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Translaminar recurrence from layer 5 suppresses superficial cortical layers

Author

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  • Koun Onodera

    (University of North Carolina at Chapel Hill
    University of North Carolina at Chapel Hill
    Japan Society for the Promotion of Science)

  • Hiroyuki K. Kato

    (University of North Carolina at Chapel Hill
    University of North Carolina at Chapel Hill
    Carolina Institute for Developmental Disabilities, University of North Carolina at Chapel Hill)

Abstract

Information flow in the sensory cortex has been described as a predominantly feedforward sequence with deep layers as the output structure. Although recurrent excitatory projections from layer 5 (L5) to superficial L2/3 have been identified by anatomical and physiological studies, their functional impact on sensory processing remains unclear. Here, we use layer-selective optogenetic manipulations in the primary auditory cortex to demonstrate that feedback inputs from L5 suppress the activity of superficial layers regardless of the arousal level, contrary to the prediction from their excitatory connectivity. This suppressive effect is predominantly mediated by translaminar circuitry through intratelencephalic neurons, with an additional contribution of subcortical projections by pyramidal tract neurons. Furthermore, L5 activation sharpened tone-evoked responses of superficial layers in both frequency and time domains, indicating its impact on cortical spectro-temporal integration. Together, our findings establish a translaminar inhibitory recurrence from deep layers that sharpens feature selectivity in superficial cortical layers.

Suggested Citation

  • Koun Onodera & Hiroyuki K. Kato, 2022. "Translaminar recurrence from layer 5 suppresses superficial cortical layers," Nature Communications, Nature, vol. 13(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30349-w
    DOI: 10.1038/s41467-022-30349-w
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    2. Brian P. Rummell & Solmaz Bikas & Susanne S. Babl & Joseph A. Gogos & Torfi Sigurdsson, 2023. "Altered corollary discharge signaling in the auditory cortex of a mouse model of schizophrenia predisposition," Nature Communications, Nature, vol. 14(1), pages 1-15, December.

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