, USA.

出版信息

J Cereb Blood Flow Metab. 2015 Jan;35(1):121-30. doi: 10.1038/jcbfm.2014.185. Epub 2014 Nov 5.

DOI:10.1038/jcbfm.2014.185
PMID:25370861
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4294405/
Abstract

Ischemic preconditioning (IPC) via protein kinase C epsilon (PKCɛ) activation induces neuroprotection against lethal ischemia. Brain-derived neurotrophic factor (BDNF) is a pro-survival signaling molecule that modulates synaptic plasticity and neurogenesis. Interestingly, BDNF mRNA expression increases after IPC. In this study, we investigated whether IPC or pharmacological preconditioning (PKCɛ activation) promoted BDNF-induced neuroprotection, if neuroprotection by IPC or PKCɛ activation altered neuronal excitability, and whether these changes were BDNF-mediated. We used both in vitro (hippocampal organotypic cultures and cortical neuronal-glial cocultures) and in vivo (acute hippocampal slices 48 hours after preconditioning) models of IPC or PKCɛ activation. BDNF protein expression increased 24 to 48 hours after preconditioning, where inhibition of the BDNF Trk receptors abolished neuroprotection against oxygen and glucose deprivation (OGD) in vitro. In addition, there was a significant decrease in neuronal firing frequency and increase in threshold potential 48 hours after preconditioning in vivo, where this threshold modulation was dependent on BDNF activation of Trk receptors in excitatory cortical neurons. In addition, 48 hours after PKCɛ activation in vivo, the onset of anoxic depolarization during OGD was significantly delayed in hippocampal slices. Overall, these results suggest that after IPC or PKCɛ activation, there are BDNF-dependent electrophysiologic modifications that lead to neuroprotection.

摘要

缺血预处理(IPC)通过蛋白激酶 C ɛ(PKCɛ)的激活诱导对致死性缺血的神经保护。脑源性神经营养因子(BDNF)是一种促生存的信号分子,调节突触可塑性和神经发生。有趣的是,IPC 后 BDNFmRNA 的表达增加。在这项研究中,我们研究了 IPC 或药物预处理(PKCɛ 激活)是否促进了 BDNF 诱导的神经保护作用,IPC 或 PKCɛ 激活的神经保护作用是否改变了神经元的兴奋性,以及这些变化是否是 BDNF 介导的。我们使用了体外(海马器官培养物和皮质神经元-神经胶质共培养物)和体内(预处理后 48 小时的急性海马切片)IPC 或 PKCɛ 激活模型。BDNF 蛋白表达在预处理后 24 至 48 小时增加,其中 BDNF Trk 受体的抑制消除了体外氧和葡萄糖剥夺(OGD)对神经的保护作用。此外,体内预处理后 48 小时,神经元放电频率显著降低,阈电位升高,而这种阈调制依赖于兴奋性皮质神经元中 BDNF 对 Trk 受体的激活。此外,体内 PKCɛ 激活后 48 小时,OGD 期间缺氧去极化的开始显著延迟。总的来说,这些结果表明,IPC 或 PKCɛ 激活后,存在 BDNF 依赖性的电生理改变,导致神经保护。

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