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Value-guided remapping of sensory cortex by lateral orbitofrontal cortex

Author

Listed:
  • Abhishek Banerjee

    (University of Zurich
    Newcastle University)

  • Giuseppe Parente

    (University of Zurich)

  • Jasper Teutsch

    (University of Zurich
    Newcastle University)

  • Christopher Lewis

    (University of Zurich)

  • Fabian F. Voigt

    (University of Zurich
    Neuroscience Center Zurich)

  • Fritjof Helmchen

    (University of Zurich
    Neuroscience Center Zurich)

Abstract

Adaptive behaviour crucially depends on flexible decision-making, which in mammals relies on the frontal cortex, specifically the orbitofrontal cortex (OFC)1–9. How OFC encodes decision variables and instructs sensory areas to guide adaptive behaviour are key open questions. Here we developed a reversal learning task for head-fixed mice, monitored the activity of neurons of the lateral OFC using two-photon calcium imaging and investigated how OFC dynamically interacts with primary somatosensory cortex (S1). Mice learned to discriminate ‘go’ from ‘no-go’ tactile stimuli10,11 and adapt their behaviour upon reversal of stimulus–reward contingency (‘rule switch’). Imaging individual neurons longitudinally across all behavioural phases revealed a distinct engagement of S1 and lateral OFC, with S1 neural activity reflecting initial task learning, whereas lateral OFC neurons responded saliently and transiently to the rule switch. We identified direct long-range projections from lateral OFC to S1 that can feed this activity back to S1 as value prediction error. This top-down signal updated sensory representations in S1 by functionally remapping responses in a subpopulation of neurons that was sensitive to reward history. Functional remapping crucially depended on top-down feedback as chemogenetic silencing of lateral OFC neurons disrupted reversal learning, as well as plasticity in S1. The dynamic interaction of lateral OFC with sensory cortex thus implements computations critical for value prediction that are history dependent and error based, providing plasticity essential for flexible decision-making.

Suggested Citation

  • Abhishek Banerjee & Giuseppe Parente & Jasper Teutsch & Christopher Lewis & Fabian F. Voigt & Fritjof Helmchen, 2020. "Value-guided remapping of sensory cortex by lateral orbitofrontal cortex," Nature, Nature, vol. 585(7824), pages 245-250, September.
    • Handle: RePEc:nat:nature:v:585:y:2020:i:7824:d:10.1038_s41586-020-2704-z
    DOI: 10.1038/s41586-020-2704-z
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    Citations

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    Cited by:

    1. Masakazu Agetsuma & Issei Sato & Yasuhiro R. Tanaka & Luis Carrillo-Reid & Atsushi Kasai & Atsushi Noritake & Yoshiyuki Arai & Miki Yoshitomo & Takashi Inagaki & Hiroshi Yukawa & Hitoshi Hashimoto & J, 2023. "Activity-dependent organization of prefrontal hub-networks for associative learning and signal transformation," Nature Communications, Nature, vol. 14(1), pages 1-22, December.
    2. Rebecca J. Rabinovich & Daniel D. Kato & Randy M. Bruno, 2022. "Learning enhances encoding of time and temporal surprise in mouse primary sensory cortex," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    3. Shinichiro Kira & Houman Safaai & Ari S. Morcos & Stefano Panzeri & Christopher D. Harvey, 2023. "A distributed and efficient population code of mixed selectivity neurons for flexible navigation decisions," Nature Communications, Nature, vol. 14(1), pages 1-28, December.
    4. Bin A. Wang & Maike Veismann & Abhishek Banerjee & Burkhard Pleger, 2023. "Human orbitofrontal cortex signals decision outcomes to sensory cortex during behavioral adaptations," Nature Communications, Nature, vol. 14(1), pages 1-15, December.
    5. Jonathan Schaffner & Sherry Dongqi Bao & Philippe N. Tobler & Todd A. Hare & Rafael Polania, 2023. "Sensory perception relies on fitness-maximizing codes," Nature Human Behaviour, Nature, vol. 7(7), pages 1135-1151, July.
    6. Weilun Sun & Ilseob Choi & Stoyan Stoyanov & Oleg Senkov & Evgeni Ponimaskin & York Winter & Janelle M. P. Pakan & Alexander Dityatev, 2021. "Context value updating and multidimensional neuronal encoding in the retrosplenial cortex," Nature Communications, Nature, vol. 12(1), pages 1-17, December.

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