Reelin缺乏通过增强背内侧纹状体的神经元活动加剧了可卡因诱导的过度运动

IF 2.4 4区 心理学 Q2 BEHAVIORAL SCIENCES
Giordano de Guglielmo, Attilio Iemolo, Aisha Nur, Andrew Turner, Patricia Montilla-Perez, Angelica Martinez, Caitlin Crook, Amanda Roberts, Francesca Telese
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引用次数: 5

摘要

Reln基因编码细胞外糖蛋白Reelin,它调节从发育到成年的几种脑功能,包括神经元迁移、树突生长和分支以及突触的形成和可塑性。人类研究表明,Reelin信号与几种神经发育和精神疾病有关。使用杂合Reeler (HR)小鼠进行的小鼠研究表明,Reln表达水平的降低与学习和记忆缺陷以及增强的去抑制作用有关。尽管这些特征与物质使用障碍有关,但Reelin在成瘾药物的细胞和行为反应中的作用仍然很大程度上未知。在这里,我们将HR小鼠与野生型(WT)对照进行比较,以研究Reelin信号是否有助于可卡因的过度运动和奖励效应。在单次或多次注射可卡因后,与WT对照组相比,HR小鼠表现出增强的可卡因诱导的运动活动。这种效果在停药后仍然存在。相反,Reelin缺乏不会诱导可卡因致敏,也不会影响条件位置偏好试验中测量的可卡因奖励效应。与WT相比,高可卡因诱导的高运动性高HR小鼠与背内侧纹状体(DMS)中Fos蛋白表达增加有关。最后,我们进行了RNA荧光原位杂交实验,发现Reln与DMS中编码多巴胺受体D1的Drd1基因高度共表达。这些发现表明,Reelin信号有助于可卡因的运动效应,并提高我们对可卡因的细胞和行为影响的神经生物学机制的理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Reelin deficiency exacerbates cocaine-induced hyperlocomotion by enhancing neuronal activity in the dorsomedial striatum

Reelin deficiency exacerbates cocaine-induced hyperlocomotion by enhancing neuronal activity in the dorsomedial striatum

The Reln gene encodes for the extracellular glycoprotein Reelin, which regulates several brain functions from development to adulthood, including neuronal migration, dendritic growth and branching and synapse formation and plasticity. Human studies have implicated Reelin signaling in several neurodevelopmental and psychiatric disorders. Mouse studies using the heterozygous Reeler (HR) mice have shown that reduced levels of Reln expression are associated with deficits in learning and memory and increased disinhibition. Although these traits are relevant to substance use disorders, the role of Reelin in cellular and behavioral responses to addictive drugs remains largely unknown. Here, we compared HR mice to wild-type (WT) littermate controls to investigate whether Reelin signaling contributes to the hyperlocomotor and rewarding effects of cocaine. After a single or repeated cocaine injections, HR mice showed enhanced cocaine-induced locomotor activity compared with WT controls. This effect persisted after withdrawal. In contrast, Reelin deficiency did not induce cocaine sensitization, and did not affect the rewarding effects of cocaine measured in the conditioned place preference assay. The elevated cocaine-induced hyperlocomotion in HR mice was associated with increased protein Fos expression in the dorsal medial striatum (DMS) compared with WT. Lastly, we performed an RNA fluorescent in situ hybridization experiment and found that Reln was highly co-expressed with the Drd1 gene, which encodes for the dopamine receptor D1, in the DMS. These findings show that Reelin signaling contributes to the locomotor effects of cocaine and improve our understanding of the neurobiological mechanisms underlying the cellular and behavioral effects of cocaine.

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来源期刊
Genes Brain and Behavior
Genes Brain and Behavior 医学-行为科学
CiteScore
6.80
自引率
4.00%
发文量
62
审稿时长
4-8 weeks
期刊介绍: Genes, Brain and Behavior was launched in 2002 with the aim of publishing top quality research in behavioral and neural genetics in their broadest sense. The emphasis is on the analysis of the behavioral and neural phenotypes under consideration, the unifying theme being the genetic approach as a tool to increase our understanding of these phenotypes. Genes Brain and Behavior is pleased to offer the following features: 8 issues per year online submissions with first editorial decisions within 3-4 weeks and fast publication at Wiley-Blackwells High visibility through its coverage by PubMed/Medline, Current Contents and other major abstracting and indexing services Inclusion in the Wiley-Blackwell consortial license, extending readership to thousands of international libraries and institutions A large and varied editorial board comprising of international specialists.
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