扁桃形结构
神经科学
光刺激
谷氨酸的
丘脑
呼吸
生物神经网络
抗焦虑药
兴奋性突触后电位
光遗传学
核心
联轴节(管道)
运动前神经元活动
化学
抑制性突触后电位
生物
呼吸系统
神经元放电
呼吸频率
清醒
神经网络
神经元
心理学
局部场电位
神经活动
节奏
呼吸控制
中枢神经系统
作者
Shangyu Bi,Xiaoyi Wang,Huichun Luo,Ziteng Yue,Tianjiao Deng,Yuhang Liu,Xinxin Chen,jianxu Zhao,Luo Shi,Ning Ma,Lingyan Mao,J. Ding,Jiwen Xu,Ti-Fei Yuan,Sheng Wang,Fang Yuan
标识
DOI:10.1002/advs.202517477
摘要
Breathing rhythms bidirectionally modulate affective states, yet the underlying neural pathways remain elusive. Here, we identified an ascending neural circuit that integrates respiratory patterning with affective state in male mice. This circuit originates from glutamatergic neurons in the preBötzinger complex (preBötC), projecting to the paraventricular thalamic nucleus (PVT) and subsequently targeting the central amygdala (CeA). We reveal that photostimulation of the preBötC→PVT circuit significantly alleviates acute restraint stress-induced anxiety-like phenotypes and reduces respiratory frequency variability. Conversely, inhibition of this circuit exacerbates anxiety-like phenotypes and respiratory dysfunction. These effects are significantly abolished by inhibition or ablation of PVT neurons projecting to the CeA. Additionally, this anxiolytic effect is mediated by PVT projections that preferentially excite centrolateral amygdala neurons, thereby inhibiting centromedial amygdala output. Translating these findings, we show that volitional slow breathing reduces anxiety in healthy humans and suppresses anxiety-related beta/high-gamma oscillations in the amygdala of epilepsy patients. This work delineates a conserved respiratory-limbic circuit that mechanistically explains the anxiolytic effect of controlled breathing.
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