The Role of AMPAR Trafficking Mediated by Neuronal Pentraxins in Cocaine-induced Neuroadaptations.

Molecular and cellular pharmacology Pub Date : 2009-05-06 DOI:10.4255/mcpharmacol.09.08

Alejandra M Pacchioni, Peter W Kalivas

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引用次数: 12

Abstract

Glutamate AMPA receptors (AMPAR) in the nucleus accumbens have an important role in cocaine-induced neuroadaptations. Neuronal pentraxins function in the extracellular matrix to bind AMPAR. Three neuronal pentraxins have been described Narp, NP1 and NPR. Narp and NP1 cluster AMPA receptors, while NPR contributes to removing AMPA receptors during mGluR-dependent long-term depression. We recently demonstrated that each pentraxin contributes to cocaine-induced neuroadaptations in a way that is consistent with its role in AMPAR clustering and trafficking. Thus, Narp and NP1 deletion promoted cocaine-induced place preference and showed blunted AMPA induced locomotion after cocaine withdrawal. In contrast NPR deletion augmented the AMPA response and was without effect on place preference. Consistent with reduced AMPA responsiveness after chronic cocaine in Narp KO mice, GluR1 was reduced in the postsynaptic density (PSD) fraction of Narp KO mice withdrawn from cocaine. These findings will be discussed in light of recent data showing that rats withdrawn from cocaine have marked deficits in developing long-term potentiation and long-term depression.

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神经元戊烷素介导的AMPAR转运在可卡因诱导的神经适应中的作用。

伏隔核谷氨酸AMPA受体(AMPAR)在可卡因诱导的神经适应中起重要作用。神经元戊烷素在细胞外基质中结合AMPAR。神经元戊素有三种，分别为Narp、NP1和NPR。在mglur依赖的长期抑郁中，Narp和NP1聚集AMPA受体，而NPR有助于去除AMPA受体。我们最近证明，每种戊烷素都有助于可卡因诱导的神经适应，其方式与其在AMPAR聚集和贩运中的作用一致。因此，Narp和NP1的缺失促进了可卡因诱导的位置偏好，并在可卡因戒断后表现出AMPA诱导的运动迟钝。相反，NPR缺失增强了AMPA反应，对位置偏好没有影响。与Narp KO小鼠慢性可卡因后AMPA反应性降低一致，在Narp KO小鼠的突触后密度(PSD)部分GluR1降低。这些发现将根据最近的数据进行讨论，这些数据显示，戒除可卡因的大鼠在发展长期增强和长期抑郁方面有明显的缺陷。

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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来源期刊

Molecular and cellular pharmacology

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1.00

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