A neural circuit associated with anxiety‐like behaviors induced by chronic inflammatory pain and the anxiolytic effects of electroacupuncture
Zemin Wu, Zui Shen, Yingling Xu, Shaozong Chen, Siqi Xiao, Jiayu Ye, Haiyan Zhang, Xinyi Ma, Yichen Zhu, Xixiao Zhu, Yong‐Liang Jiang, Junfan Fang, Junfan Fang, Boyi Liu, Xiaofen He, Shuzhong Gao, Xiaomei Shao, Jinggen Liu, Jianqiao Fang, Jianqiao Fang
Abstract
Abstract Aims Negative emotions induced by chronic pain are a serious clinical problem. Electroacupuncture (EA) is a clinically proven safe and effective method to manage pain‐related negative emotions. However, the circuit mechanisms underlying the effect of EA treatment on negative emotions remain unclear. Methods Plantar injection of complete Freund's adjuvant (CFA) was performed to establish a rat model of chronic inflammatory pain‐induced anxiety‐like behaviors. Adeno‐associated virus (AAV) tracing was used to identify excitatory synaptic transmission from the rostral anterior cingulate cortex (rACC) to the dorsal raphe nucleus (DRN). Employing chemogenetic approaches, we examined the role of the rACC‐DRN circuit in chronic pain‐induced anxiety‐like behaviors and investigated whether EA could reverse chronic pain‐induced dysfunctions of the rACC‐DRN circuit and anxiety‐like behaviors. Results We found that chemogenetic activation of the rACC‐DRN circuit alleviated CFA‐induced anxiety‐like behaviors, while chemogenetic inhibition of the rACC‐DRN circuit resulted in short‐term CFA‐induced anxiety‐like behaviors. Further research revealed that the development of CFA‐induced anxiety‐like behaviors was attributed to the dysfunction of rACC CaMKII neurons projecting to DRN serotonergic neurons (rACC CaMKII ‐DRN 5‐HT neurons) but not rACC CaMKII neurons projecting to DRN GABAergic neurons (rACC CaMKII ‐DRN GABA neurons). This is supported by the findings that chemogenetic activation of the rACC CaMKII ‐DRN 5‐HT circuit alleviates anxiety‐like behaviors in rats with chronic pain, whereas neither chemogenetic inhibition nor chemogenetic activation of the rACC CaMKII ‐DRN GABA circuit altered CFA chronic pain‐evoked anxiety‐like behaviors in rats. More importantly, we found that EA could reverse chronic pain‐induced changes in the activity of rACC CaMKII neurons and DRN 5‐HTergic neurons and that chemogenetic inhibition of the rACC CaMKII ‐DRN 5‐HT circuit blocked the therapeutic effects of EA on chronic pain‐induced anxiety‐like behaviors. Conclusions Our data suggest that the reversal of rACC CaMKII ‐DRN 5‐HT circuit dysfunction may be a mechanism underlying the therapeutic effect of EA on chronic pain‐induced anxiety‐like behaviors.