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胶质细胞源性神经营养因子介导的神经元-神经胶质网络中的细胞内神经保护机制。

Intracellular Neuroprotective Mechanisms in Neuron-Glial Networks Mediated by Glial Cell Line-Derived Neurotrophic Factor.

机构信息

Lobachevsky State University of Nizhni Novgorod, 23 Prospekt Gagarina, Nizhny Novgorod 603950, Russia.

Privolzhskiy Research Medical University, 10/1 Minin and Pozharsky Square, Nizhny Novgorod 603005, Russia.

出版信息

Oxid Med Cell Longev. 2019 Nov 18;2019:1036907. doi: 10.1155/2019/1036907. eCollection 2019.

DOI:10.1155/2019/1036907
PMID:31827666
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6885812/
Abstract

Glial cell line-derived neurotrophic factor (GDNF) has a pronounced neuroprotective effect in various nervous system pathologies, including ischaemic brain damage and neurodegenerative diseases. In this work, we studied the effect of GDNF on the ultrastructure and functional activity of neuron-glial networks during acute hypoxic exposure, a key damaging factor in numerous brain pathologies. We analysed the molecular mechanisms most likely involved in the positive effects of GDNF. Hypoxia modelling was performed on day 14 of culturing primary hippocampal cells obtained from mouse embryos (E18). GDNF (1 ng/ml) was added to the culture medium 20 min before oxygen deprivation. Acute hypoxia-induced irreversible changes in the ultrastructure of neurons and astrocytes led to the loss of functional Сa activity and neural network disruption. Destructive changes in the mitochondrial apparatus and its functional activity characterized by an increase in the basal oxygen consumption rate and respiratory chain complex II activity during decreased stimulated respiration intensity were observed 24 hours after hypoxic injury. At a concentration of 1 ng/ml, GDNF maintained the functional metabolic network activity in primary hippocampal cultures and preserved the structure of the synaptic apparatus and number of mature chemical synapses, confirming its neuroprotective effect. GDNF maintained the normal structure of mitochondria in neuronal outgrowth but not in the soma. Analysis of the possible GDNF mechanism revealed that RET kinase, a component of the receptor complex, and the PI3K/Akt pathway are crucial for the neuroprotective effect of GDNF. The current study also revealed the role of GDNF in the regulation of HIF-1 transcription factor expression under hypoxic conditions.

摘要

胶质细胞源性神经营养因子(GDNF)在多种神经系统疾病中具有显著的神经保护作用,包括缺血性脑损伤和神经退行性疾病。在这项工作中,我们研究了 GDNF 在急性缺氧暴露期间对神经元-神经胶质网络的超微结构和功能活性的影响,急性缺氧暴露是许多大脑疾病的关键损伤因素。我们分析了 GDNF 产生积极影响的最可能涉及的分子机制。在培养的来自 E18 期胚胎的原代海马细胞培养的第 14 天进行缺氧模型构建。在缺氧前 20 分钟向培养基中添加 GDNF(1ng/ml)。急性缺氧诱导神经元和星形胶质细胞超微结构的不可逆变化导致功能 Ca 活性丧失和神经网络破坏。在缺氧损伤后 24 小时观察到线粒体装置及其功能活性的破坏性变化,其特征是基础耗氧量增加和呼吸链复合物 II 活性增加,同时刺激呼吸强度降低。在 1ng/ml 的浓度下,GDNF 维持原代海马培养物的功能代谢网络活性,并保持突触装置的结构和成熟化学突触的数量,证实了其神经保护作用。GDNF 维持神经元突起中线粒体的正常结构,但不维持胞体中的线粒体正常结构。对可能的 GDNF 机制的分析表明,RET 激酶,即受体复合物的一个组成部分,和 PI3K/Akt 通路对 GDNF 的神经保护作用至关重要。本研究还揭示了 GDNF 在缺氧条件下调节 HIF-1 转录因子表达中的作用。

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