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α7 nicotinic acetylcholine receptors regulate radial glia fate in the developing human cortex

Author

Listed:
  • Tanzila Mukhtar

    (University of California
    UCSF)

  • Clara-Vita Siebert

    (University of California
    UCSF
    University of Amsterdam)

  • Yuejun Wang

    (University of California
    UCSF)

  • Mark-Phillip Pebworth

    (University of California
    UCSF
    Allen Institute of Immunology)

  • Matthew L. White

    (University of California
    UCSF)

  • Tianzhi Wu

    (University of California
    UCSF)

  • Tan Ieng Huang

    (University of California
    UCSF)

  • Guolong Zuo

    (University of California
    UCSF)

  • Jayden Ross

    (University of California
    UCSF)

  • Jennifer Baltazar

    (University of California
    UCSF)

  • Varun Upadhyay

    (University of California
    UCSF)

  • Merut Shankar

    (University of California
    UCSF)

  • Li Zhou

    (University of California
    UCSF)

  • Isabel Lombardi-Coronel

    (University of California
    UCSF)

  • Ishaan Mandala

    (University of California
    UCSF)

  • Manal A. Adam

    (University of California
    UCSF)

  • Shaohui Wang

    (University of California
    UCSF)

  • Qiuli Bi

    (University of California
    UCSF)

  • Marco F. M. Hoekman

    (University of Amsterdam)

  • Jingjing Li

    (University of California
    UCSF)

  • Arnold R. Kriegstein

    (University of California
    UCSF)

Abstract

Prenatal nicotine exposure impairs fetal cortical grey matter volume, but the precise cellular mechanisms remain poorly understood. This study elucidates the role of nicotinic acetylcholine receptors (nAChRs) in progenitor cells and radial glia (RG) during human cortical development. We identify two nAChR subunits—CHRNA7 and the human-specific CHRFAM7A—expressed in SOX2+ progenitors and neurons, with CHRFAM7A particularly enriched along RG endfeet. nAChR activation in organotypic slices and dissociated cultures increases RG proliferation while decreasing neuronal differentiation, whereas nAChR knockdown reduces RG and increases neurons. Single-cell RNA sequencing reveals that nicotine exposure downregulates key genes in excitatory neurons (ENs), with CHRNA7 or CHRFAM7A selectively modulating these changes, suggesting an evolutionary divergence in regulatory pathways. Furthermore, we identify YAP1 as a critical downstream effector of nAChR signaling, and inhibiting YAP1 reverses nicotine-induced phenotypic alterations in oRG cells, highlighting its role in nicotine-induced neurodevelopmental pathophysiology.

Suggested Citation

  • Tanzila Mukhtar & Clara-Vita Siebert & Yuejun Wang & Mark-Phillip Pebworth & Matthew L. White & Tianzhi Wu & Tan Ieng Huang & Guolong Zuo & Jayden Ross & Jennifer Baltazar & Varun Upadhyay & Merut Sha, 2025. "α7 nicotinic acetylcholine receptors regulate radial glia fate in the developing human cortex," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-61167-5
    DOI: 10.1038/s41467-025-61167-5
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    References listed on IDEAS

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