终纹
光遗传学
神经科学
扁桃形结构
背景(考古学)
谷氨酸的
加巴能
杏仁核
生物
谷氨酸受体
受体
抑制性突触后电位
生物化学
古生物学
作者
Yi Zhu,Shi-Ze Xie,Ai-Bing Peng,Xiaodan Yu,Chunyue Li,Jiayu Fu,C. Shen,Shu-Xia Cao,Ying Zhang,Jiadong Chen,Xiao‐Ming Li
标识
DOI:10.1016/j.biopsych.2023.08.022
摘要
Background The ability to differentiate stimuli that predict fear is critical for survival; however, the underlying molecular and circuit mechanisms remain poorly understood. Methods We combined transgenic mice, in vivo transsynaptic circuit-dissecting anatomical approaches, optogenetics, pharmacological methods, and electrophysiological recording to investigate the involvement of specific extended amygdala circuits in different fear memory. Results We identified the projections from central lateral amygdala (CeL) protein kinase C δ (PKCδ)–positive neurons and somatostatin (SST)-positive neurons to GABAergic (gamma-aminobutyric acidergic) and glutamatergic neurons in the ventral part of the bed nucleus of stria terminalis (vBNST). Prolonged optogenetic activation or inhibition of the PKCδCeL-vBNST pathway specifically reduced context fear memory, whereas the SSTCeL-vBNST pathway mainly reduced tone fear memory. Intriguingly, optogenetic manipulation of vBNST neurons that received the projection from PKCδCeL neurons exerted bidirectional regulation of context fear, whereas manipulation of vBNST neurons that received the projection from SSTCeL neurons could bidirectionally regulate both context and tone fear memory. We subsequently demonstrated the presence of δ and κ opioid receptor protein expression within the CeL-vBNST circuits, potentially accounting for the discrepancy between prolonged activation of GABAergic circuits and inhibition of downstream vBNST neurons. Finally, administration of an opioid receptor antagonist cocktail on the PKCδCeL-vBNST or SSTCeL-vBNST pathway successfully restored context or tone fear memory reduction induced by prolonged activation of the circuits. Conclusions Together, these findings establish a functional role for distinct CeL-vBNST circuits in the differential regulation and appropriate maintenance of fear.
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