Dopamine release and dopamine-related gene expression in the amygdala are modulated by the gastrin-releasing peptide in opposite directions during stress-enhanced fear learning and extinction

IF 9.6 1区 医学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY
Yoshikazu Morishita, Ileana Fuentes, Sofia Gonzalez-Salinas, John Favate, Jennifer Mejaes, Ko Zushida, Akinori Nishi, Charles Hevi, Noriko Goldsmith, Steve Buyske, Stephanie E. Sillivan, Courtney A. Miller, Eric R. Kandel, Shusaku Uchida, Premal Shah, Juan Marcos Alarcon, David J. Barker, Gleb P. Shumyatsky
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Abstract

Fear extinction leads to a decrease of originally acquired fear responses after the threat is no longer present. Fear extinction is adaptive and critical for organism’s survival, but deficits in extinction may lead to exaggerated fear in animals or post-traumatic stress disorder (PTSD) in humans. Dopamine has recently emerged as essential for fear extinction and PTSD, however the neural circuits serving this dopamine function are only beginning to be investigated, and the dopamine intracellular signaling pathways are unknown. We generated gastrin-releasing peptide gene knockout (Grp-/-) mice and found that they exhibit enhanced fear memory in a stress-enhanced fear learning (SEFL) paradigm, which combines stress exposure and fear extinction, two features critical for developing PTSD. Using in vivo fiber photometry to record dopamine signals, we found that the susceptibility of Grp-/- mice to SEFL is paralleled by an increase in basolateral amygdala (BLA) dopaminergic binding during fear conditioning and early extinction. Combined optogenetics and ex vivo electrophysiology showed an increase in presynaptic ventral tegmental area (VTA)-BLA connectivity in Grp-/- mice, demonstrating a role of dysregulated input from the VTA on BLA function in the absence of the GRP. When examining gene transcription using RNA-seq and qPCR, we discovered concerted down-regulation in dopamine-related genes in the BLA of Grp-/- mice following long-term SEFL memory recall that was not observed in naïve conditions. These experiments demonstrate that the GRP regulates dopamine function in stress-enhanced fear processing and identify the Grp as the first gene known to regulate dopaminergic control of fear extinction.

Abstract Image

杏仁核中多巴胺的释放和多巴胺相关基因的表达在应激增强的恐惧学习和消退过程中受胃泌素释放肽的调节,两者方向相反
恐惧消减是指当威胁不再存在时,原先习得的恐惧反应会减少。恐惧消退对生物的生存具有适应性和关键性,但恐惧消退的缺陷可能导致动物的过度恐惧或人类的创伤后应激障碍(PTSD)。多巴胺最近被认为是消除恐惧和创伤后应激障碍的必要物质,但人们对多巴胺功能的神经回路的研究才刚刚开始,多巴胺的细胞内信号传导途径也尚不清楚。我们产生了胃泌素释放肽基因敲除(Grp-/-)小鼠,发现它们在应激增强恐惧学习(SEFL)范式中表现出增强的恐惧记忆,该范式结合了应激暴露和恐惧消退这两个对创伤后应激障碍发展至关重要的特征。利用体内纤维光度计记录多巴胺信号,我们发现 Grp-/- 小鼠对 SEFL 的易感性与恐惧条件反射和早期消退过程中杏仁基底外侧(BLA)多巴胺能结合的增加并行不悖。结合光遗传学和体外电生理学研究发现,GRP-/-小鼠突触前腹侧被盖区(VTA)-BLA连接性增加,这表明在缺乏GRP的情况下,来自VTA的输入失调对BLA功能的影响。在使用RNA-seq和qPCR检测基因转录时,我们发现Grp-/-小鼠在进行长期SEFL记忆回忆后,BLA中的多巴胺相关基因出现了一致的下调,而这在天真状态下是观察不到的。这些实验证明,GRP 在应激增强的恐惧处理过程中调节多巴胺功能,并确定 Grp 是第一个已知调节多巴胺能控制恐惧消退的基因。
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来源期刊
Molecular Psychiatry
Molecular Psychiatry 医学-精神病学
CiteScore
20.50
自引率
4.50%
发文量
459
审稿时长
4-8 weeks
期刊介绍: Molecular Psychiatry focuses on publishing research that aims to uncover the biological mechanisms behind psychiatric disorders and their treatment. The journal emphasizes studies that bridge pre-clinical and clinical research, covering cellular, molecular, integrative, clinical, imaging, and psychopharmacology levels.
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