Reward and aversion processing by input-defined parallel nucleus accumbens circuits in mice

Kuikui Zhou; Hua Xu; Shanshan Lu; Shaolei Jiang; Guoqiang Hou; Xiaofei Deng; Miao He; Yingjie Zhu

doi:10.1038/s41467-022-33843-3

Reward and aversion processing by input-defined parallel nucleus accumbens circuits in mice

Kuikui Zhou
, Hua Xu
, Shanshan Lu
, Shaolei Jiang
, Guoqiang Hou
, Xiaofei Deng
, Miao He
, Yingjie Zhu

生命科学与健康学院

Shenzhen Institute of Advanced Technology
University of Chinese Academy of Sciences
University of Shanghai for Science and Technology
Fudan University
Chinese Academy of Sciences

科研成果: 期刊稿件 › 文章 › 同行评审

81 引用（Scopus）

摘要

The nucleus accumbens (NAc) is critical in mediating reward seeking and is also involved in negative emotion processing, but the cellular and circuitry mechanisms underlying such opposing behaviors remain elusive. Here, using the recently developed AAV1-mediated anterograde transsynaptic tagging technique in mice, we show that NAc neurons receiving basolateral amygdala inputs (NAc^BLA) promote positive reinforcement via disinhibiting dopamine neurons in the ventral tegmental area (VTA). In contrast, NAc neurons receiving paraventricular thalamic inputs (NAc^PVT) innervate GABAergic neurons in the lateral hypothalamus (LH) and mediate aversion. Silencing the synaptic output of NAc^BLA neurons impairs reward seeking behavior, while silencing of NAc^PVT or NAc^PVT→LH pathway abolishes aversive symptoms of opiate withdrawal. Our results elucidate the afferent-specific circuit architecture of the NAc in controlling reward and aversion.

源语言	英语
文章编号	6244
期刊	Nature Communications
卷	13
期	1
DOI	https://doi.org/10.1038/s41467-022-33843-3
出版状态	已出版 - 12月 2022

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abstract = "The nucleus accumbens (NAc) is critical in mediating reward seeking and is also involved in negative emotion processing, but the cellular and circuitry mechanisms underlying such opposing behaviors remain elusive. Here, using the recently developed AAV1-mediated anterograde transsynaptic tagging technique in mice, we show that NAc neurons receiving basolateral amygdala inputs (NAcBLA) promote positive reinforcement via disinhibiting dopamine neurons in the ventral tegmental area (VTA). In contrast, NAc neurons receiving paraventricular thalamic inputs (NAcPVT) innervate GABAergic neurons in the lateral hypothalamus (LH) and mediate aversion. Silencing the synaptic output of NAcBLA neurons impairs reward seeking behavior, while silencing of NAcPVT or NAcPVT→LH pathway abolishes aversive symptoms of opiate withdrawal. Our results elucidate the afferent-specific circuit architecture of the NAc in controlling reward and aversion.",

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AU - Zhou, Kuikui

AU - Xu, Hua

AU - Lu, Shanshan

AU - Jiang, Shaolei

AU - Hou, Guoqiang

AU - Deng, Xiaofei

AU - He, Miao

AU - Zhu, Yingjie

PY - 2022/12

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N2 - The nucleus accumbens (NAc) is critical in mediating reward seeking and is also involved in negative emotion processing, but the cellular and circuitry mechanisms underlying such opposing behaviors remain elusive. Here, using the recently developed AAV1-mediated anterograde transsynaptic tagging technique in mice, we show that NAc neurons receiving basolateral amygdala inputs (NAcBLA) promote positive reinforcement via disinhibiting dopamine neurons in the ventral tegmental area (VTA). In contrast, NAc neurons receiving paraventricular thalamic inputs (NAcPVT) innervate GABAergic neurons in the lateral hypothalamus (LH) and mediate aversion. Silencing the synaptic output of NAcBLA neurons impairs reward seeking behavior, while silencing of NAcPVT or NAcPVT→LH pathway abolishes aversive symptoms of opiate withdrawal. Our results elucidate the afferent-specific circuit architecture of the NAc in controlling reward and aversion.

AB - The nucleus accumbens (NAc) is critical in mediating reward seeking and is also involved in negative emotion processing, but the cellular and circuitry mechanisms underlying such opposing behaviors remain elusive. Here, using the recently developed AAV1-mediated anterograde transsynaptic tagging technique in mice, we show that NAc neurons receiving basolateral amygdala inputs (NAcBLA) promote positive reinforcement via disinhibiting dopamine neurons in the ventral tegmental area (VTA). In contrast, NAc neurons receiving paraventricular thalamic inputs (NAcPVT) innervate GABAergic neurons in the lateral hypothalamus (LH) and mediate aversion. Silencing the synaptic output of NAcBLA neurons impairs reward seeking behavior, while silencing of NAcPVT or NAcPVT→LH pathway abolishes aversive symptoms of opiate withdrawal. Our results elucidate the afferent-specific circuit architecture of the NAc in controlling reward and aversion.

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Reward and aversion processing by input-defined parallel nucleus accumbens circuits in mice

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