Neuron
Volume 80, Issue 4, 20 November 2013, Pages 1054-1065
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Article
Fear Extinction Causes Target-Specific Remodeling of Perisomatic Inhibitory Synapses

https://doi.org/10.1016/j.neuron.2013.07.047Get rights and content
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Highlights

  • Contextual fear extinction silences basal amygdala fear neurons

  • Perisomatic parvalbumin around silent fear neurons is increased after extinction

  • Perisomatic CB1 receptors around active fear neurons are increased after extinction

  • Behavior can cause target-specific remodeling of perisomatic inhibitory synapses

Summary

A more complete understanding of how fear extinction alters neuronal activity and connectivity within fear circuits may aid in the development of strategies to treat human fear disorders. Using a c-fos-based transgenic mouse, we found that contextual fear extinction silenced basal amygdala (BA) excitatory neurons that had been previously activated during fear conditioning. We hypothesized that the silencing of BA fear neurons was caused by an action of extinction on BA inhibitory synapses. In support of this hypothesis, we found extinction-induced target-specific remodeling of BA perisomatic inhibitory synapses originating from parvalbumin and cholecystokinin-positive interneurons. Interestingly, the predicted changes in the balance of perisomatic inhibition matched the silent and active states of the target BA fear neurons. These observations suggest that target-specific changes in perisomatic inhibitory synapses represent a mechanism through which experience can sculpt the activation patterns within a neural circuit.

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