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Proximity analysis of native proteomes reveals phenotypic modifiers in a mouse model of autism and related neurodevelopmental conditions

Author

Listed:
  • Yudong Gao

    (Duke University School of Medicine
    Baylor College of Medicine)

  • Daichi Shonai

    (Duke University School of Medicine)

  • Matthew Trn

    (Duke University School of Medicine)

  • Jieqing Zhao

    (Duke University)

  • Erik J. Soderblom

    (Duke University School of Medicine
    Duke University School of Medicine)

  • S. Alexandra Garcia-Moreno

    (Duke University)

  • Charles A. Gersbach

    (Duke University School of Medicine
    Duke University
    Duke University
    Duke University Medical Center)

  • William C. Wetsel

    (Duke University School of Medicine
    Duke University School of Medicine
    Duke University School of Medicine
    Duke University School of Medicine)

  • Geraldine Dawson

    (Duke University School of Medicine)

  • Dmitry Velmeshev

    (Duke University School of Medicine)

  • Yong-hui Jiang

    (Yale University School of Medicine
    Yale University School of Medicine
    Yale University School of Medicine)

  • Laura G. Sloofman

    (Icahn School of Medicine at Mount Sinai
    Icahn School of Medicine at Mount Sinai)

  • Joseph D. Buxbaum

    (Icahn School of Medicine at Mount Sinai
    Icahn School of Medicine at Mount Sinai
    Icahn School of Medicine at Mount Sinai
    Icahn School of Medicine at Mount Sinai)

  • Scott H. Soderling

    (Duke University School of Medicine
    Duke University School of Medicine)

Abstract

One of the main drivers of autism spectrum disorder is risk alleles within hundreds of genes, which may interact within shared but unknown protein complexes. Here we develop a scalable genome-editing-mediated approach to target 14 high-confidence autism risk genes within the mouse brain for proximity-based endogenous proteomics, achieving the identification of high-specificity spatial proteomes. The resulting native proximity proteomes are enriched for human genes dysregulated in the brain of autistic individuals, and reveal proximity interactions between proteins from high-confidence risk genes with those of lower-confidence that may provide new avenues to prioritize genetic risk. Importantly, the datasets are enriched for shared cellular functions and genetic interactions that may underlie the condition. We test this notion by spatial proteomics and CRISPR-based regulation of expression in two autism models, demonstrating functional interactions that modulate mechanisms of their dysregulation. Together, these results reveal native proteome networks in vivo relevant to autism, providing new inroads for understanding and manipulating the cellular drivers underpinning its etiology.

Suggested Citation

  • Yudong Gao & Daichi Shonai & Matthew Trn & Jieqing Zhao & Erik J. Soderblom & S. Alexandra Garcia-Moreno & Charles A. Gersbach & William C. Wetsel & Geraldine Dawson & Dmitry Velmeshev & Yong-hui Jian, 2024. "Proximity analysis of native proteomes reveals phenotypic modifiers in a mouse model of autism and related neurodevelopmental conditions," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-51037-x
    DOI: 10.1038/s41467-024-51037-x
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