MRI signatures of cortical microstructure in human development align with oligodendrocyte cell-type expression

Sila Genc; Gareth Ball; Maxime Chamberland; Erika P Raven; Chantal MW Tax; Isobel Ward; Joseph Y M Yang; Marco Palombo; Derek K Jones

doi:10.1038/s41467-025-58604-w

MRI signatures of cortical microstructure in human development align with oligodendrocyte cell-type expression

Sila Genc^*, Gareth Ball, Maxime Chamberland, Erika P Raven, Chantal MW Tax, Isobel Ward, Joseph Y M Yang, Marco Palombo, Derek K Jones

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

Neuroanatomical changes to the cortex during adolescence have been well documented using MRI, revealing ongoing cortical thinning and volume loss. Recent advances in MRI hardware and biophysical models of tissue informed by diffusion MRI data hold promise for identifying the cellular changes driving these morphological observations. Using ultra-strong gradient MRI, this study quantifies cortical neurite and soma microstructure in typically developing youth. Across domain-specific networks, cortical neurite signal fraction, attributed to neuronal and glial processes, increases with age. The apparent soma radius, attributed to the apparent radius of glial and neuronal cell bodies, decreases with age. Analyses of two independent post-mortem datasets reveal that genes increasing in expression through adolescence are significantly enriched in cortical oligodendrocytes and Layer 5-6 neurons. In our study, we show spatial and temporal alignment of oligodendrocyte cell-type gene expression with neurite and soma microstructural changes, suggesting that ongoing cortical myelination processes drive adolescent cortical development.

Original language	English
Article number	3317
Journal	Nature Communications
Volume	16
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-58604-w
Publication status	Published - 7 Apr 2025

Keywords

Adolescent
Adult
Cerebral Cortex/diagnostic imaging
Child
Child, Preschool
Female
Humans
Magnetic Resonance Imaging/methods
Male
Neurites/metabolism
Neurons/metabolism
Oligodendroglia/metabolism
Young Adult

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s41467-025-58604-wFinal published version, 4.59 MBLicence: CC BY

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title = "MRI signatures of cortical microstructure in human development align with oligodendrocyte cell-type expression",

abstract = "Neuroanatomical changes to the cortex during adolescence have been well documented using MRI, revealing ongoing cortical thinning and volume loss. Recent advances in MRI hardware and biophysical models of tissue informed by diffusion MRI data hold promise for identifying the cellular changes driving these morphological observations. Using ultra-strong gradient MRI, this study quantifies cortical neurite and soma microstructure in typically developing youth. Across domain-specific networks, cortical neurite signal fraction, attributed to neuronal and glial processes, increases with age. The apparent soma radius, attributed to the apparent radius of glial and neuronal cell bodies, decreases with age. Analyses of two independent post-mortem datasets reveal that genes increasing in expression through adolescence are significantly enriched in cortical oligodendrocytes and Layer 5-6 neurons. In our study, we show spatial and temporal alignment of oligodendrocyte cell-type gene expression with neurite and soma microstructural changes, suggesting that ongoing cortical myelination processes drive adolescent cortical development.",

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author = "Sila Genc and Gareth Ball and Maxime Chamberland and Raven, {Erika P} and Tax, {Chantal MW} and Isobel Ward and Yang, {Joseph Y M} and Marco Palombo and Jones, {Derek K}",

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doi = "10.1038/s41467-025-58604-w",

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AU - Genc, Sila

AU - Ball, Gareth

AU - Chamberland, Maxime

AU - Raven, Erika P

AU - Tax, Chantal MW

AU - Ward, Isobel

AU - Yang, Joseph Y M

AU - Palombo, Marco

AU - Jones, Derek K

N1 - Publisher Copyright: © The Author(s) 2025.

PY - 2025/4/7

Y1 - 2025/4/7

N2 - Neuroanatomical changes to the cortex during adolescence have been well documented using MRI, revealing ongoing cortical thinning and volume loss. Recent advances in MRI hardware and biophysical models of tissue informed by diffusion MRI data hold promise for identifying the cellular changes driving these morphological observations. Using ultra-strong gradient MRI, this study quantifies cortical neurite and soma microstructure in typically developing youth. Across domain-specific networks, cortical neurite signal fraction, attributed to neuronal and glial processes, increases with age. The apparent soma radius, attributed to the apparent radius of glial and neuronal cell bodies, decreases with age. Analyses of two independent post-mortem datasets reveal that genes increasing in expression through adolescence are significantly enriched in cortical oligodendrocytes and Layer 5-6 neurons. In our study, we show spatial and temporal alignment of oligodendrocyte cell-type gene expression with neurite and soma microstructural changes, suggesting that ongoing cortical myelination processes drive adolescent cortical development.

AB - Neuroanatomical changes to the cortex during adolescence have been well documented using MRI, revealing ongoing cortical thinning and volume loss. Recent advances in MRI hardware and biophysical models of tissue informed by diffusion MRI data hold promise for identifying the cellular changes driving these morphological observations. Using ultra-strong gradient MRI, this study quantifies cortical neurite and soma microstructure in typically developing youth. Across domain-specific networks, cortical neurite signal fraction, attributed to neuronal and glial processes, increases with age. The apparent soma radius, attributed to the apparent radius of glial and neuronal cell bodies, decreases with age. Analyses of two independent post-mortem datasets reveal that genes increasing in expression through adolescence are significantly enriched in cortical oligodendrocytes and Layer 5-6 neurons. In our study, we show spatial and temporal alignment of oligodendrocyte cell-type gene expression with neurite and soma microstructural changes, suggesting that ongoing cortical myelination processes drive adolescent cortical development.

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KW - Cerebral Cortex/diagnostic imaging

KW - Child

KW - Child, Preschool

KW - Female

KW - Humans

KW - Magnetic Resonance Imaging/methods

KW - Male

KW - Neurites/metabolism

KW - Neurons/metabolism

KW - Oligodendroglia/metabolism

KW - Young Adult

U2 - 10.1038/s41467-025-58604-w

DO - 10.1038/s41467-025-58604-w

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SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 3317

ER -

MRI signatures of cortical microstructure in human development align with oligodendrocyte cell-type expression

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Keywords

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