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中隔核 GABA 能神经元损伤损害空间工作记忆和主动回避的消退:对前摄干扰的影响。

Damage of GABAergic neurons in the medial septum impairs spatial working memory and extinction of active avoidance: effects on proactive interference.

机构信息

NeuroBehavioral Laboratory, Department of Veterans Affairs, New Jersey Health Care System, East Orange, New Jersey 07018, USA.

出版信息

Hippocampus. 2011 Aug;21(8):835-46. doi: 10.1002/hipo.20799. Epub 2010 May 17.

DOI:10.1002/hipo.20799
PMID:20865731
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3010529/
Abstract

The medial septum and diagonal band (MSDB) are important in spatial learning and memory. On the basis of the excitotoxic damage of GABAergic MSDB neurons, we have recently suggested a role for these neurons in controlling proactive interference. Our study sought to test this hypothesis in different behavioral procedures using a new GABAergic immunotoxin. GABA-transporter-saporin (GAT1-SAP) was administered into the MSDB of male Sprague-Dawley rats. Following surgery, rats were trained in a reference memory water maze procedure for 5 days, followed by a working memory (delayed match to position) water maze procedure. Other rats were trained in a lever-press avoidance procedure after intraseptal GAT1-SAP or sham surgery. Intraseptal GAT1-SAP extensively damaged GABAergic neurons while sparing most cholinergic MSDB neurons. Rats treated with GAT1-SAP were not impaired in acquiring a spatial reference memory, learning the location of the escape platform as rapidly as sham rats. In contrast, GAT1-SAP rats were slower than sham rats to learn the platform location in a delayed match to position procedure, in which the platform location was changed every day. Moreover, GAT1-SAP rats returned to previous platform locations more often than sham rats. In the active avoidance procedure, intraseptal GAT1-SAP impaired extinction but not acquisition of the avoidance response. Using a different neurotoxin and behavioral procedures than previous studies, the results of this study paint a similar picture that GABAergic MSDB neurons are important for controlling proactive interference.

摘要

中隔和斜角带(MSDB)在空间学习和记忆中很重要。基于 GABA 能 MSDB 神经元的兴奋毒性损伤,我们最近提出这些神经元在控制前摄干扰方面起作用。我们的研究试图使用新的 GABA 能免疫毒素在不同的行为程序中测试这一假设。GABA 转运体-Saporin(GAT1-SAP)被注入雄性 Sprague-Dawley 大鼠的 MSDB。手术后,大鼠在参考记忆水迷宫程序中接受 5 天的训练,然后进行工作记忆(延迟匹配位置)水迷宫程序。其他大鼠在接受 MSDB 内 GAT1-SAP 或假手术治疗后,在杠杆按压回避程序中接受训练。MSDB 内 GAT1-SAP 广泛损伤 GABA 能神经元,而保留大多数胆碱能 MSDB 神经元。用 GAT1-SAP 治疗的大鼠在获得空间参考记忆方面没有受损,与假大鼠一样迅速学习逃避平台的位置。相比之下,GAT1-SAP 大鼠在延迟匹配位置程序中学习平台位置的速度比假大鼠慢,在该程序中,平台位置每天都在变化。此外,GAT1-SAP 大鼠比假大鼠更频繁地返回先前的平台位置。在主动回避程序中,MSDB 内 GAT1-SAP 损伤了消退但未损伤回避反应的获得。使用与以前的研究不同的神经毒素和行为程序,这项研究的结果描绘了一幅相似的画面,即 GABA 能 MSDB 神经元对于控制前摄干扰很重要。

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