In a revolutionary leap for neuroscience, researchers at Mount Sinai have identified a neural mechanism that keeps our memories dynamically updated, integrating past experiences with new information. The study, published in the journal Nature, has profound implications for our understanding of memory processes and conditions such as post-traumatic stress disorder (PTSD).

The researchers report that memories stored in neural ensembles in the brain are constantly reorganized with significant information. This goes beyond the traditional belief that memories remain stable over time, suggesting a more dynamic process.

"The long-held view is that memories are formed during initial learning and remain stable in neural ensembles over time, enabling us to recall a particular experience," senior author Denise Cai, an associate professor of neuroscience at the Icahn School of Medicine at Mount Sinai, said in a news release. "Our work with mouse models shows the inadequacy of this theory."

Cai elaborated that their findings offer a dual view of memory storage: it maintains stability while allowing for flexibility, crucial for everyday decision-making and interaction with an ever-changing environment.

To investigate how memories update in real time, the researchers studied the behavior and neural activity in the hippocampus of adult mice. They focused on how mice processed new experiences, rested ("offline" periods) and recalled past memories over several days.

Remarkably, the brain was found to replay and stabilize each new experience, linking these with past memories when the experiences were notably negative.

For instance, when mice experienced a significant negative event, like a foot shock in a specific setting, the brain reactivated not only the traumatic memory but also a previously neutral memory from a different setting.

"We learned that when mice were resting after a highly negative experience, they simultaneously reactivated the neural ensemble of that experience and the past neutral memory, thus integrating the two distinct memory modalities," added Cai.

This phenomenon, known as "ensemble co-reactivation," drives the long-term linking of memories.

Intriguingly, the study found that memory linkage occurred more frequently while the mice were awake.

This contradicts earlier studies emphasizing the role of sleep in memory consolidation, opening new avenues of inquiry into the distinct roles of sleep and wakefulness in memory processing.

The implications of these findings are vast. Understanding how the brain links adverse experiences with past memories can shed light on conditions like PTSD, where traumatic memories often become intertwined with neutral memories, causing distress.

By unravelling this complex mechanism, the researchers are taking significant strides towards potential therapeutic interventions.