fosB基因在慢性电惊厥发作的分子、细胞及行为作用中的重要作用。

Essential role of the fosB gene in molecular, cellular, and behavioral actions of chronic electroconvulsive seizures.

作者信息

Hiroi N, Marek G J, Brown J R, Ye H, Saudou F, Vaidya V A, Duman R S, Greenberg M E, Nestler E J

机构信息

Laboratory of Molecular Psychiatry, Departments of Psychiatry and Neurobiology, Yale University School of Medicine, New Haven, Connecticut 06508, USA.

出版信息

J Neurosci. 1998 Sep 1;18(17):6952-62. doi: 10.1523/JNEUROSCI.18-17-06952.1998.

DOI:10.1523/JNEUROSCI.18-17-06952.1998

PMID:9712664

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6792966/

Abstract

The role of Fos-like transcription factors in neuronal and behavioral plasticity has remained elusive. Here we demonstrate that a Fos family member protein plays physiological roles in the neuronal, electrophysiological, and behavioral plasticity associated with repeated seizures. Repeated electroconvulsive seizures (ECS) induced isoforms of DeltaFosB in frontal cortex, an effect that was associated with increased levels of the NMDA receptor 1 (NMDAR1) glutamate receptor subunit. Induction of DeltaFosB and the upregulation of NMDAR1 occurred within the same neurons in superficial layers of neocortex. Activator protein-1 (AP-1) complexes composed of DeltaFosB were bound to a consensus AP-1 site in the 5'-promoter region of the NMDAR1 gene. The upregulation of NMDAR1 was absent in mice with a targeted disruption of the fosB gene. In addition, repeated ECS treatment caused progressively shorter motor seizures (tolerance) in both rats and wild-type mice, as well as reduced NMDA-induced inward currents in pyramidal neurons from superficial layers of the neocortex of wild-type mice. These behavioral and electrophysiological effects were also significantly attenuated in fosB mutant mice. These findings identify fosB gene products as transcription factors critical for molecular, electrophysiological, and behavioral adaptations to motor seizures.

摘要

Fos样转录因子在神经元和行为可塑性中的作用一直难以捉摸。在此，我们证明一种Fos家族成员蛋白在与反复癫痫发作相关的神经元、电生理和行为可塑性中发挥生理作用。反复电惊厥发作（ECS）诱导额叶皮质中DeltaFosB的异构体形成，这一效应与NMDA受体1（NMDAR1）谷氨酸受体亚基水平的升高相关。DeltaFosB的诱导和NMDAR1的上调发生在新皮质浅层的同一神经元内。由DeltaFosB组成的活化蛋白-1（AP-1）复合物与NMDAR1基因5'-启动子区域的共有AP-1位点结合。在fosB基因靶向破坏的小鼠中，NMDAR1的上调不存在。此外，反复ECS处理使大鼠和野生型小鼠的运动性癫痫发作逐渐缩短（耐受），并且使野生型小鼠新皮质浅层锥体神经元中NMDA诱导的内向电流减少。这些行为和电生理效应在fosB突变小鼠中也显著减弱。这些发现确定fosB基因产物是对运动性癫痫发作的分子、电生理和行为适应至关重要的转录因子。

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