神经元糖原缺乏会损害小鼠的记忆形成和学习依赖性突触可塑性。

Lack of Neuronal Glycogen Impairs Memory Formation and Learning-Dependent Synaptic Plasticity in Mice.

作者信息

Duran Jordi, Gruart Agnès, Varea Olga, López-Soldado Iliana, Delgado-García José M, Guinovart Joan J

机构信息

Institute for Research in Biomedicine (IRB Barcelona), The Barcelona Institute of Science and Technology, Barcelona, Spain.

Centro de Investigación Biomédica en Red de Diabetes y Enfermedades Metabólicas Asociadas (CIBERDEM), Madrid, Spain.

出版信息

Front Cell Neurosci. 2019 Aug 13;13:374. doi: 10.3389/fncel.2019.00374. eCollection 2019.

DOI:10.3389/fncel.2019.00374

PMID:31456667

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6700221/

Abstract

Since brain glycogen is stored mainly in astrocytes, the role of this polysaccharide in neurons has been largely overlooked. To study the existence and relevance of an active neuronal glycogen metabolism , we generated a mouse model lacking glycogen synthase specifically in the Camk2a-expressing postnatal forebrain pyramidal neurons (GYS1), which include the prefrontal cortex and the CA3 and CA1 cell layers of the hippocampus. The latter are involved in memory and learning processes and participate in the hippocampal CA3-CA1 synapse, the function of which can be analyzed electrophysiologically. Long-term potentiation evoked in the hippocampal CA3-CA1 synapse was decreased in alert behaving GYS1 mice. They also showed a significant deficiency in the acquisition of an instrumental learning task - a type of associative learning involving prefrontal and hippocampal circuits. Interestingly, GYS1 animals did not show the greater susceptibility to hippocampal seizures and myoclonus observed in animals completely depleted of glycogen in the whole CNS. These results unequivocally demonstrate the presence of an active glycogen metabolism in neurons and reveal a key role of neuronal glycogen in the proper acquisition of new motor and cognitive abilities, and in the changes in synaptic strength underlying such acquisition.

摘要

由于脑糖原主要储存在星形胶质细胞中，这种多糖在神经元中的作用在很大程度上被忽视了。为了研究活跃的神经元糖原代谢的存在及其相关性，我们构建了一种小鼠模型，该模型在表达钙/钙调蛋白依赖蛋白激酶2α（Camk2a）的出生后前脑锥体神经元（糖原合酶1，GYS1）中特异性缺失糖原合酶，这些神经元包括前额叶皮质以及海马体的CA3和CA1细胞层。后者参与记忆和学习过程，并参与海马体CA3-CA1突触，其功能可通过电生理学方法进行分析。在警觉状态下的GYS1小鼠中，海马体CA3-CA1突触诱发的长时程增强效应降低。它们在一种工具性学习任务（一种涉及前额叶和海马体回路的联想学习类型）的习得方面也表现出明显缺陷。有趣的是，GYS1小鼠并未表现出在整个中枢神经系统中糖原完全耗尽的动物所观察到的对海马体癫痫发作和肌阵挛的更高易感性。这些结果明确证明了神经元中存在活跃的糖原代谢，并揭示了神经元糖原在正确获得新的运动和认知能力以及在这种获得过程中突触强度变化方面的关键作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/75bb/6700221/cef25a5aea31/fncel-13-00374-g001.jpg

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神经元糖原缺乏会损害小鼠的记忆形成和学习依赖性突触可塑性。

Lack of Neuronal Glycogen Impairs Memory Formation and Learning-Dependent Synaptic Plasticity in Mice.

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