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Neuroscientists at the Bernstein Center Freiburg (BCF) of the University of Freiburg and the KTH Royal Institute of Technology in Stockholm have decoded a significant process in the brain that in part contributes to the behavior of living beings. "One of the basic requirements for meaningful behavior is that networks in the brain produce precisely defined sequences of neuronal activity," says Prof. Dr. Ad Aertsen of the University of Freiburg. The researchers have published the results of the cooperation with Prof. Dr. Arvind Kumar of the KTH and Sebastian Spreizer, a doctoral candidate at the BCF, in the scientific journal "PLoS Computational Biology."
Experiments in recent years have shown that the behavior of animals is accompanied by sequential activity of neurons in different areas of the brain. In the context of that finding, researchers world-wide have developed several models of possible mechanisms to explain how these ordered sequences come into existence. They are based primarily upon methods of supervised learning, in which the desired sequential activity is generated by means of a learning rule. Within this process, it turned out that neuronal networks can be trained to produce sequences of activity. "At the same time, we know that not every behavior is learned. Innate behavior suggests that the brain generates certain sequences without learning or training," says Arvind Kumar, who directed the study.
Based on that, the researchers addressed the question how an untrained brain can generate well-ordered sequences of activity. They found this requires two conditions to be met: First, a small portion of the neurons' projected output – their connections to downstream neurons – have to prefer a specific direction. Second, neighboring neurons need to share that preferred direction. "That means that the connections of nerve cells depend on directional preferences and are spatially linked to each other. This is the key to the generation of sequential activity in neuronal networks," explains Sebastian Spreizer. If the network is wired according to these rules, it creates a type of activity landscape similar to geographic hills and valleys. In the context of this metaphor, the sequences of neuronal activity are like the rivers in a landscape. Small changes in the spatial fabric of the nerve cells generate certain temporal and spatial sequences of neuronal activity.
To verify the model, the shapes and connections to neighboring neurons must be measured. "Interestingly, neuromodulators – chemical substances such as dopamine, for example – can produce the connectivity in the brain required above, and in a dynamic way that is dependent on context," says Ad Aertsen. That gives the network the opportunity to generate different sequences of neuronal activity. Yet, not all of these will be functionally relevant. As a result, the researchers in Freiburg and Stockholm have concluded that learning mechanisms can be developed in order to select for rewarding sequences, thereby making meaningful behavior possible.
Prof. Dr. Ad Aertsen
Faculty of Biology/ Bernstein Center Freiburg
University of Freiburg
Tel.: 0761/203-9550
aertsen@biologie.uni-freiburg.de
Sebastian Spreizer
Bernstein Center Freiburg
University of Freiburg
sebastian.spreizer@bcf.uni-freiburg.de
Prof. Dr. Arvind Kumar
Department of Computational Science and Technology
KTH Royal Institute of Technology
Tel: +46 (8) 790 62 24
arvkumar@kth.se
Spreizer, S./Aertsen, A./Kumar, A. (2019): From space to time: Spatial inhomogeneities lead to the emergence of spatiotemporal sequences in spiking neuronal networks. In: PLoS Computational Biology 15/10. https://doi.org/10.1371/journal.pcbi.1007432
https://www.pr.uni-freiburg.de/pm-en/press-releases-2019/the-space-time-fabric-o...
Graphics: Sebastian Spreizer
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Graphics: Sebastian Spreizer
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