Researchers create artificial link between unrelated memories

brain
Credit: Rice University

The ability to learn associations between events is critical for survival, but it has not been clear how different pieces of information stored in memory may be linked together by populations of neurons. In a study published April 2nd in Cell Reports, synchronous activation of distinct neuronal ensembles caused mice to artificially associate the memory of a foot shock with the unrelated memory of exploring a safe environment, triggering an increase in fear-related behavior when the mice were re-exposed to the non-threatening environment. The findings suggest that co-activated cell ensembles become wired together to link two distinct memories that were previously stored independently in the brain.

"Memory is the basis of all higher brain functions, including consciousness, and it also plays an important role in psychiatric diseases such as post-traumatic stress disorder," says senior study author Kaoru Inokuchi of the University of Toyama. "By showing how the brain associates different types of information to generate a qualitatively new memory that leads to enduring changes in behavior, our findings could have important implications for the treatment of these debilitating conditions."

Recent studies have shown that subpopulations of activated during learning are reactivated during subsequent memory retrieval, and reactivation of a cell ensemble triggers the retrieval of the corresponding memory. Moreover, artificial reactivation of a specific neuronal ensemble corresponding to a pre-stored memory can modify the acquisition of a new memory, thereby generating false or synthetic memories. However, these studies employed a combination of sensory input and artificial stimulation of cell ensembles. Until now, researchers had not linked two distinct memories using completely artificial means.

With that goal in mind, Inokuchi and Noriaki Ohkawa of the University of Toyama used a fear-learning paradigm in followed by a technique called optogenetics, which involves genetically modifying specific populations of neurons to express light-sensitive proteins that control neuronal excitability, and then delivering blue light through an optic fiber to activate those cells. In the behavioral paradigm, one group of mice spent six minutes in a cylindrical enclosure while another group explored a cube-shaped enclosure, and 30 minutes later, both groups of mice were placed in the cube-shaped enclosure, where a foot shock was immediately delivered. Two days later, mice that were re-exposed to the cube-shaped enclosure spent more time frozen in fear than mice that were placed back in the cylindrical enclosure.

The researchers then used optogenetics to reactivate the unrelated memories of the safe cylinder-shaped environment and the foot shock. Stimulation of neuronal populations in memory-related brain regions called the hippocampus and amygdala, which were activated during the learning phase, caused mice to spend more time frozen in fear when they were later placed back in the cylindrical enclosure, as compared with stimulation of neurons in either the hippocampus or amygdala, or no stimulation at all.

The findings show that synchronous activation of distinct cell ensembles can generate artificial links between unrelated pieces of information stored in , resulting in long-lasting changes in behavior. "By modifying this technique, we will next attempt to artificially dissociate memories that are physiologically connected," Inokuchi says. "This may contribute to the development of new treatments for psychiatric disorders such as , whose main symptoms arise from unnecessary associations between unrelated memories."


Explore further

Modifying activity of neuronal networks that encode spatial memories leads to formation of incorrect fear memory in mice

More information: Cell Reports, Ohkawa et al.: "Artificial Association of Pre-Stored Information to Generate a Qualitatively New Memory" www.cell.com/cell-reports/abst … 2211-1247(15)00270-3
Journal information: Cell Reports

Provided by Cell Press
Citation: Researchers create artificial link between unrelated memories (2015, April 2) retrieved 18 October 2019 from https://medicalxpress.com/news/2015-04-artificial-link-unrelated-memories.html
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no part may be reproduced without the written permission. The content is provided for information purposes only.
214 shares

Feedback to editors

User comments

Apr 03, 2015
With the following question I will gladly fill the role of ignorance:

What is the difference between mnemonics and artificial links?

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more