Distributed Learning Episodes Create a Context Fear Memory outside the Hippocampus That Depends on Perirhinal and Anterior Cingulate Cortices

Damage to the hippocampus (HPC) typically causes retrograde amnesia for contextual fear conditioning. Repeating the conditioning over several sessions, however, can eliminate the retrograde amnesic effects. This form of reinstatement thus permits modifications to networks that can support context me...

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Bibliographic Details
Published in:Learning & memory (Cold Spring Harbor, N.Y.) N.Y.), 2021-11, Vol.28 (11), p.405-413
Main Authors: Shepherd, Elizabeth H, Fournier, Neil M, Sutherland, Robert J, Lehmann, Hugo
Format: Article
Language:English
Subjects:
Amnesia
Animal memory
Animals
Brain Hemisphere Functions
Conditioning
Context Effect
Cortex (cingulate)
Cortex (perirhinal)
Fear
Fear conditioning
Gyrus Cinguli
Hippocampus
Learning
Memory
Neurological Impairments
Rats
Rats, Long-Evans
Reinstatement
Retrograde amnesia
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Summary:Damage to the hippocampus (HPC) typically causes retrograde amnesia for contextual fear conditioning. Repeating the conditioning over several sessions, however, can eliminate the retrograde amnesic effects. This form of reinstatement thus permits modifications to networks that can support context memory retrieval in the absence of the HPC. The present study aims to identify cortical regions that support the nonHPC context memory. Specifically, the contribution of the perirhinal cortex (PRH) and the anterior cingulate cortex (ACC) were examined because of their established importance to context memory. The findings show that context memories established through distributed reinstatement survive damage limited only to the HPC, PRH, or ACC. Combined lesions of the HPC and PRH, as well as the HPC and ACC, caused retrograde amnesia, suggesting that network modifications in the PRH and ACC enable context fear memories to become resistant to HPC damage.
ISSN:1072-0502
1549-5485
1549-5485
DOI:10.1101/lm.053396.121