Events

Dear All, 

Professor Thomas Mrsic-Flogel from the Sainsbury Welcome Center, UCL, UK will give a talk in the HiLIFE seminar series:

Decision Making: From Brain-Wide Dynamics to Multi-regional Circuit Mechanisms

Tom Mrsic-Flogel is Director of the Sainsbury Wellcome Centre for Neural Circuits and Behaviour (SWC), and Professor of Neuroscience at University College London. He was previously Associate Professor of Neuroscience at the Biozentrum, University of Basel. His lab has contributed to three interrelated areas of neuroscience: identifying neural circuit principles of cortical computations; how learning shapes these circuits to improve sensory processing; and how multi-regional circuits contribute to cognition and sensory-guided behaviours. As Director of the SWC, his vision is to develop a unique institute in which experimental and theoretical neuroscientists join forces to generate major conceptual breakthroughs in the understanding of how brain function gives rise to intelligent behaviour. He is committed to finding new, collaborative approaches to scientific research and novel ways to drive progress in research culture.Welcome to this exciting seminar!

Abstract: Throughout our lives we make countless decisions based on learned associations between sensory inputs and beneficial actions. However, flexible behaviour requires that these learned associations only influence our actions when they serve our current goals. While frontal cortex is known to be critical for this behavioural flexibility by representing internal goals and context-dependent rules, and the basal ganglia are essential for implementing learned sensorimotor associations, the mechanisms by which frontal regions exert control over these action selection circuits remain poorly understood. Using brain-wide recordings in mice, we demonstrate that learning establishes distributed sensorimotor transformations, enabling sustained representations of relevant sensory information in premotor regions of frontal-motor cortex, thalamus, basal ganglia, midbrain and cerebellum. Neural dynamics in these regions couple sensory evidence to movement preparation while remaining distinct from movement execution. At the circuit level, targeted activity manipulations and recordings reveal that the anterior tip of secondary motor cortex (atMOs) implements “cognitive control” through an activity 'state clamping' mechanism, dynamically controlling population dynamics in the striatum to enable goal-directed sensorimotor mapping. This mechanism operates in a neural dimension orthogonal to evidence accumulation, allowing precise control over whether sensory evidence leads to action. Together, these findings reveal how brain-wide dynamics coordinate with multi-regional circuit mechanisms to selectively engage learned sensorimotor transformations according to current behavioural goals.

Welcome to this exciting seminar!

Eero Castrén

Tom is available for meeting with local scientists. If you are interested in talking to him, please contact Eero. 

Selected publications:

Brain-wide dynamics linking sensation to action during decision-making. Khilkevich A, ... & Mrsic-Flogel TD. Nature 2024 https://doi.org/10.1038/s41586-024-07908-w

Cooperative thalamocortical circuit mechanism for sensory prediction errors. Furutachi S. ... Mrsic-Flogel, TD, Hofer S. Nature 2024 https://doi.org/10.1038/s41586-024-07851-w

Cortical feedback loops bind distributed representations of working memory. Voitov I, Mrsic-Flogel TD. Nature 2022 (doi: 10.1038/s41586-022-05014-3)