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Schizophrenia-associated NRXN1 deletions induce developmental-timing- and cell-type-specific vulnerabilities in human brain organoids

Author

Listed:
  • Rebecca Sebastian

    (UMass Amherst
    UMass Amherst)

  • Kang Jin

    (Cincinnati Children’s Hospital Medical Center
    University of Cincinnati)

  • Narciso Pavon

    (UMass Amherst)

  • Ruby Bansal

    (UMass Amherst)

  • Andrew Potter

    (Cincinnati Children’s Hospital Medical Center)

  • Yoonjae Song

    (UMass Amherst)

  • Juliana Babu

    (UMass Amherst)

  • Rafael Gabriel

    (UMass Amherst)

  • Yubing Sun

    (UMass Amherst)

  • Bruce Aronow

    (Cincinnati Children’s Hospital Medical Center
    University of Cincinnati
    University of Cincinnati
    University of Cincinnati School of Medicine)

  • ChangHui Pak

    (UMass Amherst)

Abstract

De novo mutations and copy number deletions in NRXN1 (2p16.3) pose a significant risk for schizophrenia (SCZ). It is unclear how NRXN1 deletions impact cortical development in a cell type-specific manner and disease background modulates these phenotypes. Here, we leveraged human pluripotent stem cell-derived forebrain organoid models carrying NRXN1 heterozygous deletions in isogenic and SCZ patient genetic backgrounds and conducted single-cell transcriptomic analysis over the course of brain organoid development from 3 weeks to 3.5 months. Intriguingly, while both deletions similarly impacted molecular pathways associated with ubiquitin-proteasome system, alternative splicing, and synaptic signaling in maturing glutamatergic and GABAergic neurons, SCZ-NRXN1 deletions specifically perturbed developmental trajectories of early neural progenitors and accumulated disease-specific transcriptomic signatures. Using calcium imaging, we found that both deletions led to long-lasting changes in spontaneous and synchronous neuronal networks, implicating synaptic dysfunction. Our study reveals developmental-timing- and cell-type-dependent actions of NRXN1 deletions in unique genetic contexts.

Suggested Citation

  • Rebecca Sebastian & Kang Jin & Narciso Pavon & Ruby Bansal & Andrew Potter & Yoonjae Song & Juliana Babu & Rafael Gabriel & Yubing Sun & Bruce Aronow & ChangHui Pak, 2023. "Schizophrenia-associated NRXN1 deletions induce developmental-timing- and cell-type-specific vulnerabilities in human brain organoids," Nature Communications, Nature, vol. 14(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-39420-6
    DOI: 10.1038/s41467-023-39420-6
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