Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior

Haitao Wang; Jiahui Chen; Xiaotong Xu; Wen-Jian Sun; Xi Chen; Fei Zhao; Min-Hua Luo; Chunhua Liu; Yiping Guo; Wen Xie; Hui Zhong; Tongjian Bai; Yanghua Tian; Yu Mao; Chonghuan Ye; Wenjuan Tao; Jie Li; Zahra Farzinpour; Juan Li; Jiang-Ning Zhou; Kai Wang; Jufang He; Lin Chen; Zhi Zhang

doi:10.1371/journal.pbio.3000417

Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior

Haitao Wang, Jiahui Chen, Xiaotong Xu, Wen-Jian Sun, Xi Chen, Fei Zhao, Min-Hua Luo, Chunhua Liu, Yiping Guo, Wen Xie, Hui Zhong, Tongjian Bai, Yanghua Tian, Yu Mao, Chonghuan Ye, Wenjuan Tao, Jie Li, Zahra Farzinpour, Juan Li, Jiang-Ning ZhouKai Wang, Jufang He, Lin Chen^*, Zhi Zhang^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

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Abstract

Threatening sounds can elicit a series of defensive behavioral reactions in animals for survival, but the underlying neural substrates are not fully understood. Here, we demonstrate a previously unexplored neural pathway in mice that projects directly from the auditory cortex (ACx) to the lateral periaqueductal gray (lPAG) and controls noise-evoked defensive behaviors. Electrophysiological recordings showed that the lPAG could be excited by a loud noise that induced an escape-like behavior. Trans-synaptic viral tracing showed that a great number of glutamatergic neurons, rather than GABAergic neurons, in the lPAG were directly innervated by those in layer V of the ACx. Activation of this pathway by optogenetic manipulations produced a behavior in mice that mimicked the noise-evoked escape, whereas inhibition of the pathway reduced this behavior. Therefore, our newly identified descending pathway is a novel neural substrate for noise-evoked escape and is involved in controlling the threat-related behavior.

Original language	English
Pages (from-to)	e3000417
Journal	PLoS Biology
Volume	17
Issue number	8
Online published	30 Aug 2019
DOIs	https://doi.org/10.1371/journal.pbio.3000417
Publication status	Published - Aug 2019

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This full text is made available under CC-BY 4.0. https://creativecommons.org/licenses/by/4.0/

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Wang, H., Chen, J., Xu, X., Sun, W.-J., Chen, X., Zhao, F., Luo, M.-H., Liu, C., Guo, Y., Xie, W., Zhong, H., Bai, T., Tian, Y., Mao, Y., Ye, C., Tao, W., Li, J., Farzinpour, Z., Li, J., ... Zhang, Z. (2019). Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior. PLoS Biology, 17(8), e3000417. https://doi.org/10.1371/journal.pbio.3000417

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title = "Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior",

abstract = "Threatening sounds can elicit a series of defensive behavioral reactions in animals for survival, but the underlying neural substrates are not fully understood. Here, we demonstrate a previously unexplored neural pathway in mice that projects directly from the auditory cortex (ACx) to the lateral periaqueductal gray (lPAG) and controls noise-evoked defensive behaviors. Electrophysiological recordings showed that the lPAG could be excited by a loud noise that induced an escape-like behavior. Trans-synaptic viral tracing showed that a great number of glutamatergic neurons, rather than GABAergic neurons, in the lPAG were directly innervated by those in layer V of the ACx. Activation of this pathway by optogenetic manipulations produced a behavior in mice that mimicked the noise-evoked escape, whereas inhibition of the pathway reduced this behavior. Therefore, our newly identified descending pathway is a novel neural substrate for noise-evoked escape and is involved in controlling the threat-related behavior.",

author = "Haitao Wang and Jiahui Chen and Xiaotong Xu and Wen-Jian Sun and Xi Chen and Fei Zhao and Min-Hua Luo and Chunhua Liu and Yiping Guo and Wen Xie and Hui Zhong and Tongjian Bai and Yanghua Tian and Yu Mao and Chonghuan Ye and Wenjuan Tao and Jie Li and Zahra Farzinpour and Juan Li and Jiang-Ning Zhou and Kai Wang and Jufang He and Lin Chen and Zhi Zhang",

year = "2019",

month = aug,

doi = "10.1371/journal.pbio.3000417",

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Wang, H, Chen, J, Xu, X, Sun, W-J , Chen, X, Zhao, F, Luo, M-H, Liu, C, Guo, Y, Xie, W, Zhong, H, Bai, T, Tian, Y, Mao, Y, Ye, C, Tao, W, Li, J, Farzinpour, Z, Li, J, Zhou, J-N, Wang, K, He, J, Chen, L & Zhang, Z 2019, 'Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior', PLoS Biology, vol. 17, no. 8, pp. e3000417. https://doi.org/10.1371/journal.pbio.3000417

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T1 - Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior

AU - Wang, Haitao

AU - Chen, Jiahui

AU - Xu, Xiaotong

AU - Sun, Wen-Jian

AU - Chen, Xi

AU - Zhao, Fei

AU - Luo, Min-Hua

AU - Liu, Chunhua

AU - Guo, Yiping

AU - Xie, Wen

AU - Zhong, Hui

AU - Bai, Tongjian

AU - Tian, Yanghua

AU - Mao, Yu

AU - Ye, Chonghuan

AU - Tao, Wenjuan

AU - Li, Jie

AU - Farzinpour, Zahra

AU - Li, Juan

AU - Zhou, Jiang-Ning

AU - Wang, Kai

AU - He, Jufang

AU - Chen, Lin

AU - Zhang, Zhi

PY - 2019/8

Y1 - 2019/8

N2 - Threatening sounds can elicit a series of defensive behavioral reactions in animals for survival, but the underlying neural substrates are not fully understood. Here, we demonstrate a previously unexplored neural pathway in mice that projects directly from the auditory cortex (ACx) to the lateral periaqueductal gray (lPAG) and controls noise-evoked defensive behaviors. Electrophysiological recordings showed that the lPAG could be excited by a loud noise that induced an escape-like behavior. Trans-synaptic viral tracing showed that a great number of glutamatergic neurons, rather than GABAergic neurons, in the lPAG were directly innervated by those in layer V of the ACx. Activation of this pathway by optogenetic manipulations produced a behavior in mice that mimicked the noise-evoked escape, whereas inhibition of the pathway reduced this behavior. Therefore, our newly identified descending pathway is a novel neural substrate for noise-evoked escape and is involved in controlling the threat-related behavior.

AB - Threatening sounds can elicit a series of defensive behavioral reactions in animals for survival, but the underlying neural substrates are not fully understood. Here, we demonstrate a previously unexplored neural pathway in mice that projects directly from the auditory cortex (ACx) to the lateral periaqueductal gray (lPAG) and controls noise-evoked defensive behaviors. Electrophysiological recordings showed that the lPAG could be excited by a loud noise that induced an escape-like behavior. Trans-synaptic viral tracing showed that a great number of glutamatergic neurons, rather than GABAergic neurons, in the lPAG were directly innervated by those in layer V of the ACx. Activation of this pathway by optogenetic manipulations produced a behavior in mice that mimicked the noise-evoked escape, whereas inhibition of the pathway reduced this behavior. Therefore, our newly identified descending pathway is a novel neural substrate for noise-evoked escape and is involved in controlling the threat-related behavior.

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JO - PLoS Biology

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Direct auditory cortical input to the lateral periaqueductal gray controls sound-driven defensive behavior

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