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Dopamine modulates visual threat processing in the superior colliculus via D2 receptors

Quentin Montardy, Zheng Zhou, Lei Li, Qingning Yang, Zhuogui Lei, Xiaolong Feng, Shanping Chen, Qianqian Shi, Huiqi Zhang, Shuran Chen, Zhijian Zhang, Binghao Zhao, Fuqiang Xu, Zhonghua Lu, Liping Wang

2022iScience15 citationsDOIOpen Access PDF

Abstract

Innate defensive responses, unlearned behaviors improving individuals' chances of survival, have been found to involve the dopamine (DA) system. In the superior colliculus (SC), known for its role in defensive behaviors to visual threats, neurons expressing dopaminergic receptors of type 1 (Drd1+) and of type 2 (Drd2+) have been identified. We hypothesized that SC neurons expressing dopaminergic receptors may play a role in promoting innate defensive responses. Optogenetic activation of SC Drd2+ neurons, but not Drd1+ neurons, triggered defensive behaviors. Chemogenetic inhibition of SC Drd2+ neurons decreased looming-induced defensive behaviors, as well as pretreatment with the pharmacological Drd2+ agonist quinpirole, suggesting an essential role of Drd2 receptors in the regulation of innate defensive behavior. Input and output viral tracing revealed SC Drd2+ neurons mainly receive moderate inputs from the locus coeruleus (LC). Our results suggest a sophisticated regulatory role of DA and its receptor system in innate defensive behavior.

Topics & Concepts

NeuroscienceDopaminergicQuinpiroleDopamineOptogeneticsReceptorDopamine receptor D2AgonistDopamine receptorSuperior colliculusBiologyLocus coeruleusCentral nervous systemBiochemistryOlfactory and Sensory Function StudiesNicotinic Acetylcholine Receptors StudyNeuroscience and Neuropharmacology Research