The activity-regulated cytoskeleton-associated protein (Arc) functions in a cell type- and sex-specific manner in the adult nucleus accumbens to regulate non-contingent cocaine behaviors

IF 2.4 4区 心理学 Q2 BEHAVIORAL SCIENCES
Daniel J. Wood, Jessica L. Huebschman, Dalia Martinez, Evgeny Tsvetkov, Kirsten Snyder, Raymond Tjhia, Jaswinder Kumar, Brandon W. Hughes, Makoto Taniguchi, Laura N. Smith, Christopher W. Cowan, Rachel D. Penrod
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Abstract

Repeated cocaine use produces adaptations in brain function that contribute to long-lasting behaviors associated with cocaine use disorder (CUD). In rodents, the activity-regulated cytoskeleton-associated protein (Arc) can regulate glutamatergic synaptic transmission, and cocaine regulates Arc expression and subcellular localization in multiple brain regions, including the nucleus accumbens (NAc)—a brain region linked to CUD-related behavior. We show here that repeated, non-contingent cocaine administration in global Arc KO male mice produced a dramatic hypersensitization of cocaine locomotor responses and drug experience-dependent sensitization of conditioned place preference (CPP). In contrast to the global Arc KO mice, viral-mediated reduction of Arc in the adult male, but not female, NAc (shArcNAc) reduced both CPP and cocaine-induced locomotor activity, but without altering basal miniature or evoked glutamatergic synaptic transmission. Interestingly, cell type-specific knockdown of Arc in D1 dopamine receptor-expressing NAc neurons reduced cocaine-induced locomotor sensitization, but not cocaine CPP; whereas, Arc knockdown in D2 dopamine receptor-expressing NAc neurons reduced cocaine CPP, but not cocaine-induced locomotion. Taken together, our findings reveal that global, developmental loss of Arc produces hypersensitized cocaine responses; however, these effects cannot be explained by Arc's function in the adult mouse NAc since Arc is required in a cell type- and sex-specific manner to support cocaine-context associations and locomotor responses.

Abstract Image

活性调节细胞骨架相关蛋白(Arc)以细胞类型和性别特异性的方式在成核中调节非偶联可卡因行为。
反复使用可卡因会使大脑功能发生适应性变化,从而导致与可卡因使用障碍(CUD)相关的长期行为。在啮齿类动物中,活动调控细胞骨架相关蛋白(Arc)可调节谷氨酸能突触传递,可卡因可调控Arc在多个脑区的表达和亚细胞定位,包括与可卡因使用障碍相关行为有关的脑区--伏隔核(NAc)。我们在此研究中发现,在全局 Arc KO 雄性小鼠体内重复给予非偶联可卡因会产生显著的可卡因运动反应过敏和条件性位置偏好(CPP)的药物经验依赖性过敏。与全局 Arc KO 小鼠相反,病毒介导的成年雄性小鼠(而非雌性小鼠)NAc 中 Arc 的减少(shArcNAc)会降低 CPP 和可卡因诱导的运动活动,但不会改变基础微型或诱发的谷氨酸能突触传递。有趣的是,细胞类型特异性敲除D1多巴胺受体表达的NAc神经元中的Arc会降低可卡因诱导的运动敏感性,但不会降低可卡因CPP;而敲除D2多巴胺受体表达的NAc神经元中的Arc会降低可卡因CPP,但不会降低可卡因诱导的运动。综上所述,我们的研究结果表明,发育过程中Arc的全面缺失会产生过敏性可卡因反应;然而,这些效应不能用Arc在成年小鼠NAc中的功能来解释,因为Arc需要以细胞类型和性别特异性的方式支持可卡因-情境关联和运动反应。
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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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