How mouse brains reorganize old memories when new ones are laid down

How mouse brains reorganise old memories when new ones are laid down
The coactivation structure of hippocampal neurons. Each node represents one neuron. Credit: Giuseppe P. Gava et al.

Oxford and Imperial researchers have mapped how the structure of existing memories is reorganized as new experiences are committed to memory in mice.

They found that is sophisticated enough to integrate new information while allowing new and old memories to interact, rather than having to forget old experiences to make room for new ones.

In a study published in Nature Neuroscience, the team from the University of Oxford and Imperial College London devised an experiment using —mathematical structures that model relationships between objects—to study how integrate memories.

They set up a task in which mice learned that a particular compartment in a new environment contained sugar. The mice also explored a familiar environment before and after forming this new association between particular places and reward.

This allowed the scientists to observe how the laying down of the new memory affected the patterns of co-activity among neurons in the hippocampus, a brain area that plays a major role in learning and memory. They found that the describing the patterns of coordinated neuron firing (co-activity) that occur when old memories are recalled in the hippocampus changed as the mice embedded new memories.

How mouse brains reorganise old memories when new ones are laid down
Hippocampal neurons are involved in the formation and retention of memories. Credit: Shutterstock

The team also found that during learning, the patterns of co-activity among neurons unfolded along particular directions in the 'neuronal activity space'. This showed that 'newness', spatial location, and reward experience were key factors involved in the process of integrating new memories. They also discovered that high-activity cells formed the core of each memory, while low-activity cells contributed to the patterns of co-activity 'on demand' throughout behavioral events, in order to segregate individual experiences.

This finding highlights an important division of labor among hippocampal neurons. Lead researcher Professor David Dupret at the University of Oxford said: "This research sheds new light on the network mechanisms underlying the continual storage and recall of multiple memories in the hippocampus. Neuroscientists are now implementing new methods, such as in vivo imaging, to monitor large-scale neuronal populations over days and weeks of learning experience, to understand more about this process."

The research gives us a new way to look at the network mechanisms underlying the storage and recall of multiple memories in the hippocampus. Study co-author Professor Simon Schultz from Imperial's Department of Bioengineering said: "This research highlights the value of an interdisciplinary approach to understanding the brain—by viewing memory from an engineering and mathematical point of view, we were able to tease out insights that would not have been possible based on a traditional approach to the study of ."

Neuroscientists are now designing and probing new ways of monitoring large-scale neuronal networks over time, and are also interested in the effect of aging on the way new memories are stored.


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More information: Integrating new memories into the hippocampal network activity space. Nat Neurosci (2021). doi.org/10.1038/s41593-021-00804-w
Journal information: Nature Neuroscience

Citation: How mouse brains reorganize old memories when new ones are laid down (2021, February 19) retrieved 18 May 2021 from https://medicalxpress.com/news/2021-02-mouse-brains-memories-laid.html
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