Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U

Sara Alidadiani; Júlia Faura; Sarah Wynants; Nele Peeters; Marleen Van den Broeck; Linus De Witte; Rafaela Policarpo; Simon Cheung; Cyril Pottier; Nikhil B. Ghayal; Merel O. Mol; Marka van Blitterswijk; Evan Udine; Mariely DeJesus-Hernandez; Matthew Baker; Ni Cole A. Finch; Yan W. Asmann; Jeroen G.J. van Rooij; Aivi T. Nguyen; R. Ross Reichard; Alissa L. Nana; Oscar L. Lopez; Adam L. Boxer; Howard J. Rosen; Salvatore Spina; Jochen Herms; Keith A. Josephs; Ronald C. Petersen; Robert A. Rissman; Annie Hiniker; Lee Cyn Ang; Lea T. Grinberg; Glenda M. Halliday; Bradley F. Boeve; Neill R. Graff-Radford; Harro Seelaar; Manuela Neumann; Julia Kofler; Charles L. White; William W. Seeley; John C. van Swieten; Dennis W. Dickson; Ian R.A. Mackenzie; Wouter De Coster; Rosa Rademakers

doi:10.1007/s00401-025-02919-x

Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U

Sara Alidadiani
, Júlia Faura
, Sarah Wynants
, Nele Peeters
, Marleen Van den Broeck
, Linus De Witte
, Rafaela Policarpo
, Simon Cheung
, Cyril Pottier
, Nikhil B. Ghayal
, Merel O. Mol
, Marka van Blitterswijk
, Evan Udine
, Mariely DeJesus-Hernandez
, Matthew Baker
, Ni Cole A. Finch
, Yan W. Asmann
, Jeroen G.J. van Rooij
, Aivi T. Nguyen
, R. Ross Reichard

Alissa L. Nana, Oscar L. Lopez, Adam L. Boxer, Howard J. Rosen, Salvatore Spina, Jochen Herms, Keith A. Josephs, Ronald C. Petersen, Robert A. Rissman, Annie Hiniker, Lee Cyn Ang, Lea T. Grinberg, Glenda M. Halliday, Bradley F. Boeve, Neill R. Graff-Radford, Harro Seelaar, Manuela Neumann, Julia Kofler, Charles L. White, William W. Seeley, John C. van Swieten, Dennis W. Dickson, Ian R.A. Mackenzie, Wouter De Coster, Rosa Rademakers

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

Abstract

Atypical frontotemporal lobar degeneration with ubiquitin-positive inclusions (aFTLD-U) is a rare cause of frontotemporal lobar degeneration (FTLD), characterized postmortem by neuronal inclusions of the FET family of proteins (FTLD-FET). The recent discovery of TAF15 amyloid filaments in aFTLD-U brains represents a significant step toward improved diagnostic and therapeutic strategies. However, our understanding of the etiology of this FTLD subtype remains limited, which severely hampers translational research efforts. To explore the transcriptomic changes in aFTLD-U, we performed bulk RNA sequencing on the frontal cortex tissue of 21 aFTLD-U patients and 20 control individuals. Cell-type deconvolution revealed loss of excitatory neurons and a higher proportion of astrocytes in aFTLD-U relative to controls. Differential gene expression and co-expression network analysis, adjusted for the shift in cell-type proportions, showed dysregulation of mitochondrial pathways, transcriptional regulators, and upregulation of the Sonic hedgehog (Shh) pathway, including the GLI1 transcription factor, in aFTLD-U. Overall, oligodendrocyte and astrocyte-enriched genes were significantly over-represented among the differentially expressed genes. Differential splicing analysis confirmed the dysregulation of non-neuronal cell types with significant splicing alterations, particularly in oligodendrocyte-enriched genes, including myelin basic protein (MBP), a crucial component of myelin. Immunohistochemistry in frontal cortex brain tissue also showed reduced myelin levels in aFTLD-U patients compared to controls. Together, these findings highlight a central role for glial cells, particularly astrocytes and oligodendrocytes, in the pathogenesis of aFTLD-U, with disruptions in mitochondrial activity, RNA metabolism, Shh signaling, and myelination as possible disease mechanisms. This study offers the first transcriptomic insight into aFTLD-U and presents new avenues for research into FTLD-FET.

Original language	English
Article number	17
Journal	Acta Neuropathologica
Volume	150
Issue number	1
DOIs	https://doi.org/10.1007/s00401-025-02919-x
State	Published - Dec 2025

Keywords

Glial cells
Mitochondria
Sonic hedgehog signaling
Splicing
Transcriptomics
aFTLD-U

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10.1007/s00401-025-02919-x

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Alidadiani, S., Faura, J., Wynants, S., Peeters, N., Van den Broeck, M., De Witte, L., Policarpo, R., Cheung, S., Pottier, C., Ghayal, N. B., Mol, M. O., van Blitterswijk, M., Udine, E., DeJesus-Hernandez, M., Baker, M., Finch, N. C. A., Asmann, Y. W., van Rooij, J. G. J., Nguyen, A. T., ... Rademakers, R. (2025). Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U. Acta Neuropathologica, 150(1), Article 17. https://doi.org/10.1007/s00401-025-02919-x

@article{569a1e6e4b5144d8a0e4d1b126eb9ab7,

title = "Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U",

abstract = "Atypical frontotemporal lobar degeneration with ubiquitin-positive inclusions (aFTLD-U) is a rare cause of frontotemporal lobar degeneration (FTLD), characterized postmortem by neuronal inclusions of the FET family of proteins (FTLD-FET). The recent discovery of TAF15 amyloid filaments in aFTLD-U brains represents a significant step toward improved diagnostic and therapeutic strategies. However, our understanding of the etiology of this FTLD subtype remains limited, which severely hampers translational research efforts. To explore the transcriptomic changes in aFTLD-U, we performed bulk RNA sequencing on the frontal cortex tissue of 21 aFTLD-U patients and 20 control individuals. Cell-type deconvolution revealed loss of excitatory neurons and a higher proportion of astrocytes in aFTLD-U relative to controls. Differential gene expression and co-expression network analysis, adjusted for the shift in cell-type proportions, showed dysregulation of mitochondrial pathways, transcriptional regulators, and upregulation of the Sonic hedgehog (Shh) pathway, including the GLI1 transcription factor, in aFTLD-U. Overall, oligodendrocyte and astrocyte-enriched genes were significantly over-represented among the differentially expressed genes. Differential splicing analysis confirmed the dysregulation of non-neuronal cell types with significant splicing alterations, particularly in oligodendrocyte-enriched genes, including myelin basic protein (MBP), a crucial component of myelin. Immunohistochemistry in frontal cortex brain tissue also showed reduced myelin levels in aFTLD-U patients compared to controls. Together, these findings highlight a central role for glial cells, particularly astrocytes and oligodendrocytes, in the pathogenesis of aFTLD-U, with disruptions in mitochondrial activity, RNA metabolism, Shh signaling, and myelination as possible disease mechanisms. This study offers the first transcriptomic insight into aFTLD-U and presents new avenues for research into FTLD-FET.",

keywords = "Glial cells, Mitochondria, Sonic hedgehog signaling, Splicing, Transcriptomics, aFTLD-U",

author = "Sara Alidadiani and J{\'u}lia Faura and Sarah Wynants and Nele Peeters and \{Van den Broeck\}, Marleen and \{De Witte\}, Linus and Rafaela Policarpo and Simon Cheung and Cyril Pottier and Ghayal, \{Nikhil B.\} and Mol, \{Merel O.\} and \{van Blitterswijk\}, Marka and Evan Udine and Mariely DeJesus-Hernandez and Matthew Baker and Finch, \{Ni Cole A.\} and Asmann, \{Yan W.\} and \{van Rooij\}, \{Jeroen G.J.\} and Nguyen, \{Aivi T.\} and \{Ross Reichard\}, R. and Nana, \{Alissa L.\} and Lopez, \{Oscar L.\} and Boxer, \{Adam L.\} and Rosen, \{Howard J.\} and Salvatore Spina and Jochen Herms and Josephs, \{Keith A.\} and Petersen, \{Ronald C.\} and Rissman, \{Robert A.\} and Annie Hiniker and Ang, \{Lee Cyn\} and Grinberg, \{Lea T.\} and Halliday, \{Glenda M.\} and Boeve, \{Bradley F.\} and Graff-Radford, \{Neill R.\} and Harro Seelaar and Manuela Neumann and Julia Kofler and White, \{Charles L.\} and Seeley, \{William W.\} and \{van Swieten\}, \{John C.\} and Dickson, \{Dennis W.\} and Mackenzie, \{Ian R.A.\} and \{De Coster\}, Wouter and Rosa Rademakers",

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

year = "2025",

month = dec,

doi = "10.1007/s00401-025-02919-x",

language = "English",

volume = "150",

journal = "Acta Neuropathologica",

issn = "0001-6322",

number = "1",

}

Alidadiani, S, Faura, J, Wynants, S, Peeters, N, Van den Broeck, M, De Witte, L, Policarpo, R, Cheung, S, Pottier, C, Ghayal, NB, Mol, MO, van Blitterswijk, M, Udine, E, DeJesus-Hernandez, M, Baker, M, Finch, NCA, Asmann, YW, van Rooij, JGJ, Nguyen, AT, Ross Reichard, R, Nana, AL, Lopez, OL, Boxer, AL, Rosen, HJ, Spina, S, Herms, J, Josephs, KA, Petersen, RC, Rissman, RA, Hiniker, A, Ang, LC, Grinberg, LT, Halliday, GM, Boeve, BF, Graff-Radford, NR, Seelaar, H, Neumann, M, Kofler, J, White, CL, Seeley, WW, van Swieten, JC, Dickson, DW, Mackenzie, IRA, De Coster, W & Rademakers, R 2025, 'Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U', Acta Neuropathologica, vol. 150, no. 1, 17. https://doi.org/10.1007/s00401-025-02919-x

TY - JOUR

T1 - Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U

AU - Alidadiani, Sara

AU - Faura, Júlia

AU - Wynants, Sarah

AU - Peeters, Nele

AU - Van den Broeck, Marleen

AU - De Witte, Linus

AU - Policarpo, Rafaela

AU - Cheung, Simon

AU - Pottier, Cyril

AU - Ghayal, Nikhil B.

AU - Mol, Merel O.

AU - van Blitterswijk, Marka

AU - Udine, Evan

AU - DeJesus-Hernandez, Mariely

AU - Baker, Matthew

AU - Finch, Ni Cole A.

AU - Asmann, Yan W.

AU - van Rooij, Jeroen G.J.

AU - Nguyen, Aivi T.

AU - Ross Reichard, R.

AU - Nana, Alissa L.

AU - Lopez, Oscar L.

AU - Boxer, Adam L.

AU - Rosen, Howard J.

AU - Spina, Salvatore

AU - Herms, Jochen

AU - Josephs, Keith A.

AU - Petersen, Ronald C.

AU - Rissman, Robert A.

AU - Hiniker, Annie

AU - Ang, Lee Cyn

AU - Grinberg, Lea T.

AU - Halliday, Glenda M.

AU - Boeve, Bradley F.

AU - Graff-Radford, Neill R.

AU - Seelaar, Harro

AU - Neumann, Manuela

AU - Kofler, Julia

AU - White, Charles L.

AU - Seeley, William W.

AU - van Swieten, John C.

AU - Dickson, Dennis W.

AU - Mackenzie, Ian R.A.

AU - De Coster, Wouter

AU - Rademakers, Rosa

PY - 2025/12

Y1 - 2025/12

N2 - Atypical frontotemporal lobar degeneration with ubiquitin-positive inclusions (aFTLD-U) is a rare cause of frontotemporal lobar degeneration (FTLD), characterized postmortem by neuronal inclusions of the FET family of proteins (FTLD-FET). The recent discovery of TAF15 amyloid filaments in aFTLD-U brains represents a significant step toward improved diagnostic and therapeutic strategies. However, our understanding of the etiology of this FTLD subtype remains limited, which severely hampers translational research efforts. To explore the transcriptomic changes in aFTLD-U, we performed bulk RNA sequencing on the frontal cortex tissue of 21 aFTLD-U patients and 20 control individuals. Cell-type deconvolution revealed loss of excitatory neurons and a higher proportion of astrocytes in aFTLD-U relative to controls. Differential gene expression and co-expression network analysis, adjusted for the shift in cell-type proportions, showed dysregulation of mitochondrial pathways, transcriptional regulators, and upregulation of the Sonic hedgehog (Shh) pathway, including the GLI1 transcription factor, in aFTLD-U. Overall, oligodendrocyte and astrocyte-enriched genes were significantly over-represented among the differentially expressed genes. Differential splicing analysis confirmed the dysregulation of non-neuronal cell types with significant splicing alterations, particularly in oligodendrocyte-enriched genes, including myelin basic protein (MBP), a crucial component of myelin. Immunohistochemistry in frontal cortex brain tissue also showed reduced myelin levels in aFTLD-U patients compared to controls. Together, these findings highlight a central role for glial cells, particularly astrocytes and oligodendrocytes, in the pathogenesis of aFTLD-U, with disruptions in mitochondrial activity, RNA metabolism, Shh signaling, and myelination as possible disease mechanisms. This study offers the first transcriptomic insight into aFTLD-U and presents new avenues for research into FTLD-FET.

AB - Atypical frontotemporal lobar degeneration with ubiquitin-positive inclusions (aFTLD-U) is a rare cause of frontotemporal lobar degeneration (FTLD), characterized postmortem by neuronal inclusions of the FET family of proteins (FTLD-FET). The recent discovery of TAF15 amyloid filaments in aFTLD-U brains represents a significant step toward improved diagnostic and therapeutic strategies. However, our understanding of the etiology of this FTLD subtype remains limited, which severely hampers translational research efforts. To explore the transcriptomic changes in aFTLD-U, we performed bulk RNA sequencing on the frontal cortex tissue of 21 aFTLD-U patients and 20 control individuals. Cell-type deconvolution revealed loss of excitatory neurons and a higher proportion of astrocytes in aFTLD-U relative to controls. Differential gene expression and co-expression network analysis, adjusted for the shift in cell-type proportions, showed dysregulation of mitochondrial pathways, transcriptional regulators, and upregulation of the Sonic hedgehog (Shh) pathway, including the GLI1 transcription factor, in aFTLD-U. Overall, oligodendrocyte and astrocyte-enriched genes were significantly over-represented among the differentially expressed genes. Differential splicing analysis confirmed the dysregulation of non-neuronal cell types with significant splicing alterations, particularly in oligodendrocyte-enriched genes, including myelin basic protein (MBP), a crucial component of myelin. Immunohistochemistry in frontal cortex brain tissue also showed reduced myelin levels in aFTLD-U patients compared to controls. Together, these findings highlight a central role for glial cells, particularly astrocytes and oligodendrocytes, in the pathogenesis of aFTLD-U, with disruptions in mitochondrial activity, RNA metabolism, Shh signaling, and myelination as possible disease mechanisms. This study offers the first transcriptomic insight into aFTLD-U and presents new avenues for research into FTLD-FET.

KW - Glial cells

KW - Mitochondria

KW - Sonic hedgehog signaling

KW - Splicing

KW - Transcriptomics

KW - aFTLD-U

UR - https://www.scopus.com/pages/publications/105012968579

U2 - 10.1007/s00401-025-02919-x

DO - 10.1007/s00401-025-02919-x

M3 - Article

C2 - 40783910

AN - SCOPUS:105012968579

SN - 0001-6322

VL - 150

JO - Acta Neuropathologica

JF - Acta Neuropathologica

IS - 1

M1 - 17

ER -

Brain transcriptomics highlight abundant gene expression and splicing alterations in non-neuronal cells in aFTLD-U

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