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Fear learning induces synaptic potentiation between engram neurons in the rat lateral amygdala

Marios Abatis, Rodrigo Perin, Ruifang Niu, Erwin van den Burg, Chloe Hegoburu, Ryang Kim, Michiko Okamura, Haruhiko Bito, Henry Markram, Ron Stoop

2024Nature Neuroscience17 citationsDOIOpen Access PDF

Abstract

The lateral amygdala (LA) encodes fear memories by potentiating sensory inputs associated with threats and, in the process, recruits 10-30% of its neurons per fear memory engram. However, how the local network within the LA processes this information and whether it also plays a role in storing it are still largely unknown. Here, using ex vivo 12-patch-clamp and in vivo 32-electrode electrophysiological recordings in the LA of fear-conditioned rats, in combination with activity-dependent fluorescent and optogenetic tagging and recall, we identified a sparsely connected network between principal LA neurons that is organized in clusters. Fear conditioning specifically causes potentiation of synaptic connections between learning-recruited neurons. These findings of synaptic plasticity in an autoassociative excitatory network of the LA may suggest a basic principle through which a small number of pyramidal neurons could encode a large number of memories.

Topics & Concepts

NeuroscienceOptogeneticsLong-term potentiationFear conditioningAmygdalaExcitatory postsynaptic potentialEngramSynaptic plasticityFear processing in the brainPsychologyElectrophysiologyBiologyInhibitory postsynaptic potentialBiochemistryReceptorMemory and Neural MechanismsNeuroscience and Neuropharmacology ResearchNeuroendocrine regulation and behavior