(Press-News.org)
Our experiences leave traces in the brain, stored in small groups of cells called “engrams”. Engrams are thought to hold the information of a memory and are reactivated when we remember, which makes them very interesting to research on memory and age- or trauma-related memory loss.
At the same time, scientists know that the biology of learning is accompanied by epigenetic changes, which refers to the ways the cell regulates genes by adding chemical "post-it notes" on DNA.
But the question of whether the epigenetic state of a single gene in turn can cause a memory to change has thus far remained unanswered.
A team led by Professor Johannes Gräff at EPFL's Laboratory of Neuroepigenetics combined CRISPR-based gene control with a technique that tags engram cells in mice. They focused on Arc, a gene that helps neurons adjust their connections to other neurons. By targeting the control region of Arc, the team asked whether flipping its epigenetic “switch” could directly change memory.
An “epigenetic switch”
The researchers developed specialized, CRISPR-based tools that could either dial down or boost Arc activity in memory neurons. Some, like the KRAB-MeCP2 tool, were designed to switch off gene activity by adding repressive marks that make the DNA less accessible, while others opened the DNA and turned the gene on. These tools were essentially an “epigenetic switch” for the Arc gene.
They then used harmless viruses to deliver these tools directly into the hippocampus of mice, a brain region central for storing and retrieving memory. The mice were then trained to link a specific place with a mild foot shock. By changing the epigenetic state of Arc in the neurons, the scientists could see whether the animals remembered the shock or not. They also added a “safety switch” that could undo the editing and reset the memory state.
The study showed that epigenetically silencing Arc in engram cells made the mice not learn, while boosting it made their memory stronger. These changes could be reversed in the same animal, showing that this epigenetic “switch” can dial memory expression up or down. Even memories that were already several days old, which are usually hard to change, could be modified. On the molecular level, the editing caused changes in gene activity and DNA packaging that matched the behavioral effects.
Controlling memory expression
The study is the first direct demonstration that changing the epigenetic state in memory cells is necessary and sufficient to control memory expression. It points to new ways of exploring how memories are stored and altered, which could eventually also be relevant in humans.
In the future, similar approaches could help researchers better understand conditions where memory processing goes awry, such as traumatic memories in PTSD, drug-related memories in addiction, or the memory problems that appear in neurodegenerative diseases.
Other contributors
EPFL Bioinformatics Competence Center
EPFL Synapsy Research Center for Neuroscience and Mental Health
Reference
Davide M. Coda, Lisa Watt, Liliane Glauser, Mykhailo Y. Batiuk, Allison M. Burns, Cora L. Stahl, Lok Y. Wong, Johannes Gräff. Cell-type and locus-specific epigenetic editing of memory expression. Nature Genetics 29 October 2025. DOI: 10.1038/s41588-025-02368-y
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