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A frontal transcallosal inhibition loop mediates interhemispheric balance in visuospatial processing

Author

Listed:
  • Yanjie Wang

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

  • Zhaonan Chen

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

  • Guofen Ma

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

  • Lizhao Wang

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

  • Yanmei Liu

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

  • Meiling Qin

    (Chinese Academy of Sciences)

  • Xiang Fei

    (Chinese Academy of Sciences)

  • Yifan Wu

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

  • Min Xu

    (Chinese Academy of Sciences)

  • Siyu Zhang

    (Shanghai Jiao Tong University, School of Medicine
    Shanghai Jiao Tong University)

Abstract

Interhemispheric communication through the corpus callosum is required for both sensory and cognitive processes. Impaired transcallosal inhibition causing interhemispheric imbalance is believed to underlie visuospatial bias after frontoparietal cortical damage, but the synaptic circuits involved remain largely unknown. Here, we show that lesions in the mouse anterior cingulate area (ACA) cause severe visuospatial bias mediated by a transcallosal inhibition loop. In a visual-change-detection task, ACA callosal-projection neurons (CPNs) were more active with contralateral visual field changes than with ipsilateral changes. Unilateral CPN inactivation impaired contralateral change detection but improved ipsilateral detection by altering interhemispheric interaction through callosal projections. CPNs strongly activated contralateral parvalbumin-positive (PV+) neurons, and callosal-input-driven PV+ neurons preferentially inhibited ipsilateral CPNs, thus mediating transcallosal inhibition. Unilateral PV+ neuron activation caused a similar behavioral bias to contralateral CPN activation and ipsilateral CPN inactivation, and bilateral PV+ neuron activation eliminated this bias. Notably, restoring interhemispheric balance by activating contralesional PV+ neurons significantly improved contralesional detection in ACA-lesioned animals. Thus, a frontal transcallosal inhibition loop comprising CPNs and callosal-input-driven PV+ neurons mediates interhemispheric balance in visuospatial processing, and enhancing contralesional transcallosal inhibition restores interhemispheric balance while also reversing lesion-induced bias.

Suggested Citation

  • Yanjie Wang & Zhaonan Chen & Guofen Ma & Lizhao Wang & Yanmei Liu & Meiling Qin & Xiang Fei & Yifan Wu & Min Xu & Siyu Zhang, 2023. "A frontal transcallosal inhibition loop mediates interhemispheric balance in visuospatial processing," Nature Communications, Nature, vol. 14(1), pages 1-21, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40985-5
    DOI: 10.1038/s41467-023-40985-5
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    1. Yanmei Liu & Jiahe Zhang & Zhishan Jiang & Meiling Qin & Min Xu & Siyu Zhang & Guofen Ma, 2024. "Organization of corticocortical and thalamocortical top-down inputs in the primary visual cortex," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
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    3. Yao Fei & Qihang Wu & Shijie Zhao & Kun Song & Junwei Han & Cirong Liu, 2024. "Diverse and asymmetric patterns of single-neuron projectome in regulating interhemispheric connectivity," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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