Decreased Ventral Tegmental Area CB1R Signaling Reduces Sign Tracking and Shifts Cue–Outcome Dynamics in Rat Nucleus Accumbens

Sam Z. Bacharach, David A. Martin, Cassie A. Stapf, Fangmiao Sun, Yulong Li, J. Cheer, Donna J. Calu
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Abstract

Sign-tracking (ST) rats show enhanced cue sensitivity before drug experience that predicts greater discrete cue-induced drug seeking compared with goal-tracking or intermediate rats. Cue-evoked dopamine in the nucleus accumbens (NAc) is a neurobiological signature of sign-tracking behaviors. Here, we examine a critical regulator of the dopamine system, endocannabinoids, which bind the cannabinoid receptor-1 (CB1R) in the ventral tegmental area (VTA) to control cue-evoked striatal dopamine levels. We use cell type-specific optogenetics, intra-VTA pharmacology, and fiber photometry to test the hypothesis that VTA CB1R receptor signaling regulates NAc dopamine levels to control sign tracking. We trained male and female rats in a Pavlovian lever autoshaping (PLA) task to determine their tracking groups before testing the effect of VTA → NAc dopamine inhibition. We found that this circuit is critical for mediating the vigor of the ST response. Upstream of this circuit, intra-VTA infusions of rimonabant, a CB1R inverse agonist, during PLA decrease lever and increase food cup approach in sign-trackers. Using fiber photometry to measure fluorescent signals from a dopamine sensor, GRABDA (AAV9-hSyn-DA2m), we tested the effects of intra-VTA rimonabant on NAc dopamine dynamics during autoshaping in female rats. We found that intra-VTA rimonabant decreased sign-tracking behaviors, which was associated with increases in NAc shell, but not core, dopamine levels during reward delivery [unconditioned stimulus (US)]. Our results suggest that CB1R signaling in the VTA influences the balance between the conditioned stimulus-evoked and US-evoked dopamine responses in the NAc shell and biases behavioral responding to cues in sign-tracking rats. SIGNIFICANCE STATEMENT Substance use disorder (SUD) is a chronically relapsing psychological disorder that affects a subset of individuals who engage in drug use. Recent research suggests that there are individual behavioral and neurobiological differences before drug experience that predict SUD and relapse vulnerabilities. Here, we investigate how midbrain endocannabinoids regulate a brain pathway that is exclusively involved in driving cue-motivated behaviors of sign-tracking rats. This work contributes to our mechanistic understanding of individual vulnerabilities to cue-triggered natural reward seeking that have relevance for drug-motivated behaviors.
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腹侧被盖区CB1R信号的减少减少了信号跟踪并改变了大鼠伏隔核的线索-结果动力学
与目标跟踪大鼠或中间大鼠相比,信号跟踪大鼠在药物体验前表现出增强的线索敏感性,预测更大的离散线索诱导的药物寻找。伏隔核(NAc)的线索诱发多巴胺是信号跟踪行为的神经生物学特征。在这里,我们研究了多巴胺系统的一个关键调节因子,内源性大麻素,它结合腹侧被盖区(VTA)的大麻素受体-1 (CB1R)来控制线索诱发的纹状体多巴胺水平。我们使用细胞类型特异性光遗传学,VTA内药理学和纤维光度法来验证VTA CB1R受体信号调节NAc多巴胺水平以控制信号跟踪的假设。在测试VTA→NAc多巴胺抑制的效果之前,我们在巴甫洛夫杠杆自动塑造(PLA)任务中训练雄性和雌性大鼠,以确定它们的跟踪组。我们发现这个回路对于调节ST反应的活力至关重要。在该回路的上游,在信号追踪器的PLA降低水平和增加食物杯方法中,在vta内输注利莫那班(一种CB1R逆激动剂)。利用纤维光度法测量多巴胺传感器GRABDA (AAV9-hSyn-DA2m)的荧光信号,我们测试了vta内利莫那班对雌性大鼠自动成型过程中NAc多巴胺动态的影响。我们发现,vta内利莫那班减少了信号跟踪行为,这与奖励传递过程中NAc壳(而非核心)多巴胺水平的增加有关[非条件刺激(US)]。我们的研究结果表明,VTA中的CB1R信号影响了NAc壳中条件刺激诱发和美国诱发的多巴胺反应之间的平衡,并影响了信号追踪大鼠对线索的行为反应。物质使用障碍(SUD)是一种慢性复发的心理障碍,影响了一部分从事药物使用的个体。最近的研究表明,在药物经历之前存在个体行为和神经生物学差异,可以预测SUD和复发的脆弱性。在这里,我们研究了中脑内源性大麻素如何调节一个专门参与驱动信号跟踪大鼠的线索动机行为的脑通路。这项工作有助于我们对线索触发的自然奖励寻求与药物动机行为相关的个体脆弱性的机制理解。
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