Summary:
Researchers at the RIKEN Center for Brain Science have discovered that perceptual memories linked to positive emotions are strengthened during sleep, with non-REM sleep—rather than REM sleep—playing a key role. Using a mouse model, the study found that sensory memories associated with positive experiences lasted longer due to reactivation of a brain circuit involving the amygdala, motor cortex, and sensory cortex during non-REM sleep. Disrupting this process prevented memory retention, confirming non-REM sleep’s importance. These findings challenge the long-held belief that REM sleep is the primary stage for emotional memory consolidation and may have implications for treating conditions like addiction, where sensory memories tied to emotional events contribute to symptoms.
Key Takeaways:
- Non-REM Sleep Strengthens Emotional Sensory Memories – The study found that perceptual memories tied to positive emotions are reinforced during non-REM sleep, not REM sleep, through reactivation of a specific brain circuit.
- Amygdala-Linked Circuit Plays a Crucial Role – The amygdala, motor cortex, and sensory cortex work together to consolidate emotionally charged sensory memories during sleep, and blocking this process during non-REM sleep prevents memory retention.
- Potential for Memory-Based Treatments – Understanding how emotional sensory memories are reinforced or weakened could lead to new treatments for addiction and other conditions where sensory triggers play a role in symptoms.
Researchers at the RIKEN Center for Brain Science (CBS) have uncovered how perceptual memories linked to positive emotions, such as joy or happiness, are strengthened during sleep. The study, published in the scientific journal Neuron, could help scientists understand the neurological basis for overcoming conditions like drug or sexual addiction.
Why do emotional events, whether positive or negative, create strong, long-lasting memories of external information such as music, scene smells, and textures received at the events? We know that sleep is essential for memory consolidation, the process that turns new events into memories, but do not know how it plays its role in memory enhancement.
Experiments have shown that emotional events might be processed differently depending on the stage of sleep, but it is still unclear which part of sleep is more important for solidifying them: REM sleep or non-REM sleep. The new study led by Masanori Murayama at RIKEN CBS set out to answer this question.
Testing Emotional Memory in Mice
The researchers first established mouse equivalents of neutral and emotional events so that they could examine what the brain does differently during sleep when emotions are involved. In a neutral situation, male mice were allowed to explore only a smooth texture on day one of the experiment as a learning period and both grooved and smooth textures the next day as a testing period. When their memory of the smooth texture was kept until day two, they preferentially explored the grooved texture, but not smooth, because mice innately like novel environments.
However, when the smooth texture was paired with a positive emotional experience—interaction with a female mouse—the memory of the texture lasted much longer. Even with a four-day interval, at day five, the mice still preferred the smooth texture, showing that this experimental setup could produce emotionally enhanced texture memory in mice.
As Murayama explains, “This is the first study to demonstrate perceptual memory enhancement through emotions in experimental animals. We were able to do so and, as a consequence, identified critical neural circuitry involved in perceptual memory enhancement.”
Non-REM Sleep Plays a Key Role in Memory Consolidation
The researchers identified the amygdala, the brain’s emotional center, as key to this process. The amygdala connects to a cortical top-down circuit from motor to sensory cortices which controls accurate perception and memory of texture information, as Murayama’s group previously discovered.
This tri-regional circuit strengthens emotionally linked perceptual memories. Brain recordings showed that these three brain regions were cooperatively activated in the learning periods and reactivated during early non-REM sleep, but not during REM sleep, to reinforce the memory.
To test the importance of the non-REM reactivation, the researchers temporarily prevented amygdala inputs to the motor cortex that sends top-down inputs to the sensory area. When they did this during non-REM sleep, mice failed to retain the texture memory until day five despite the emotional experience. In contrast, blocking the signals during REM sleep had no effect, confirming that non-REM sleep is the key sleep stage for strengthening perceptual memories.
“Traditionally, REM sleep has been thought to be the primary stage for emotional memory processing,” says Murayama in a release. “Our findings challenge this idea and instead support non-REM sleep as the critical stage.”
Potential Implications for Treating Addiction
This study not only explains how emotion enhances other types of memories (eg, perception) but also points to potential treatments for conditions like addiction in which symptoms are sometimes triggered by perceptual information in a phenomenon called flashback. Such information is thought to be strongly memorized in connection with emotional events that occurred even long before the episodes.
By modulating brain activity in the amygdala and related regions during non-REM sleep to weaken perceptual memories that trigger flashbacks, doctors could potentially prevent or treat addiction.
Future research will explore how these findings apply to disease models, such as age-related memory decline or addiction. “For instance, it will be important to examine whether we can recover or even strengthen memories in aged mice,” says Murayama in a release. “Our ultimate goal is to use this knowledge to develop treatments that improve mental health and memory-related conditions.”
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