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Brain Cells Compete To Sustain Or Suppress Traumatic Memories

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  1. The Good Doctor

    The Good Doctor Golden Member

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    Two clusters of brain cells compete to promote either the persistence or disappearance of traumatic memories, according to a new study conducted in mice. The findings could provide important insights into human conditions such as post-traumatic stress disorder (PTSD), anxiety disorders, and associated problems such as alcohol use disorder (AUD) that can arise from the persistence of traumatic memories. The new research, led by scientists at the National Institute on Alcohol Abuse and Alcoholism (NIAAA), part of the National Institutes of Health, and their colleagues in Switzerland, is reported in the journal Nature.

    "Over time, the distress of having experienced trauma will subside for some people, as memories of the trauma cease to provoke a fearful response," says NIAAA Director Dr. George F. Koob. "For other people who have experienced trauma, however, the fearful memories persist, and can adversely affect their ability to engage in everyday activities. These fearful memories can continue even though a person may repeatedly encounter cues associated with a traumatic experience without a harm. The current study sheds light on the specific neural circuits that may underlie the persistence and the extinction of fearful memories associated with trauma."

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    Scientists led by Andrew Holmes, PhD, chief of NIAAA's Laboratory of Behavioral and Genomic Neuroscience, examined clusters of neurons, known as intercalated cells or ITCs, that are packed tightly around the mouse amygdala. Found deep within the temporal lobes of mammals' brains, the amygdala is well-known as a hub for processing emotions. It is therefore a likely actor in the brain systems that underlie the formation of fearful memories associated with certain environmental cues and the successful extinction of those memories when the same cues later predict no harm.

    In a series of behavioral in vivo brain imaging and neurophysiology studies, NIAAA scientists collaborated with researchers in the United States, Switzerland and Germany to assess the potential roles of ITCs as mice learned to associate a cue (e.g., a sound) with a foot-shock (a fear-inducing event), and then extinguished the association by no longer pairing the cue with a foot-shock.

    The researchers found that two distinct ITC clusters promote either a fear response or extinction of the cue / foot-shock association. They further revealed that the clusters effectively compete with one another, through a process known as mutual synaptic inhibition, to determine the relative strength of each memory and, hence, the level of defensive behavior shown by the animal. The study also showed that the ITC clusters have long-range connections to known fear-regulating regions in the midbrain and prefrontal cortex.

    "The persistence of disturbing memories of a traumatic event are one of the hallmarks of PTSD and some anxiety disorders," says Dr. Holmes. "Our 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. This 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."

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