Dynamic encoding of valence by the anterior cingulate cortex in mice
Article (Faculty180)Overview
cited authors
- Goswamee, Priyodarshan; Saferin, Nilanjana; Ganguly, Kamalika; Shah, Radha; Seoane, Jorge S; Neifer, Kari L; Pearce, Robert A; Burkett, James P.
description
- <p><span>Fear is a double-edged sword: it supports survival based on learned associations between environmental cues and potential threats, but its dysregulation can lead to anxiety disorders and PTSD. Many studies have addressed the roles of the hippocampus and basolateral amygdala in the storage of the fear engram, but the role of the anterior cingulate cortex (ACC), especially during and immediately after fear acquisition, remains poorly defined. To address this gap, we longitudinally recorded ACC neuronal activity using single-photon calcium imaging in freely behaving adult male mice subjected to fear conditioning. Subjects acquired a conditioned freezing response to a tone cue (conditioned stimulus, CS) paired with light foot shocks (unconditioned stimulus, US), and ACC activity was monitored during cue pre-exposure, fear acquisition, fear recall, and fear extinction. Consistent with known functions of the ACC, neuronal responses were modulated by the US and by the novelty of the CS and US. Critically, both the number of CS-responsive neurons and the CS-associated population activity rose during acquisition, peaked during recall, and decreased throughout extinction. Neuronal populations responsive to the CS overlapped at a rate consistent with chance, suggesting that the ACC operates as a flexible integrative hub rather than containing stable engrams. Together, these findings indicate that ACC neuronal populations, but not engrams, represent novelty, pain, and the dynamic valence of a CS. Our findings are consistent with a model in which the ACC plays a role in threat appraisal and provides a learning signal that dynamically updates fear representations in other regions.</span></p>
authors
publication date
- 2025