Intercalated amygdala dysfunction drives avoidance extinction deficits in the Sapap3 mouse model of obsessive-compulsive disorder.

IF 9.6 1区 医学 Q1 NEUROSCIENCES
Robyn St Laurent, Kelly M Kusche, Ben Rein, Kendall B Raymond, Anatol C Kreitzer, Robert C Malenka
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引用次数: 0

Abstract

Background: The avoidance of aversive stimuli through negative reinforcement learning is critical for survival in real-world environments, which demand dynamic responding to both positive and negative stimuli that often conflict with each other. Individuals with obsessive-compulsive disorder (OCD) commonly exhibit impaired negative reinforcement and extinction, perhaps involving deficits in amygdala functioning. An amygdala subregion of particular interest is the intercalated nuclei of the amygdala (ITC) which has been linked to negative reinforcement and extinction, with distinct clusters mediating separate aspects of behavior. This study focuses on the dorsal ITC cluster (ITCd) and its role in negative reinforcement during a complex behavior that models real-world dynamic decision making.

Methods: We investigated the impact of ITCd function on negative reinforcement and extinction by applying fiber photometry measurement of GCamp6f signals and optogenetic manipulations during a platform-mediated avoidance task in a mouse model of OCD-like behavior: the Sapap3-null mouse.

Results: We find impaired neural activity in the ITCd of male and female Sapap3-null mice to the encoding of negative stimuli during platform-mediated avoidance. Sapap3-null mice also exhibit deficits in extinction of avoidant behavior, which is modulated by ITCd neural activity.

Conclusions: Sapap3-null mice fail to extinguish avoidant behavior in platform-mediated avoidance, due to heightened ITCd activity. This deficit can be rescued by optogenetically inhibiting ITCd during extinction. Together, our results provide insight into the neural mechanisms underpinning negative reinforcement deficits in the context of OCD, emphasizing the necessity of ITCd in responding to negative stimuli in complex environments.

Sapap3强迫症小鼠模型的杏仁核间功能障碍导致回避消退障碍。
背景通过负强化学习避免厌恶性刺激对于在现实世界环境中生存至关重要,因为现实世界需要对经常相互冲突的积极和消极刺激做出动态反应。强迫症(OCD)患者通常表现出负性强化和消退功能受损,这可能与杏仁核功能缺陷有关。杏仁核闰核(ITC)是一个特别值得关注的杏仁核亚区,它与负强化和消退有关,不同的簇介导着不同方面的行为。本研究的重点是ITC背侧核团(ITCd)及其在模拟真实世界动态决策的复杂行为中的负强化作用:方法:我们通过纤维光度测量法测量 GCamp6f 信号,并在强迫症样行为小鼠模型(Sapap3-null 小鼠)的平台介导的回避任务中进行光遗传操作,研究了 ITCd 功能对负强化和消退的影响:结果:我们发现,在平台介导的回避过程中,雌雄 Sapap3-null小鼠的ITCd中编码负刺激的神经活动受损。Sapap3-null小鼠在回避行为的消退方面也表现出缺陷,而这种缺陷受ITCd神经活动的调节:结论:由于ITCd活性增强,Sapap3缺失小鼠在平台介导的回避中无法熄灭回避行为。这种缺陷可以通过在熄灭过程中光遗传学抑制 ITCd 而得到挽救。总之,我们的研究结果让我们深入了解了强迫症负强化缺陷的神经机制,强调了ITCd在复杂环境中对负刺激做出反应的必要性。
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来源期刊
Biological Psychiatry
Biological Psychiatry 医学-精神病学
CiteScore
18.80
自引率
2.80%
发文量
1398
审稿时长
33 days
期刊介绍: Biological Psychiatry is an official journal of the Society of Biological Psychiatry and was established in 1969. It is the first journal in the Biological Psychiatry family, which also includes Biological Psychiatry: Cognitive Neuroscience and Neuroimaging and Biological Psychiatry: Global Open Science. The Society's main goal is to promote excellence in scientific research and education in the fields related to the nature, causes, mechanisms, and treatments of disorders pertaining to thought, emotion, and behavior. To fulfill this mission, Biological Psychiatry publishes peer-reviewed, rapid-publication articles that present new findings from original basic, translational, and clinical mechanistic research, ultimately advancing our understanding of psychiatric disorders and their treatment. The journal also encourages the submission of reviews and commentaries on current research and topics of interest.
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