Aversive memory formation in humans involves an amygdala-hippocampus phase code

Costa, Manuela; Lozano-Soldevilla, Diego; Gil-Nagel, Antonio; Toledano, Rafael; Oehrn, Carina R.; Kunz, Lukas; Yebra, Mar; Mendez-Bertolo, Costantino; Stieglitz, Lennart; Sarnthein, Johannes; Axmacher, Nikolai; Moratti, Stephan; Strange, Bryan A.

Aversive memory formation in humans involves an amygdala-hippocampus phase code

Manuela Costa (), Diego Lozano-Soldevilla, Antonio Gil-Nagel, Rafael Toledano, Carina R. Oehrn, Lukas Kunz, Mar Yebra, Costantino Mendez-Bertolo, Lennart Stieglitz, Johannes Sarnthein, Nikolai Axmacher, Stephan Moratti and Bryan A. Strange ()
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Manuela Costa: Universidad Politécnica de Madrid, IdISSC
Diego Lozano-Soldevilla: Universidad Politécnica de Madrid, IdISSC
Antonio Gil-Nagel: Hospital Ruber Internacional
Rafael Toledano: Hospital Ruber Internacional
Carina R. Oehrn: University of California
Lukas Kunz: Columbia University
Mar Yebra: Universidad Politécnica de Madrid, IdISSC
Costantino Mendez-Bertolo: Universidad Politécnica de Madrid, IdISSC
Lennart Stieglitz: University Hospital Zurich, University of Zurich
Johannes Sarnthein: University Hospital Zurich, University of Zurich
Nikolai Axmacher: Ruhr University Bochum
Stephan Moratti: Universidad Politécnica de Madrid, IdISSC
Bryan A. Strange: Universidad Politécnica de Madrid, IdISSC

Nature Communications, 2022, vol. 13, issue 1, 1-16

Abstract: Abstract Memory for aversive events is central to survival but can become maladaptive in psychiatric disorders. Memory enhancement for emotional events is thought to depend on amygdala modulation of hippocampal activity. However, the neural dynamics of amygdala-hippocampal communication during emotional memory encoding remain unknown. Using simultaneous intracranial recordings from both structures in human patients, here we show that successful emotional memory encoding depends on the amygdala theta phase to which hippocampal gamma activity and neuronal firing couple. The phase difference between subsequently remembered vs. not-remembered emotional stimuli translates to a time period that enables lagged coherence between amygdala and downstream hippocampal gamma. These results reveal a mechanism whereby amygdala theta phase coordinates transient amygdala -hippocampal gamma coherence to facilitate aversive memory encoding. Pacing of lagged gamma coherence via amygdala theta phase may represent a general mechanism through which the amygdala relays emotional content to distant brain regions to modulate other aspects of cognition, such as attention and decision-making.

Date: 2022
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DOI: 10.1038/s41467-022-33828-2

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