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Extended amygdala-parabrachial circuits alter threat assessment and regulate feeding

Andrew T. Luskin, Dionnet L. Bhatti, Bernard Mulvey, Christian E. Pedersen, Kasey S. Girven, Hannah Oden-Brunson, Kate Kimbell, Taylor Blackburn, Abbie Sawyer, Robert W. Gereau, Joseph D. Dougherty, Michael R. Bruchas

2021Science Advances66 citationsDOIOpen Access PDF

Abstract

An animal's evolutionary success depends on the ability to seek and consume foods while avoiding environmental threats. However, how evolutionarily conserved threat detection circuits modulate feeding is unknown. In mammals, feeding and threat assessment are strongly influenced by the parabrachial nucleus (PBN), a structure that responds to threats and inhibits feeding. Here, we report that the PBN receives dense inputs from two discrete neuronal populations in the bed nucleus of the stria terminalis (BNST), an extended amygdala structure that encodes affective information. Using a series of complementary approaches, we identify opposing BNST-PBN circuits that modulate neuropeptide-expressing PBN neurons to control feeding and affective states. These previously unrecognized neural circuits thus serve as potential nodes of neural circuitry critical for the integration of threat information with the intrinsic drive to feed.

Topics & Concepts

AmygdalaParabrachial NucleusNeuroscienceBrainstemFeeding behaviorBiological neural networkNeuronal circuitsPsychologyComputer scienceBiologyEndocrinologyMemory and Neural MechanismsSleep and Wakefulness ResearchNeuroendocrine regulation and behavior