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Reward-timing-dependent bidirectional modulation of cortical microcircuits during optical single-neuron operant conditioning

Author

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  • Riichiro Hira

    (National Institute for Basic Biology and the Graduate University of Advanced Studies (Sokendai), Myodaiji
    Japan Science and Technology Agency, CREST)

  • Fuki Ohkubo

    (National Institute for Basic Biology and the Graduate University of Advanced Studies (Sokendai), Myodaiji
    Japan Science and Technology Agency, CREST)

  • Yoshito Masamizu

    (National Institute for Basic Biology and the Graduate University of Advanced Studies (Sokendai), Myodaiji
    Japan Science and Technology Agency, CREST)

  • Masamichi Ohkura

    (Brain Science Institute, Saitama University)

  • Junichi Nakai

    (Brain Science Institute, Saitama University)

  • Takashi Okada

    (Nippon Medical School)

  • Masanori Matsuzaki

    (National Institute for Basic Biology and the Graduate University of Advanced Studies (Sokendai), Myodaiji
    Japan Science and Technology Agency, CREST)

Abstract

Animals rapidly adapt to environmental change. To reveal how cortical microcircuits are rapidly reorganized when an animal recognizes novel reward contingency, we conduct two-photon calcium imaging of layer 2/3 motor cortex neurons in mice and simultaneously reinforce the activity of a single cortical neuron with water delivery. Here we show that when the target neuron is not relevant to a pre-trained forelimb movement, the mouse increases the target neuron activity and the number of rewards delivered during 15-min operant conditioning without changing forelimb movement behaviour. The reinforcement bidirectionally modulates the activity of subsets of non-target neurons, independent of distance from the target neuron. The bidirectional modulation depends on the relative timing between the reward delivery and the neuronal activity, and is recreated by pairing reward delivery and photoactivation of a subset of neurons. Reward-timing-dependent bidirectional modulation may be one of the fundamental processes in microcircuit reorganization for rapid adaptation.

Suggested Citation

  • Riichiro Hira & Fuki Ohkubo & Yoshito Masamizu & Masamichi Ohkura & Junichi Nakai & Takashi Okada & Masanori Matsuzaki, 2014. "Reward-timing-dependent bidirectional modulation of cortical microcircuits during optical single-neuron operant conditioning," Nature Communications, Nature, vol. 5(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms6551
    DOI: 10.1038/ncomms6551
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    Cited by:

    1. Brian B. Jeon & Thomas Fuchs & Steven M. Chase & Sandra J. Kuhlman, 2022. "Existing function in primary visual cortex is not perturbed by new skill acquisition of a non-matched sensory task," Nature Communications, Nature, vol. 13(1), pages 1-16, December.

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