Top-down control of flight by a non-canonical cortico-amygdala pathway

Chandrashekhar D. Borkar; Claire E. Stelly; Xin Fu; Maria Dorofeikova; Quan Son Eric Le; Rithvik Vutukuri; Catherine Vo; Alex Walker; Samhita Basavanhalli; Anh Duong; Erin Bean; Alexis Resendez; Jones G. Parker; Jeffrey G. Tasker; Jonathan P. Fadok

doi:10.1038/s41586-023-06912-w

Top-down control of flight by a non-canonical cortico-amygdala pathway

Chandrashekhar D. Borkar, Claire E. Stelly, Xin Fu, Maria Dorofeikova, Quan Son Eric Le, Rithvik Vutukuri, Catherine Vo, Alex Walker, Samhita Basavanhalli, Anh Duong, Erin Bean, Alexis Resendez, Jones G. Parker, Jeffrey G. Tasker, Jonathan P. Fadok^*

^*Corresponding author for this work

Neuroscience

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

Survival requires the selection of appropriate behaviour in response to threats, and dysregulated defensive reactions are associated with psychiatric illnesses such as post-traumatic stress and panic disorder¹. Threat-induced behaviours, including freezing and flight, are controlled by neuronal circuits in the central amygdala (CeA)²; however, the source of neuronal excitation of the CeA that contributes to high-intensity defensive responses is unknown. Here we used a combination of neuroanatomical mapping, in vivo calcium imaging, functional manipulations and electrophysiology to characterize a previously unknown projection from the dorsal peduncular (DP) prefrontal cortex to the CeA. DP-to-CeA neurons are glutamatergic and specifically target the medial CeA, the main amygdalar output nucleus mediating conditioned responses to threat. Using a behavioural paradigm that elicits both conditioned freezing and flight, we found that CeA-projecting DP neurons are activated by high-intensity threats in a context-dependent manner. Functional manipulations revealed that the DP-to-CeA pathway is necessary and sufficient for both avoidance behaviour and flight. Furthermore, we found that DP neurons synapse onto neurons within the medial CeA that project to midbrain flight centres. These results elucidate a non-canonical top-down pathway regulating defensive responses.

Original language	English (US)
Pages (from-to)	743-749
Number of pages	7
Journal	Nature
Volume	625
Issue number	7996
DOIs	https://doi.org/10.1038/s41586-023-06912-w
State	Published - Jan 25 2024

Funding

We thank B. Ahanonu for providing MATLAB codes and assistance with calcium imaging data analysis; and R. Mostany and S. Yun for help in standardization of calcium imaging and data analysis. This work was supported by the Louisiana Board of Regents through the Board of Regents support fund (LEQSF(2018-21)-RD-A-17) to J.P.F., the National Institute of Mental Health of the National Institutes of Health under award numbers R01MH122561 to J.P.F. and R01MH119283 to J.G.T., and the National Institute of Neurological Disorders and Stroke of the National Institutes of Health under award number R01NS122840 to J.G.P. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.

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title = "Top-down control of flight by a non-canonical cortico-amygdala pathway",

abstract = "Survival requires the selection of appropriate behaviour in response to threats, and dysregulated defensive reactions are associated with psychiatric illnesses such as post-traumatic stress and panic disorder 1. Threat-induced behaviours, including freezing and flight, are controlled by neuronal circuits in the central amygdala (CeA) 2; however, the source of neuronal excitation of the CeA that contributes to high-intensity defensive responses is unknown. Here we used a combination of neuroanatomical mapping, in vivo calcium imaging, functional manipulations and electrophysiology to characterize a previously unknown projection from the dorsal peduncular (DP) prefrontal cortex to the CeA. DP-to-CeA neurons are glutamatergic and specifically target the medial CeA, the main amygdalar output nucleus mediating conditioned responses to threat. Using a behavioural paradigm that elicits both conditioned freezing and flight, we found that CeA-projecting DP neurons are activated by high-intensity threats in a context-dependent manner. Functional manipulations revealed that the DP-to-CeA pathway is necessary and sufficient for both avoidance behaviour and flight. Furthermore, we found that DP neurons synapse onto neurons within the medial CeA that project to midbrain flight centres. These results elucidate a non-canonical top-down pathway regulating defensive responses.",

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AU - Borkar, Chandrashekhar D.

AU - Stelly, Claire E.

AU - Fu, Xin

AU - Dorofeikova, Maria

AU - Le, Quan Son Eric

AU - Vutukuri, Rithvik

AU - Vo, Catherine

AU - Walker, Alex

AU - Basavanhalli, Samhita

AU - Duong, Anh

AU - Bean, Erin

AU - Resendez, Alexis

AU - Parker, Jones G.

AU - Tasker, Jeffrey G.

AU - Fadok, Jonathan P.

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Top-down control of flight by a non-canonical cortico-amygdala pathway

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