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Whether or not to act is determined by distinct signals from motor thalamus and orbitofrontal cortex to secondary motor cortex

Author

Listed:
  • Eriko Yoshida

    (The University of Tokyo)

  • Masashi Kondo

    (The University of Tokyo)

  • Ken Nakae

    (Kyoto University
    National Institutes of Natural Sciences)

  • Rie Ako

    (The University of Tokyo)

  • Shin-ichiro Terada

    (The University of Tokyo)

  • Natsuki Hatano

    (The University of Tokyo)

  • Ling Liu

    (The University of Tokyo)

  • Kenta Kobayashi

    (National Institute for Physiological Sciences)

  • Shin Ishii

    (Kyoto University
    The University of Tokyo Institutes for Advanced Study)

  • Masanori Matsuzaki

    (The University of Tokyo
    The University of Tokyo Institutes for Advanced Study
    The University of Tokyo
    RIKEN Center for Brain Science)

Abstract

“To act or not to act” is a fundamental decision made in daily life. However, it is unknown how the relevant signals are transmitted to the secondary motor cortex (M2), which is the cortical origin of motor initiation. Here, we found that in a decision-making task in male mice, inputs from the thalamus to M2 positively regulated the action while inputs from the lateral part of the orbitofrontal cortex (LO) negatively regulated it. The motor thalamus that received the basal ganglia outputs transmitted action value-related signals to M2 regardless of whether the animal acted or not. By contrast, a large subpopulation of LO inputs showed decreased activity before and during the action, regardless of the action value. These results suggest that M2 integrates the positive signal of the action value from the motor thalamus with the negative action-biased signal from the LO to finally determine whether to act or not.

Suggested Citation

  • Eriko Yoshida & Masashi Kondo & Ken Nakae & Rie Ako & Shin-ichiro Terada & Natsuki Hatano & Ling Liu & Kenta Kobayashi & Shin Ishii & Masanori Matsuzaki, 2025. "Whether or not to act is determined by distinct signals from motor thalamus and orbitofrontal cortex to secondary motor cortex," Nature Communications, Nature, vol. 16(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58272-w
    DOI: 10.1038/s41467-025-58272-w
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