Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex

Alice Franklin; Jonathan P. Davies; Nicholas E. Clifton; Georgina E.T. Blake; Rosemary Bamford; Emma M. Walker; Barry Chioza; Martyn Frith; Simon Baron-Cohen; Carrie Allison; Varun Warrier; Alex Tsompanidis; Deep Adhya; Rosie Holt; Joanna Davis; Genie Gu; Yira Zhang; Niran Okewole; Omar Al-Rubaie; Daniel H. Geschwind; Ramin Ali Marandi Ghoddousi; Alexander E.P. Heazell; Jonathan Mill; Alice Franklin; Rosemary Bamford; Matthew E. Hurles; Hilary C. Martin; Mahmoud Mousa; David H. Rowitch; Kathy K. Niakan; Graham J. Burton; Fateneh Ghafari; Deepak P. Srivastava; Lucia Dutan-Polit; Adam Pavlinek; Laura Sichlinger; Roland Nagy; Madeline A. Lancaster; Jose Gonzalez-Martinez; Tal Biron-Shental; Lidia V. Gabis; Bart Rutten; Sinan Gülöksüz; Bochao Danae Lin; Erika van Hell; Jim van Os; Jeroen Pasterkamp; Anna Wiersema; Marco Boks; Winni Schalkwijk

doi:10.1016/j.xgen.2025.101010

Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex

Alice Franklin^*
, Jonathan P. Davies
, Nicholas E. Clifton
, Georgina E.T. Blake
, Rosemary Bamford
, Emma M. Walker
, Barry Chioza
, Martyn Frith
, Simon Baron-Cohen
, Carrie Allison
, Varun Warrier
, Alex Tsompanidis
, Deep Adhya
, Rosie Holt
, Joanna Davis
, Genie Gu
, Yira Zhang
, Niran Okewole
, Omar Al-Rubaie
, Daniel H. Geschwind

Ramin Ali Marandi Ghoddousi, Alexander E.P. Heazell, Jonathan Mill^*, Alice Franklin^*, Rosemary Bamford, Matthew E. Hurles, Hilary C. Martin, Mahmoud Mousa, David H. Rowitch, Kathy K. Niakan, Graham J. Burton, Fateneh Ghafari, Deepak P. Srivastava, Lucia Dutan-Polit, Adam Pavlinek, Laura Sichlinger, Roland Nagy, Madeline A. Lancaster, Jose Gonzalez-Martinez, Tal Biron-Shental, Lidia V. Gabis, Bart Rutten, Sinan Gülöksüz, Bochao Danae Lin, Erika van Hell, Jim van Os, Jeroen Pasterkamp, Anna Wiersema, Marco Boks, Winni Schalkwijk, ,

^*Corresponding author for this work

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

Abstract

The human cortex undergoes extensive epigenetic remodeling during development, although the precise temporal and cell-type-specific dynamics of DNA methylation remain incompletely understood. In this study, we profiled genome-wide DNA methylation across human cortex tissue from donors aged 6 post-conception weeks to 108 years of age. We observed widespread, developmentally regulated changes in DNA methylation, with pronounced shifts occurring during early- and mid-gestation that were distinct from age-associated modifications in the postnatal cortex. Using fluorescence-activated nuclei sorting, we optimized a protocol for the isolation of SATB2-positive neuronal nuclei, enabling the identification of cell-type-specific DNA methylation trajectories in the developing cortex. Developmentally dynamic DNA methylation sites were significantly enriched near genes implicated in autism and schizophrenia, supporting a role for epigenetic dysregulation in neurodevelopmental conditions. Our findings underscore the prenatal period as a critical window of epigenomic plasticity in the brain with important implications for understanding the genetic basis of neurodevelopmental phenotypes.

Original language	English
Article number	101010
Journal	Cell genomics
Volume	5
Issue number	12
DOIs	https://doi.org/10.1016/j.xgen.2025.101010
Publication status	Published - 10 Dec 2025

Keywords

aging
autism
brain
cortex
development
DNA methylation
epigenetics
fetal
neuronal
schizophrenia

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10.1016/j.xgen.2025.101010Licence: CC BY

Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortexFinal published version, 13 MBLicence: CC BY

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Franklin, A., Davies, J. P., Clifton, N. E., Blake, G. E. T., Bamford, R., Walker, E. M., Chioza, B., Frith, M., Baron-Cohen, S., Allison, C., Warrier, V., Tsompanidis, A., Adhya, D., Holt, R., Davis, J., Gu, G., Zhang, Y., Okewole, N., Al-Rubaie, O. (2025). Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex. Cell genomics, 5(12), Article 101010. https://doi.org/10.1016/j.xgen.2025.101010

@article{99f2e988c977412fa32999dcae4ab8cb,

title = "Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex",

abstract = "The human cortex undergoes extensive epigenetic remodeling during development, although the precise temporal and cell-type-specific dynamics of DNA methylation remain incompletely understood. In this study, we profiled genome-wide DNA methylation across human cortex tissue from donors aged 6 post-conception weeks to 108 years of age. We observed widespread, developmentally regulated changes in DNA methylation, with pronounced shifts occurring during early- and mid-gestation that were distinct from age-associated modifications in the postnatal cortex. Using fluorescence-activated nuclei sorting, we optimized a protocol for the isolation of SATB2-positive neuronal nuclei, enabling the identification of cell-type-specific DNA methylation trajectories in the developing cortex. Developmentally dynamic DNA methylation sites were significantly enriched near genes implicated in autism and schizophrenia, supporting a role for epigenetic dysregulation in neurodevelopmental conditions. Our findings underscore the prenatal period as a critical window of epigenomic plasticity in the brain with important implications for understanding the genetic basis of neurodevelopmental phenotypes.",

keywords = "aging, autism, brain, cortex, development, DNA methylation, epigenetics, fetal, neuronal, schizophrenia",

author = "Alice Franklin and Davies, \{Jonathan P.\} and Clifton, \{Nicholas E.\} and Blake, \{Georgina E.T.\} and Rosemary Bamford and Walker, \{Emma M.\} and Barry Chioza and Martyn Frith and Simon Baron-Cohen and Carrie Allison and Varun Warrier and Alex Tsompanidis and Deep Adhya and Rosie Holt and Joanna Davis and Genie Gu and Yira Zhang and Niran Okewole and Omar Al-Rubaie and Geschwind, \{Daniel H.\} and Ghoddousi, \{Ramin Ali Marandi\} and Heazell, \{Alexander E.P.\} and Jonathan Mill and Alice Franklin and Rosemary Bamford and Hurles, \{Matthew E.\} and Martin, \{Hilary C.\} and Mahmoud Mousa and Rowitch, \{David H.\} and Niakan, \{Kathy K.\} and Burton, \{Graham J.\} and Fateneh Ghafari and Srivastava, \{Deepak P.\} and Lucia Dutan-Polit and Adam Pavlinek and Laura Sichlinger and Roland Nagy and Lancaster, \{Madeline A.\} and Jose Gonzalez-Martinez and Tal Biron-Shental and Gabis, \{Lidia V.\} and Bart Rutten and Sinan G{\"u}l{\"o}ks{\"u}z and Lin, \{Bochao Danae\} and \{van Hell\}, Erika and \{van Os\}, Jim and Jeroen Pasterkamp and Anna Wiersema and Marco Boks and Winni Schalkwijk",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s).",

year = "2025",

month = dec,

day = "10",

doi = "10.1016/j.xgen.2025.101010",

language = "English",

volume = "5",

journal = "Cell genomics",

issn = "2666-979X",

publisher = "Cell Press",

number = "12",

}

Franklin, A, Davies, JP, Clifton, NE, Blake, GET, Bamford, R, Walker, EM, Chioza, B, Frith, M, Baron-Cohen, S, Allison, C, Warrier, V, Tsompanidis, A, Adhya, D, Holt, R, Davis, J, Gu, G, Zhang, Y, Okewole, N, Al-Rubaie, O, Geschwind, DH, Ghoddousi, RAM, Heazell, AEP, Mill, J, Franklin, A, Bamford, R, Hurles, ME, Martin, HC, Mousa, M, Rowitch, DH, Niakan, KK, Burton, GJ, Ghafari, F, Srivastava, DP, Dutan-Polit, L, Pavlinek, A, Sichlinger, L, Nagy, R, Lancaster, MA, Gonzalez-Martinez, J, Biron-Shental, T, Gabis, LV, Rutten, B, Gülöksüz, S, Lin, BD, van Hell, E, van Os, J , Pasterkamp, J, Wiersema, A, Boks, M , Schalkwijk, W 2025, 'Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex', Cell genomics, vol. 5, no. 12, 101010. https://doi.org/10.1016/j.xgen.2025.101010

TY - JOUR

T1 - Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex

AU - Franklin, Alice

AU - Davies, Jonathan P.

AU - Clifton, Nicholas E.

AU - Blake, Georgina E.T.

AU - Bamford, Rosemary

AU - Walker, Emma M.

AU - Chioza, Barry

AU - Frith, Martyn

AU - Baron-Cohen, Simon

AU - Allison, Carrie

AU - Warrier, Varun

AU - Tsompanidis, Alex

AU - Adhya, Deep

AU - Holt, Rosie

AU - Davis, Joanna

AU - Gu, Genie

AU - Zhang, Yira

AU - Okewole, Niran

AU - Al-Rubaie, Omar

AU - Geschwind, Daniel H.

AU - Ghoddousi, Ramin Ali Marandi

AU - Heazell, Alexander E.P.

AU - Mill, Jonathan

AU - Franklin, Alice

AU - Bamford, Rosemary

AU - Hurles, Matthew E.

AU - Martin, Hilary C.

AU - Mousa, Mahmoud

AU - Rowitch, David H.

AU - Niakan, Kathy K.

AU - Burton, Graham J.

AU - Ghafari, Fateneh

AU - Srivastava, Deepak P.

AU - Dutan-Polit, Lucia

AU - Pavlinek, Adam

AU - Sichlinger, Laura

AU - Nagy, Roland

AU - Lancaster, Madeline A.

AU - Gonzalez-Martinez, Jose

AU - Biron-Shental, Tal

AU - Gabis, Lidia V.

AU - Rutten, Bart

AU - Gülöksüz, Sinan

AU - Lin, Bochao Danae

AU - van Hell, Erika

AU - van Os, Jim

AU - Pasterkamp, Jeroen

AU - Wiersema, Anna

AU - Boks, Marco

AU - Schalkwijk, Winni

PY - 2025/12/10

Y1 - 2025/12/10

N2 - The human cortex undergoes extensive epigenetic remodeling during development, although the precise temporal and cell-type-specific dynamics of DNA methylation remain incompletely understood. In this study, we profiled genome-wide DNA methylation across human cortex tissue from donors aged 6 post-conception weeks to 108 years of age. We observed widespread, developmentally regulated changes in DNA methylation, with pronounced shifts occurring during early- and mid-gestation that were distinct from age-associated modifications in the postnatal cortex. Using fluorescence-activated nuclei sorting, we optimized a protocol for the isolation of SATB2-positive neuronal nuclei, enabling the identification of cell-type-specific DNA methylation trajectories in the developing cortex. Developmentally dynamic DNA methylation sites were significantly enriched near genes implicated in autism and schizophrenia, supporting a role for epigenetic dysregulation in neurodevelopmental conditions. Our findings underscore the prenatal period as a critical window of epigenomic plasticity in the brain with important implications for understanding the genetic basis of neurodevelopmental phenotypes.

AB - The human cortex undergoes extensive epigenetic remodeling during development, although the precise temporal and cell-type-specific dynamics of DNA methylation remain incompletely understood. In this study, we profiled genome-wide DNA methylation across human cortex tissue from donors aged 6 post-conception weeks to 108 years of age. We observed widespread, developmentally regulated changes in DNA methylation, with pronounced shifts occurring during early- and mid-gestation that were distinct from age-associated modifications in the postnatal cortex. Using fluorescence-activated nuclei sorting, we optimized a protocol for the isolation of SATB2-positive neuronal nuclei, enabling the identification of cell-type-specific DNA methylation trajectories in the developing cortex. Developmentally dynamic DNA methylation sites were significantly enriched near genes implicated in autism and schizophrenia, supporting a role for epigenetic dysregulation in neurodevelopmental conditions. Our findings underscore the prenatal period as a critical window of epigenomic plasticity in the brain with important implications for understanding the genetic basis of neurodevelopmental phenotypes.

KW - aging

KW - autism

KW - brain

KW - cortex

KW - development

KW - DNA methylation

KW - epigenetics

KW - fetal

KW - neuronal

KW - schizophrenia

UR - https://www.scopus.com/pages/publications/105024126593

U2 - 10.1016/j.xgen.2025.101010

DO - 10.1016/j.xgen.2025.101010

M3 - Article

AN - SCOPUS:105024126593

SN - 2666-979X

VL - 5

JO - Cell genomics

JF - Cell genomics

IS - 12

M1 - 101010

ER -

Cell-type-specific DNA methylation dynamics in the prenatal and postnatal human cortex

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Keywords

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