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可卡因戒断诱导大鼠伏隔核中δ-阿片受体的转运

Cocaine withdrawal-induced trafficking of delta-opioid receptors in rat nucleus accumbens.

作者信息

Ambrose-Lanci Lisa M, Peiris Niluk B, Unterwald Ellen M, Van Bockstaele Elisabeth J

机构信息

Farber Institute for Neurosciences, Department of Neurosurgery, Thomas Jefferson University, Philadelphia, PA 19107, USA.

出版信息

Brain Res. 2008 May 19;1210:92-102. doi: 10.1016/j.brainres.2008.02.105. Epub 2008 Mar 15.

Abstract

Interactions between the opioidergic and dopaminergic systems in the nucleus accumbens (NAcb) play a critical role in mediating cocaine withdrawal-induced effects on cell signaling and behavior. In support of this, increased activation of striatal dopamine-D1 receptors (D1R) results in desensitization of delta-opioid receptor (DOR) signaling through adenylyl cyclase during early cocaine withdrawal. A potential cellular substrate underlying receptor desensitization is receptor internalization. The present study examined the effect of cocaine withdrawal on subcellular localization of DOR in dendrites of the NAcb core (NAcbC) and shell (NAcbS) using immunoelectron microscopy. Female and male rats received binge-pattern cocaine or saline for 14 days and subsequently underwent 48 h withdrawal. Animals were transcardially perfused and tissue sections were processed for immunogold-silver localization of DOR. Semi-quantitative analysis revealed that cocaine withdrawal caused an increase in the percentage of DOR localized intracellularly in the NAcbS of male and female rats and the NAcbC of male rats compared to saline controls. In contrast, in the NAcbC of female rats, there was an increase in DOR associated with the plasma membrane following cocaine withdrawal. To determine whether modulation of D1R could directly impact DOR containing neurons, the hypothesis that DOR and D1R co-exist in common neurons of the NAcb was examined in naïve rats. Semi-quantitative analysis revealed a subset of profiles containing both DOR and D1R immunoreactivities. The present findings demonstrate a redistribution of DOR in the NAcb following cocaine withdrawal and provide anatomical evidence supporting D1R regulation of DOR function in a subset of NAcb neurons.

摘要

伏隔核(NAcb)中阿片能系统与多巴胺能系统之间的相互作用在介导可卡因戒断引起的细胞信号传导和行为影响方面起着关键作用。支持这一观点的是,在可卡因戒断早期,纹状体多巴胺D1受体(D1R)的激活增加会导致δ-阿片受体(DOR)信号通过腺苷酸环化酶脱敏。受体脱敏的一个潜在细胞底物是受体内化。本研究使用免疫电子显微镜检查了可卡因戒断对NAcb核心(NAcbC)和壳(NAcbS)树突中DOR亚细胞定位的影响。雌性和雄性大鼠接受暴饮暴食模式的可卡因或生理盐水注射14天,随后进行48小时戒断。动物经心脏灌注,组织切片进行DOR的免疫金银定位处理。半定量分析显示,与生理盐水对照组相比,可卡因戒断导致雄性和雌性大鼠NAcbS以及雄性大鼠NAcbC中细胞内定位的DOR百分比增加。相反,在雌性大鼠的NAcbC中,可卡因戒断后与质膜相关的DOR增加。为了确定D1R的调节是否会直接影响含有DOR的神经元,在未处理的大鼠中检验了DOR和D1R共存于NAcb共同神经元中的假设。半定量分析显示了同时含有DOR和D1R免疫反应性的一部分图像。本研究结果表明可卡因戒断后NAcb中DOR重新分布,并提供了解剖学证据,支持NAcb一部分神经元中D1R对DOR功能的调节。

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