“Zone of uncertainty” in the brain influences its ability to form new memories

Explanation see Graphic
Credit: AG Letzkus / University of Freiburg

Researchers at the University of Freiburg discover how the “Zona Incerta” communicates with the neocortex.

The neocortex is the largest and most complex part of the brain and has long been considered the ultimate storage site for long-term memories. But how are traces of past events and experiences laid down there? Researchers at the University of Freiburg Medical School led by Prof. Dr. Johannes Letzkus and the Max Planck Institute for Brain Research have discovered that a little-studied area of the brain, the “zone of uncertainty” or “zona incerta,” communicates with the neocortex in unconventional ways to rapidly control memory formation. Their work provides the first functional analysis of how long-range inhibition shapes information processing in the neocortex. The signals identified in this study are likely critical not only for memory, but also for a number of additional brain functions, such as attention. The results have just been published in the journal Neuron.

“Top-Down signals” at the heart of research

Memory is one of the most fundamental functions of the brain, enabling people to learn from experience and remember the past. Moreover, a mechanistic understanding of memory has implications that can range from the treatment of memory and anxiety disorders to the development of artificial intelligence and efficient hardware and software design. To form memories, the brain must make connections between sensory “bottom-up” signals from the environment and internally generated “top-down” signals that convey information about past experiences and current goals. These top-down signals are a central focus of current research.

In recent years, researchers have begun to identify a number of such top-down projection systems, all of which share a number of common features: They signal through synaptic excitation, the standard way of sending information between cortical regions, and they also exhibit a common regime for memory encoding. A stimulus with learned relevance elicits a stronger response in these systems, suggesting that this positive potentiation is one piece of the puzzle that is the memory trace.

Influence on network function

In contrast to these systems, long-range inhibitory pathways are much sparser and less numerous, but mounting evidence suggests that they can still have surprisingly robust effects on network function and behavior,” says Prof. Dr. Johannes Letzkus, Professor at the University of Freiburg and former Research Group Leader at the Max Planck Institute for Brain. “We set out to determine whether such inputs might be present in neocortex, and if so, how they might uniquely contribute to memory.”

Dr. Anna Schroeder, first author of the study and postdoctoral researcher in the Letzkus lab, decided to focus on a predominantly inhibitory subthalamic nucleus, the zona incerta, to address this question. While the function of this brain region remains as mysterious as its name suggests, her preliminary findings indicated that the zona incerta sends inhibitory projections which selectively innervate regions of neocortex known to be important for learning. In her efforts to study plasticity in this system across all stages of learning, she implemented an innovative approach that allowed her to track the responses of individual zona incerta synapses in neocortex before, during and after a learning paradigm.

Activity redistribution during learning

“The results were striking,” recalls Schroeder. “While about half of the synapses developed stronger positive responses during learning, the other half did exactly the opposite. In effect, what we observed was thus a complete redistribution of inhibition within the system due to learning.” This suggests that zona incerta synapses encode previous experience in a unique, bidirectional fashion. This was especially clear when the scientists compared the magnitude of the plasticity with the strength of the acquired memory. They found a positive correlation, which shows that zona incerta projections encode the learned relevance of sensory stimuli.

In separate experiments, Schroeder discovered that silencing these projections during the learning phase impairs the memory trace later on, indicating that the bidirectional plasticity occurring in these projections is required for learning. She also found that these inhibitory projections preferentially form functional connections with other inhibitory neurons in neocortex, in effect forming a long-range disinhibitory circuit. “This connectivity implies that an activation of the zona incerta should result in a net excitation of neocortical circuits,” says Schroeder. “However, combining this with the redistribution of inhibition that we see with learning shows that this pathway likely has even richer computational consequences for neocortical processing.”

Changes in stimulus representation

The scientists were particularly intrigued by the population of zona incerta synapses that showed negative potentiation, as this type of plasticity has never been observed before in the top-down excitatory pathways that were previously studied. They felt that computational approaches might provide valuable insights on how these unique responses develop. Further analyses in collaboration with the laboratory of Prof. Dr. Henning Sprekeler and his team at the Technical University of Berlin revealed that, remarkably, these negative responses are the main driver in the changes in stimulus representation that occur during learning itself.

Moreover, the zona incerta is among the very few regions standardly targeted for deep brain stimulation in human Parkinson’s patients, opening up an intriguing possibility for translational work in the future. “Ultimately, this study will hopefully also inspire other researchers to keep exploring the role of long-range inhibition in regulating neocortical function, both from the zona incerta and from additional, yet to be identified sources,” says Letzkus.

Overview of facts:
• Original publication: Schroeder, A., Pardi, M.B., Keijser, J., Dalmay, T., Groisman, A. I., Schuman, E. M., Sprekeler, H., Letzkus, J. J., Inhibitory top-down projections from zona incerta mediate neocortical memory. In: Neuron. DOI: https://doi.org/10.1016/j.neuron.2022.12.010
• The study involved researchers from the University of Freiburg, the Max Planck Institute for Brain Research in Frankfurt am Main and the Technical University of Berlin. It was funded by the German Research Foundation, the European Commission, the European Molecular Biology Organization and the Alexander von Humboldt Foundation.
• The study was led by Johannes Letzkus, professor at the Institute of Physiology at the University of Freiburg. His research interests include neuronal networks for memory and attention, bases of (mal)adaptive fear memory in the neocortex, and the inhibitory system in the neocortex of rodents and humans.

Contact:
Annette Kollefrath-Persch
Office of University and Science Communications
University of Freiburg
Tel.: 0761/203-8909
e-mail: annette.persch@zv.uni-freiburg.de

Originalpublikation:

Schroeder, A., Pardi, M.B., Keijser, J., Dalmay, T., Groisman, A. I., Schuman, E. M., Sprekeler, H., Letzkus, J. J., Inhibitory top-down projections from zona incerta mediate neocortical memory. In: Neuron. DOI: https://doi.org/10.1016/j.neuron.2022.12.010
• The study involved resea

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https://kommunikation.uni-freiburg.de/pm/2023/201czone-of-uncertainty201d-in-the…

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