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Mice identify subgoal locations through an action-driven mapping process

Philip Shamash, Sebastian Lee, Andrew Saxe, Tiago Branco

2023Neuron15 citationsDOIOpen Access PDF

Abstract

Mammals form mental maps of the environments by exploring their surroundings. Here, we investigate which elements of exploration are important for this process. We studied mouse escape behavior, in which mice are known to memorize subgoal locations-obstacle edges-to execute efficient escape routes to shelter. To test the role of exploratory actions, we developed closed-loop neural-stimulation protocols for interrupting various actions while mice explored. We found that blocking running movements directed at obstacle edges prevented subgoal learning; however, blocking several control movements had no effect. Reinforcement learning simulations and analysis of spatial data show that artificial agents can match these results if they have a region-level spatial representation and explore with object-directed movements. We conclude that mice employ an action-driven process for integrating subgoals into a hierarchical cognitive map. These findings broaden our understanding of the cognitive toolkit that mammals use to acquire spatial knowledge.

Topics & Concepts

Action (physics)Process (computing)NeuroscienceComputational biologyComputer sciencePsychologyBiologyPhysicsOperating systemQuantum mechanicsZebrafish Biomedical Research ApplicationsMemory and Neural MechanismsNeural dynamics and brain function
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