Pharmacological manipulations of the dorsomedial and dorsolateral striatum during fear extinction reveal opposing roles in fear renewal

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Margaret K. Tanner , Alyssa A. Hohorst , Jessica D. Westerman , Carolina Sanchez Mendoza , Rebecca Han , Nicolette A. Moya , Jennifer Jaime , Lareina M. Alvarez , Miles Q. Dryden , Aleezah Balolia , Remla A. Abdul , Esteban C. Loetz , Benjamin N. Greenwood
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引用次数: 0

Abstract

Systemic manipulations that enhance dopamine (DA) transmission around the time of fear extinction can strengthen fear extinction and reduce conditioned fear relapse. Prior studies investigating the brain regions where DA augments fear extinction focus on targets of mesolimbic and mesocortical DA systems originating in the ventral tegmental area, given the role of these DA neurons in prediction error. The dorsal striatum (DS), a primary target of the nigrostriatal DA system originating in the substantia nigra (SN), is implicated in behaviors beyond its canonical role in movement, such as reward and punishment, goal-directed action, and stimulus–response associations, but whether DS DA contributes to fear extinction is unknown. We have observed that chemogenetic stimulation of SN DA neurons during fear extinction prevents the return of fear in contexts different from the extinction context, a form of relapse called renewal. This effect of SN DA stimulation is mimicked by a DA D1 receptor (D1R) agonist injected into the DS, thus implicating DS DA in fear extinction. Different DS subregions subserve unique functions of the DS, but it is unclear where in the DS D1R agonist acts during fear extinction to reduce renewal. Furthermore, although fear extinction increases neural activity in DS subregions, whether neural activity in DS subregions is causally involved in fear extinction is unknown. To explore the role of DS subregions in fear extinction, adult, male Long-Evans rats received microinjections of either the D1R agonist SKF38393 or a cocktail consisting of GABAA/GABAB receptor agonists muscimol/baclofen selectively into either dorsomedial (DMS) or dorsolateral (DLS) DS subregions immediately prior to fear extinction, and extinction retention and renewal were subsequently assessed drug-free. While increasing D1R signaling in the DMS during fear extinction did not impact fear extinction retention or renewal, DMS inactivation reduced later renewal. In contrast, DLS inactivation had no effect on fear extinction retention or renewal but increasing D1R signaling in the DLS during extinction reduced fear renewal. These data suggest that DMS and DLS activity during fear extinction can have opposing effects on later fear renewal, with the DMS promoting renewal and the DLS opposing renewal. Mechanisms through which the DS could influence the contextual gating of fear extinction are discussed.

Abstract Image

在恐惧消退过程中对背内侧和背外侧纹状体的药理操作揭示了它们在恐惧恢复中的相反作用。
在恐惧消退前后加强多巴胺(DA)传递的系统操作可以加强恐惧消退并减少条件性恐惧复发。之前对多巴胺能增强恐惧消退的脑区进行的研究主要集中在源自腹侧被盖区的中边缘和中皮层多巴胺系统的靶点,因为这些多巴胺神经元在预测错误中扮演着重要角色。背侧纹状体(DS)是起源于黑质(SN)的黑质DA系统的主要靶点,除了在运动中的典型作用外,它还牵涉到其他行为,如奖惩、目标定向行动和刺激-反应关联,但背侧纹状体DA是否有助于恐惧的消退尚不清楚。我们观察到,在恐惧消退过程中对SN DA神经元进行化学刺激,可以防止恐惧在不同于消退情境的情境中复发,这种复发形式被称为 "更新"。向DS注射DA D1受体(D1R)激动剂可模拟SN DA刺激的这种效应,从而证明DS DA与恐惧消退有关。不同的DS亚区承担着DS的独特功能,但目前还不清楚在恐惧消退过程中,D1R激动剂会在DS的哪个部位发挥作用以减少更新。此外,虽然恐惧消退会增加DS亚区的神经活动,但DS亚区的神经活动是否与恐惧消退有因果关系尚不清楚。为了探索DS亚区在恐惧消退中的作用,成年雄性Long-Evans大鼠在恐惧消退前立即接受了D1R激动剂SKF38393或由GABAA/GABAB受体激动剂muscimol/baclofen组成的鸡尾酒微注射,选择性地注射到背内侧(DMS)或背外侧(DLS)DS亚区,随后在无药物的情况下评估了消退的保持和更新。虽然在恐惧消退过程中增加 DMS 中的 D1R 信号不会影响恐惧消退的保持或恢复,但 DMS 失活会降低后来的恢复。相反,DLS 失活对恐惧消退的保持或更新没有影响,但在恐惧消退期间增加 DLS 中的 D1R 信号会降低恐惧的更新。这些数据表明,在恐惧消退过程中,DMS和DLS的活动会对以后的恐惧更新产生相反的影响,DMS促进更新,而DLS则反对更新。本文讨论了DS影响恐惧消退的情境门控的机制。
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
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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