空间记忆和工作记忆与脊柱密度及蘑菇状棘突相关。

Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines.

作者信息

Mahmmoud Rasha Refaat, Sase Sunetra, Aher Yogesh D, Sase Ajinkya, Gröger Marion, Mokhtar Maher, Höger Harald, Lubec Gert

机构信息

Department of Pediatrics, Faculty of Medicine, Assuit University, Assuit, Egypt; Department of Pharmaceutical Chemistry, University of Vienna, 1090 Vienna, Austria.

Department of Pharmaceutical Chemistry, University of Vienna, 1090 Vienna, Austria.

出版信息

PLoS One. 2015 Oct 15;10(10):e0139739. doi: 10.1371/journal.pone.0139739. eCollection 2015.

DOI:10.1371/journal.pone.0139739

PMID:26469788

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4607435/

Abstract

BACKGROUND

Changes in synaptic structure and efficacy including dendritic spine number and morphology have been shown to underlie neuronal activity and size. Moreover, the shapes of individual dendritic spines were proposed to correlate with their capacity for structural change. Spine numbers and morphology were reported to parallel memory formation in the rat using a water maze but, so far, there is no information on spine counts or shape in the radial arm maze (RAM), a frequently used paradigm for the evaluation of complex memory formation in the rodent.

METHODS

24 male Sprague-Dawley rats were divided into three groups, 8 were trained, 8 remained untrained in the RAM and 8 rats served as cage controls. Dendritic spine numbers and individual spine forms were counted in CA1, CA3 areas and dentate gyrus of hippocampus using a DIL dye method with subsequent quantification by the Neuronstudio software and the image J program.

RESULTS

Working memory errors (WME) and latency in the RAM were decreased along the training period indicating that animals performed the task. Total spine density was significantly increased following training in the RAM as compared to untrained rats and cage controls. The number of mushroom spines was significantly increased in the trained as compared to untrained and cage controls. Negative significant correlations between spine density and WME were observed in CA1 basal dendrites and in CA3 apical and basal dendrites. In addition, there was a significant negative correlation between spine density and latency in CA3 basal dendrites.

CONCLUSION

The study shows that spine numbers are significantly increased in the trained group, an observation that may suggest the use of this method representing a morphological parameter for memory formation studies in the RAM. Herein, correlations between WME and latency in the RAM and spine density revealed a link between spine numbers and performance in the RAM.

摘要

背景

突触结构和效能的变化，包括树突棘数量和形态，已被证明是神经元活动和大小的基础。此外，有人提出单个树突棘的形状与其结构变化能力相关。据报道，在大鼠中使用水迷宫时，树突棘数量和形态与记忆形成平行，但到目前为止，对于放射状臂迷宫（RAM）（一种常用于评估啮齿动物复杂记忆形成的范式）中的树突棘数量或形状尚无相关信息。

方法

将24只雄性Sprague-Dawley大鼠分为三组，8只进行训练，8只在RAM中不进行训练，8只大鼠作为笼养对照。使用DIL染色法对海马体的CA1、CA3区域和齿状回中的树突棘数量和单个树突棘形态进行计数，随后通过Neuronstudio软件和Image J程序进行量化。

结果

在RAM中，随着训练期的推进，工作记忆错误（WME）和潜伏期减少，表明动物能够完成任务。与未训练的大鼠和笼养对照相比，在RAM中训练后总棘密度显著增加。与未训练和笼养对照相比，训练组中蘑菇状棘的数量显著增加。在CA1基底树突以及CA3顶树突和基底树突中观察到棘密度与WME之间存在显著负相关。此外，在CA3基底树突中，棘密度与潜伏期之间存在显著负相关。

结论

该研究表明训练组中的棘数量显著增加，这一观察结果可能表明使用这种方法可作为RAM中记忆形成研究的形态学参数。在此，RAM中的WME和潜伏期与棘密度之间的相关性揭示了棘数量与RAM中行为表现之间的联系。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4e84/4607435/8542aedc7c21/pone.0139739.g001.jpg

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空间记忆和工作记忆与脊柱密度及蘑菇状棘突相关。

Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSION

背景

方法

结果

结论

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