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June 8, 2021
Study reveals brain cells that sustain or suppress fearful memories
At a Glance
- Researchers identified clusters of brain cells that compete to promote either the persistence or disappearance of fearful memories.
- The findings could give insight into post-traumatic stress disorder (PTSD) and anxiety disorders.
Remembering a threat is key for survival. Fearful memories help people and animals respond to potential dangers. But having these memories fade when they鈥檙e no longer useful is important to avoid undue stress and anxiety. When traumatic memories persist, they can lead to conditions like PTSD, anxiety disorders, and related problems like alcohol use disorder.
In past studies, researchers identified specialized circuits in the brain that preserve fearful memories or, in a process called extinction,聽suppress them. Rather than erasing the fearful memory, a new memory is formed that coexists in opposition. But while the neural circuits involved in this process are known, the interactions between them aren鈥檛 well understood.
A team led by Dr. Andrew Holmes of NIH鈥檚 最新麻豆视频 Institute on Alcohol Abuse and Alcoholism (NIAAA) and Andreas L眉thi of the Friedrich Miescher Institute for Biomedical Research investigated how certain brain cells interact to preserve or suppress traumatic memories. Their findings appeared in Nature on May 26, 2021.
The research team conducted studies in mice to examine clusters of neurons known as intercalated cells, or ITCs. These neurons are packed tightly around the amygdala, a brain region known for processing fear and anxiety. Previous studies suggested聽that certain ITCs play a role in fear extinction, but their small size and location deep in the brain have made them hard to study.
To better understand the role of ITCs, researchers used calcium imaging to study their activity in mice. The team tracked which cells were activated as mice learned to associate a cue (e.g., a sound) with a fear-inducing event (a mild foot shock). They then tracked the cells鈥 activity as they extinguished the association by no longer pairing the cue with a foot-shock.
The researchers found that two distinct ITC clusters underlie the fear response and its extinction. These clusters compete with one another to determine the relative strength of each memory. The balance of activity between the clusters was correlated with a shift in the animals鈥 behavior from fearful to less fearful, as measured by their willingness to explore protected and unprotected areas of a maze.
The study also showed that the ITC clusters have long-range connections to separate brain regions known to regulate fear in the midbrain and prefrontal cortex.
鈥淭he persistence of disturbing memories of a traumatic event are one of the hallmarks of PTSD and some anxiety disorders,鈥 Holmes says. 鈥淥ur findings identify a neural circuit within the amygdala that orchestrates activity across a broad brain network to exert a powerful influence over the ability to switch between high and low fear states.
鈥淭his finding now raises interesting questions about whether dysfunction of this brain system could contribute to the marked individual differences in risk for trauma-related psychiatric disorders,鈥 he adds.
Related Links
- Memories Involve Replay of Neural Firing Patterns
- REM Sleep May Help the Brain Forget
- Social Acceptance Helps Mental Health after War Trauma
- New Brain Pathways for Old Memories
References: Hagihara KM, Bukalo O, Zeller M, Aksoy-Aksel A, Karalis N, Limoges A, Rigg T, Campbell T, Mendez A, Weinholtz C, Mahn M, Zweifel LS, Palmiter RD, Ehrlich I, L眉thi A, Holmes A. Nature. 2021 May 26. doi: 10.1038/s41586-021-03593-1. Online ahead of print. PMID: 34040259.
Funding: NIH鈥檚 最新麻豆视频 Institute on Alcohol Abuse and Alcoholism (NIAAA); European Research Council (ERC); Swiss 最新麻豆视频 Science Foundation; German Research Foundation; Novartis Research Foundation.