A neural circuit architecture for rapid learning in goal-directed navigation

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Neuron. 2024 May 23;112(15):2581-2599.e23. doi: https://doi.org/10.1016/j.neuron.2024.04.036

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A neural circuit architecture for rapid learning in goal-directed navigation Jayaraman LabHermundstad Lab

Dan Chuntao, Hulse Brad, Kappagantula Ramya, Jayaraman Vivek, Hermundstad Ann

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Abstract

Anchoring goals to spatial representations enables flexible navigation but is challenging in novel environments when both representations must be acquired simultaneously. We propose a framework for how Drosophila uses internal representations of head direction (HD) to build goal representations upon selective thermal reinforcement. We show that flies use stochastically generated fixations and directed saccades to express heading preferences in an operant visual learning paradigm and that HD neurons are required to modify these preferences based on reinforcement. We used a symmetric visual setting to expose how flies' HD and goal representations co-evolve and how the reliability of these interacting representations impacts behavior. Finally, we describe how rapid learning of new goal headings may rest on a behavioral policy whose parameters are flexible but whose form is genetically encoded in circuit architecture. Such evolutionarily structured architectures, which enable rapidly adaptive behavior driven by internal representations, may be relevant across species.