Consolidation of passive avoidance learning is associated with transient increases of polysialylated neurons in layer II of the rat medial temporal cortex.

Journal of neurobiology Pub Date : 2000-11-15
G B Fox, G Fichera, T Barry, A W O'Connell, H C Gallagher, K J Murphy, C M Regan
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Abstract

Within the rat medial temporal lobe, transient modulations of neural cell adhesion molecule (NCAM) polysialylation have been observed to follow spatial learning. These have been attributed to neuroplastic events associated with the processing of information destined for long term memory consolidation. To determine if similar events are associated with avoidance learning, we investigated change in polysialylated cell number in the entorhinal, perirhinal, and piriform cortex, following acquisition of a passive avoidance task in the rat. Direct quantification of polysialylated neurons in layer II of these cortical regions revealed a significant increase in polysialylated cell frequency at 12 h following passive avoidance training. Unlike spatial learning, the increased expression of polysialylated neurons persisted for up to 24-48 h following training. In the more dorsal aspect of the perirhinal/entorhinal cortex, this increase was found to be specific to learning, as it was not observed in animals rendered amnesic with scopolamine. By contrast, change in polysialylated cell frequency in the ventral aspect of the medial temporal lobe was only partially reduced by amnesic doses of scopolamine. The persisting activation of NCAM polysialylation in the more dorsal aspects of the perirhinal and entorhinal cortex is suggested to reflect the need for more extensive synaptic alterations, as compared to those required for the consolidation of spatial learning. Moreover, the neuroplastic modulations observed in the more ventral regions of the entorhinal and perirhinal cortex appear to be a unique aspect of avoidance conditioning that reflects the activation of alternative learning strategies associated with motivational and/or contextual parameters of the task.

被动回避学习的巩固与大鼠内侧颞叶皮层第二层多唾液化神经元的短暂增加有关。
在大鼠内侧颞叶中,观察到神经细胞粘附分子(NCAM)多唾液化的短暂调节跟随空间学习。这些都归因于与长期记忆巩固信息处理相关的神经可塑性事件。为了确定类似的事件是否与回避学习有关,我们研究了大鼠获得被动回避任务后,内嗅、外嗅和梨状皮质中多唾液化细胞数量的变化。对这些皮质区域第二层多唾液化神经元的直接定量分析显示,在被动回避训练后12小时,多唾液化细胞频率显著增加。与空间学习不同,多唾液化神经元的表达增加在训练后持续24-48小时。在更背侧的嗅周/嗅内皮层,这种增加被发现是特定于学习的,因为在东莨菪碱导致失忆症的动物中没有观察到。相比之下,内侧颞叶腹侧多唾液化细胞频率的变化仅部分减少了遗忘剂量的东莨菪碱。与巩固空间学习所需的突触改变相比,NCAM多唾液化在更背侧的嗅周和嗅内皮层的持续激活被认为反映了更广泛的突触改变的需要。此外,在更腹侧的内嗅和外嗅皮层中观察到的神经可塑性调节似乎是回避条件反射的一个独特方面,反映了与任务的动机和/或上下文参数相关的替代学习策略的激活。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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