ScienceDaily (June 12, 2012) ? One of the brain's jobs is to help us figure out what's important enough to be remembered. Scientists at Yerkes National Primate Research Center, Emory University have achieved some insight into how fleeting experiences become memories in the brain.
Their experimental system could be a way to test or refine treatments aimed at enhancing learning and memory, or interfering with troubling memories. The results were published this week in the Journal of Neuroscience.
The researchers set up a system where rats were exposed to a light followed by a mild shock. A single light-shock event isn't enough to make the rat afraid of the light, but a repeat of the pairing of the light and shock is, even a few days later.
"I describe this effect as 'priming'," says the first author of the paper, postdoctoral fellow Ryan Parsons. "The animal experiences all sorts of things, and has to sort out what's important. If something happens just once, it doesn't register. But twice, and the animal remembers."
Parsons was working with Michael Davis, PhD, Robert W. Woodruff professor of psychiatry and behavioral sciences at Emory University School of Medicine, who has been studying the molecular basis for fear memory for several years.
Even though a robust fear memory was not formed after the first priming event, at that point Parsons could already detect chemical changes in the amygdala, part of the brain critical for fear responses. Long term memory formation could be blocked by infusing a drug into the amygdala. The drug inhibits protein kinase A, which is involved in the chemical changes Parsons observed.
It is possible to train rats to become afraid of something like a sound or a smell after one event, Parsons says. However, rats are less sensitive to light compared with sounds or smells, and a relatively mild shock was used.
Fear memories only formed when shocks were paired with light, instead of noise or nothing at all, for both the priming and the confirmation event. Parsons measured how afraid the rats were by gauging their "acoustic startle response" (how jittery they were in response to a loud noise) in the presence of the light, compared to before training began.
Scientists have been able to study the chemical changes connected with the priming process extensively in neurons in culture dishes, but not as much in live animals. The process is referred to as "metaplasticity," or how the history of the brain's experiences affects its readiness to change and learn.
"This could be a good model for dissecting the mechanisms involved in learning and memory," Parsons says. "We're going to be able to look at what's going on in that first priming event, as well as when the long-term memory is triggered."
"We believe our findings might help explain how events are selected out for long-term storage from what is essentially a torrent of information encountered during conscious experience," Parsons and Davis write in their paper.
The research was supported by the National Institute of Mental Health (R37 MH047840 and F32 MH090700).
Reference: R.G. Parsons and M. Davis. A metaplasticity-like mechanism supports the selection of fear memories: role of protein kinase A in the amygdala. J. Neurosci 32: 7843-7851 (2012).
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The above story is reprinted from materials provided by Emory University. The original article was written by Quinn Eastman.
Note: Materials may be edited for content and length. For further information, please contact the source cited above.
Journal Reference:
- Ryan G. Parsons and Michael Davis. A Metaplasticity-Like Mechanism Supports the Selection of Fear Memories: Role of Protein Kinase A in the Amygdala. Journal of Neuroscience, 2012 DOI: 10.1523/%u200BJNEUROSCI.0939-12.2012
Note: If no author is given, the source is cited instead.
Disclaimer: This article is not intended to provide medical advice, diagnosis or treatment. Views expressed here do not necessarily reflect those of ScienceDaily or its staff.
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