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Mechanisms of Nucleus Accumbens Cell-Type Specific Deep Brain Stimulation in Cocaine Reinstatement

可卡因恢复中伏核细胞类型特异性深部脑刺激的机制

基本信息

批准号：
10314536
负责人：
Matthew T Rich
金额：
$ 6.86万
依托单位：
RBHS-ROBERT WOOD JOHNSON MEDICAL SCHOOL
依托单位国家：
美国
项目类别：
财政年份：
2022
资助国家：
美国
起止时间：
2022-01-08 至 2023-01-07
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10314536
关键词：
Mechanisms Nucleus Accumbens Cell Type

项目摘要

Project Summary/Abstract Cocaine addiction is a major public health issue in the United States, and there are currently no effective treatments targeted towards preventing relapse. Deep brain stimulation (DBS) has been successful clinically at reducing symptoms of several neurological and psychiatric disorders and has been proposed as a potential therapy for the suppression of drug craving and relapse. Previous preclinical research has identified that conventional DBS in the nucleus accumbens (NAc) shell can be effective at preventing reinstatement of cocaine seeking, an animal model of relapse. This grant will exploit recent methodological advances in order to examine the cellular and physiological mechanisms underlying the efficacy of NAc DBS with greater specificity. We will examine the effects of DBS-like stimulation induced by light activation of channelrhodopsin (ChR2) expressed in specific neuronal subtypes of the NAc shell. Neuronal specificity will be achieved through viral expression in transgenic rat lines that express Cre recombinase selectively in D1 dopamine receptor (D1DR)- or D2DR-expressing medium spiny neurons (MSNs). Aim 1 will examine the electrophysiological effects of optogenetic DBS-like (opto-DBS) activation of D1DR- or D2DR-MSNs in male and female rats. Whole cell patch clamp experiments will assess the synaptic mechanisms that are engaged by opto-DBS, and determine if there are cell subtype-specific effects. Aim 2 will consist of parallel behavioral experiments to examine the effects of opto-DBS on cocaine-primed reinstatement. Optic fibers will be implanted in the NAc shell, and D1DR- or D2DR-MSNs will be activated optogenetically, at DBS-like frequencies following a priming dose of cocaine to assess the effects of this manipulation on cocaine-seeking behavior. Previous findings and preliminary data support the overarching hypothesis that DBS of the NAc shell blocks cocaine-primed reinstatement by inducing synaptic depotentiation specifically in D2DR-MSNs. Future directions will examine the effects of selective optogenetic inhibition of D1DR- or D2DR-MSN signaling in precise downstream regions. Optic fibers will be implanted in either the ventral pallidum (VP) or ventral tegmental area (VTA) and halorhodopsin-expressing D1DR- or D2DR- axon terminals will be activated during cocaine-primed reinstatement. This will determine whether DBS of NAc shell MSNs can be equated to overall suppression of neural activity. Overall, identification of the specific mechanisms by which DBS influences cocaine seeking will provide critical insights for future cell- and pathway-specific therapeutics for cocaine addiction.

项目总结/摘要可卡因成瘾在美国是一个主要的公共卫生问题，目前没有有效的治疗方法。针对预防复发的治疗。脑深部电刺激（DBS）已在临床上取得成功，减少几种神经和精神疾病的症状，并已被提出作为一种潜在的用于抑制药物渴望和复发的疗法。先前的临床前研究已经确定，在脑桥核（NAc）壳中的常规DBS可以有效地防止可卡因寻求，一个复发的动物模型。这项赠款将利用最近的方法进步，检查细胞和生理机制的NAc DBS的疗效具有更大的特异性。我们将研究光激活视紫红质通道（ChR 2）诱导的DBS样刺激的作用。在NAc壳的特定神经元亚型中表达。神经元特异性将通过病毒在D1多巴胺受体（D1 DR）中选择性表达Cre重组酶的转基因大鼠品系中的表达- 或表达D2 DR的中型多刺神经元（MSN）。目的1将检查的电生理效应在雄性和雌性大鼠中D1 DR-或D2 DR-MSN的光遗传学DBS样（opto-DBS）激活。全细胞膜片钳实验将评估由opto-DBS参与的突触机制，并确定是否存在细胞亚型特异性效应。目标2将包括平行的行为实验，光脑深部电刺激对可卡因引发的恢复的影响。将光纤植入NAc外壳中， D1 DR-或D2 DR-MSN将被光遗传学激活，在启动剂量为可卡因，以评估这种操纵对可卡因寻求行为的影响。之前的发现和初步的数据支持一个总体假设，即DBS的NAc壳块可卡因引发的通过在D2 DR-MSN中特异性诱导突触去增强而恢复。未来的方向将研究在精确的下游区域中选择性光遗传学抑制D1 DR-或D2 DR-MSN信号传导的作用。将视神经纤维植入腹侧苍白球（VP）或腹侧被盖区（VTA），在可卡因引发期间，表达盐视紫红质的D1 DR-或D2 DR-轴突末端将被激活复职这将确定NAc外壳MSN的DBS是否可以等同于神经活动总体而言，确定DBS影响可卡因寻求的具体机制将为未来可卡因成瘾的细胞和途径特异性治疗提供重要见解。