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Differences in subcortico-cortical interactions identified from connectome and microcircuit models in autism

Author

Listed:
  • Bo-yong Park

    (McGill University
    Inha University)

  • Seok-Jun Hong

    (McGill University
    Child Mind Institute
    Institute for Basic Science, Sungkyunkwan University
    Sungkyunkwan University)

  • Sofie L. Valk

    (Forschungszentrum
    Max Planck Institute for Cognitive and Brain Sciences)

  • Casey Paquola

    (McGill University)

  • Oualid Benkarim

    (McGill University)

  • Richard A. I. Bethlehem

    (University of Cambridge
    University of Cambridge)

  • Adriana Di Martino

    (Child Mind Institute)

  • Michael P. Milham

    (Child Mind Institute)

  • Alessandro Gozzi

    (Istituto Italiano di Tecnologia, Centre for Neuroscience and Cognitive Systems @ UNITN)

  • B. T. Thomas Yeo

    (National University of Singapore
    National University of Singapore
    National University of Singapore
    Massachusetts General Hospital)

  • Jonathan Smallwood

    (University of York
    Queen’s University)

  • Boris C. Bernhardt

    (McGill University)

Abstract

The pathophysiology of autism has been suggested to involve a combination of both macroscale connectome miswiring and microcircuit anomalies. Here, we combine connectome-wide manifold learning with biophysical simulation models to understand associations between global network perturbations and microcircuit dysfunctions in autism. We studied neuroimaging and phenotypic data in 47 individuals with autism and 37 typically developing controls obtained from the Autism Brain Imaging Data Exchange initiative. Our analysis establishes significant differences in structural connectome organization in individuals with autism relative to controls, with strong between-group effects in low-level somatosensory regions and moderate effects in high-level association cortices. Computational models reveal that the degree of macroscale anomalies is related to atypical increases of recurrent excitation/inhibition, as well as subcortical inputs into cortical microcircuits, especially in sensory and motor areas. Transcriptomic association analysis based on postmortem datasets identifies genes expressed in cortical and thalamic areas from childhood to young adulthood. Finally, supervised machine learning finds that the macroscale perturbations are associated with symptom severity scores on the Autism Diagnostic Observation Schedule. Together, our analyses suggest that atypical subcortico-cortical interactions are associated with both microcircuit and macroscale connectome differences in autism.

Suggested Citation

  • Bo-yong Park & Seok-Jun Hong & Sofie L. Valk & Casey Paquola & Oualid Benkarim & Richard A. I. Bethlehem & Adriana Di Martino & Michael P. Milham & Alessandro Gozzi & B. T. Thomas Yeo & Jonathan Small, 2021. "Differences in subcortico-cortical interactions identified from connectome and microcircuit models in autism," Nature Communications, Nature, vol. 12(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21732-0
    DOI: 10.1038/s41467-021-21732-0
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    Cited by:

    1. M. D. Hettwer & S. Larivière & B. Y. Park & O. A. Heuvel & L. Schmaal & O. A. Andreassen & C. R. K. Ching & M. Hoogman & J. Buitelaar & D. Rooij & D. J. Veltman & D. J. Stein & B. Franke & T. G. M. Er, 2022. "Coordinated cortical thickness alterations across six neurodevelopmental and psychiatric disorders," Nature Communications, Nature, vol. 13(1), pages 1-14, December.

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