Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration

Julie F H De Houwer; Elise G Dopper; Renee van Buuren; Marijke Stokkel; Liset de Boer; Tine Swartenbroekx; Pam A Boesjes; Ana Rajicic; Aitana Sogorb-Esteve; Arabella Bouzigues; Lucy L Russell; Phoebe H Foster; Eve Ferry-Bolder; John C van Swieten; Lize C Jiskoot; Raquel Sanchez-Valle; Robert Laforce; Caroline Graff; Daniela Galimberti; Rik Vandenberghe; Alexandre de Mendonça; Pietro Tiraboschi; Isabel Santana; Alexander Gerhard; Johannes Levin; Benedetta Nacmias; Markus Otto; Maxime Bertoux; Thibaud Lebouvier; Simon Ducharme; Chris R Butler; Isabelle Le Ber; Elizabeth Finger; Maria Carmela Tartaglia; Mario Masellis; James B Rowe; Matthis Synofzik; Fermin Moreno; Barbara Borroni; Henrik Zetterberg; Jonathan D Rohrer; Betty M Tijms; Yolande A L Pijnenburg; Charlotte Teunissen; Harro Seelaar

doi:10.1093/brain/awaf457

Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration

Julie F H De Houwer
, Elise G Dopper
, Renee van Buuren
, Marijke Stokkel
, Liset de Boer
, Tine Swartenbroekx
, Pam A Boesjes
, Ana Rajicic
, Aitana Sogorb-Esteve
, Arabella Bouzigues
, Lucy L Russell
, Phoebe H Foster
, Eve Ferry-Bolder
, John C van Swieten
, Lize C Jiskoot
, Raquel Sanchez-Valle
, Robert Laforce
, Caroline Graff
, Daniela Galimberti
, Rik Vandenberghe

Alexandre de Mendonça, Pietro Tiraboschi, Isabel Santana, Alexander Gerhard, Johannes Levin, Benedetta Nacmias, Markus Otto, Maxime Bertoux, Thibaud Lebouvier, Simon Ducharme, Chris R Butler, Isabelle Le Ber, Elizabeth Finger, Maria Carmela Tartaglia, Mario Masellis, James B Rowe, Matthis Synofzik, Fermin Moreno, Barbara Borroni, Henrik Zetterberg, Jonathan D Rohrer, Betty M Tijms, Yolande A L Pijnenburg, Charlotte Teunissen, Harro Seelaar^*

^*Corresponding author for this work

Neurology

Amsterdam Neuroscience
Erasmus University Medical Centre
University College London
University of Barcelona
Clinique Interdisciplinaire de Mémoire (CIME)
Karolinska Institutet
University of Milan
Laboratory for Cognitive Neurology
University of Lisbon
IRCCS Fondazione Istituto Neurologico Carlo Besta - Milano
University of Coimbra
University of Manchester
Department of Neurology
University of Florence
Ulm University
Université de Lille
McGill University
University of Oxford
Institut du Cerveau - Paris Brain Institute - ICM
University of Western Ontario
University of Toronto
University of Cambridge
University of Tübingen
Hospital Universitario Donostia
University of Brescia

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

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Abstract

Fluid biomarkers to diagnose frontotemporal lobar degeneration (FTLD) are currently lacking. In this study, we aimed to identify proteomic changes in cerebrospinal fluid (CSF) associated with FTLD pathogenesis, focusing on signatures unique to different genetic groups. Additionally, we sought proteins distinguishing FTLD-spectrum disorders from controls. To this end, we measured a comprehensive library of over 2900 proteins in CSF using proximity extension assay technology in two well-characterized FTLD cohorts. The discovery cohort, selected from the GENFI cohort, included 47 symptomatic pathogenic variant carriers (22 C9orf72, 14 GRN, 10 MAPT and 1 TARDBP), 124 presymptomatic pathogenic variant carriers (55 C9orf72, 44 GRN, 24 MAPT and 1 TARDBP) and 57 healthy non-carriers. The validation cohort comprised individuals clinically diagnosed with an FTLD-spectrum disorder (n = 132) and cognitively intact controls (n = 32). We assessed differentially abundant proteins using linear regression, adjusting for age and sex. Overrepresentation analysis was conducted for the three genetic groups using Gene Ontology Biological Processes as ontology source. To develop diagnostic tools, we applied a LASSO regression, establishing two types of panels: one to distinguish individuals with an FTLD-spectrum disorder from controls (FTLD panel) and another to differentiate individuals with underlying TDP pathology from controls (TDP panel). We observed 23 dysregulated proteins in symptomatic carriers. Of these, four were also significantly dysregulated (NEFL, TPM3, MSLN and DNM3) in the validation cohort. When focusing on genetic subgroups, 63 upregulated proteins were observed in symptomatic MAPT carriers, with enriched biological pathways linked to immune function. In symptomatic C9orf72 carriers, four proteins - related to energy metabolism - were upregulated. When limiting symptomatic carriers to GRN, six proteins were dysregulated, with enriched pathways involved in neuronal development and projection. Notably, NEFL and TPM3 were consistently significant in all comparisons across both cohorts. We developed two diagnostic panels: one for FTLD and one for FTLD-TDP. The FTLD panel consisted of six proteins (NEFL, RBFOX3, NPTX1, TFF1, ENTPD5, and CNP). The TDP panel was made up of seven proteins (NEFL, RBFOX3, CBLN4, ENTPD5, CCL25, CNP, and MMP1). Both panels were successfully replicated in the validation cohort (AUC of 0.94 and 0.96 respectively). This study highlights distinct proteomic signatures across FTLD genetic subgroups and their associated pathologies using a targeted proteomic approach. Additionally, we present two diagnostic panels-comprising both established and novel proteins-that effectively differentiate individuals with FTLD-spectrum disorders from healthy controls, offering promising avenues for improved clinical diagnosis.

Original language	English
Journal	Brain : a journal of neurology
DOIs	https://doi.org/10.1093/brain/awaf457
Publication status	Published - 4 Dec 2025

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10.1093/brain/awaf457Licence: CC BY-NC

Distinct proteomic CSF profiles in genetic frontotemporal lobar degenerationAccepted author manuscript, 976 KBLicence: CC BY-NC

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De Houwer, J. F. H., Dopper, E. G., van Buuren, R., Stokkel, M., de Boer, L., Swartenbroekx, T., Boesjes, P. A., Rajicic, A., Sogorb-Esteve, A., Bouzigues, A., Russell, L. L., Foster, P. H., Ferry-Bolder, E., van Swieten, J. C., Jiskoot, L. C., Sanchez-Valle, R., Laforce, R., Graff, C., Galimberti, D., ... Seelaar, H. (2025). Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration. Brain : a journal of neurology. https://doi.org/10.1093/brain/awaf457

@article{f99e7a80f595464d8f380f399b2270c5,

title = "Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration",

abstract = "Fluid biomarkers to diagnose frontotemporal lobar degeneration (FTLD) are currently lacking. In this study, we aimed to identify proteomic changes in cerebrospinal fluid (CSF) associated with FTLD pathogenesis, focusing on signatures unique to different genetic groups. Additionally, we sought proteins distinguishing FTLD-spectrum disorders from controls. To this end, we measured a comprehensive library of over 2900 proteins in CSF using proximity extension assay technology in two well-characterized FTLD cohorts. The discovery cohort, selected from the GENFI cohort, included 47 symptomatic pathogenic variant carriers (22 C9orf72, 14 GRN, 10 MAPT and 1 TARDBP), 124 presymptomatic pathogenic variant carriers (55 C9orf72, 44 GRN, 24 MAPT and 1 TARDBP) and 57 healthy non-carriers. The validation cohort comprised individuals clinically diagnosed with an FTLD-spectrum disorder (n = 132) and cognitively intact controls (n = 32). We assessed differentially abundant proteins using linear regression, adjusting for age and sex. Overrepresentation analysis was conducted for the three genetic groups using Gene Ontology Biological Processes as ontology source. To develop diagnostic tools, we applied a LASSO regression, establishing two types of panels: one to distinguish individuals with an FTLD-spectrum disorder from controls (FTLD panel) and another to differentiate individuals with underlying TDP pathology from controls (TDP panel). We observed 23 dysregulated proteins in symptomatic carriers. Of these, four were also significantly dysregulated (NEFL, TPM3, MSLN and DNM3) in the validation cohort. When focusing on genetic subgroups, 63 upregulated proteins were observed in symptomatic MAPT carriers, with enriched biological pathways linked to immune function. In symptomatic C9orf72 carriers, four proteins - related to energy metabolism - were upregulated. When limiting symptomatic carriers to GRN, six proteins were dysregulated, with enriched pathways involved in neuronal development and projection. Notably, NEFL and TPM3 were consistently significant in all comparisons across both cohorts. We developed two diagnostic panels: one for FTLD and one for FTLD-TDP. The FTLD panel consisted of six proteins (NEFL, RBFOX3, NPTX1, TFF1, ENTPD5, and CNP). The TDP panel was made up of seven proteins (NEFL, RBFOX3, CBLN4, ENTPD5, CCL25, CNP, and MMP1). Both panels were successfully replicated in the validation cohort (AUC of 0.94 and 0.96 respectively). This study highlights distinct proteomic signatures across FTLD genetic subgroups and their associated pathologies using a targeted proteomic approach. Additionally, we present two diagnostic panels-comprising both established and novel proteins-that effectively differentiate individuals with FTLD-spectrum disorders from healthy controls, offering promising avenues for improved clinical diagnosis.",

author = "\{De Houwer\}, \{Julie F H\} and Dopper, \{Elise G\} and \{van Buuren\}, Renee and Marijke Stokkel and \{de Boer\}, Liset and Tine Swartenbroekx and Boesjes, \{Pam A\} and Ana Rajicic and Aitana Sogorb-Esteve and Arabella Bouzigues and Russell, \{Lucy L\} and Foster, \{Phoebe H\} and Eve Ferry-Bolder and \{van Swieten\}, \{John C\} and Jiskoot, \{Lize C\} and Raquel Sanchez-Valle and Robert Laforce and Caroline Graff and Daniela Galimberti and Rik Vandenberghe and \{de Mendon{\c c}a\}, Alexandre and Pietro Tiraboschi and Isabel Santana and Alexander Gerhard and Johannes Levin and Benedetta Nacmias and Markus Otto and Maxime Bertoux and Thibaud Lebouvier and Simon Ducharme and Butler, \{Chris R\} and \{Le Ber\}, Isabelle and Elizabeth Finger and Tartaglia, \{Maria Carmela\} and Mario Masellis and Rowe, \{James B\} and Matthis Synofzik and Fermin Moreno and Barbara Borroni and Henrik Zetterberg and Rohrer, \{Jonathan D\} and Tijms, \{Betty M\} and Pijnenburg, \{Yolande A L\} and Charlotte Teunissen and Harro Seelaar",

note = "{\textcopyright} The Author(s) 2025. Published by Oxford University Press on behalf of the Guarantors of Brain.",

year = "2025",

month = dec,

day = "4",

doi = "10.1093/brain/awaf457",

language = "English",

journal = "Brain : a journal of neurology",

issn = "0006-8950",

publisher = "Oxford University Press",

}

De Houwer, JFH, Dopper, EG, van Buuren, R, Stokkel, M, de Boer, L, Swartenbroekx, T, Boesjes, PA, Rajicic, A, Sogorb-Esteve, A, Bouzigues, A, Russell, LL, Foster, PH, Ferry-Bolder, E, van Swieten, JC , Jiskoot, LC, Sanchez-Valle, R, Laforce, R, Graff, C, Galimberti, D, Vandenberghe, R, de Mendonça, A, Tiraboschi, P, Santana, I, Gerhard, A, Levin, J, Nacmias, B, Otto, M, Bertoux, M, Lebouvier, T, Ducharme, S, Butler, CR, Le Ber, I, Finger, E, Tartaglia, MC, Masellis, M, Rowe, JB, Synofzik, M, Moreno, F, Borroni, B, Zetterberg, H, Rohrer, JD, Tijms, BM, Pijnenburg, YAL, Teunissen, C & Seelaar, H 2025, 'Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration', Brain : a journal of neurology. https://doi.org/10.1093/brain/awaf457

TY - JOUR

T1 - Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration

AU - De Houwer, Julie F H

AU - Dopper, Elise G

AU - van Buuren, Renee

AU - Stokkel, Marijke

AU - de Boer, Liset

AU - Swartenbroekx, Tine

AU - Boesjes, Pam A

AU - Rajicic, Ana

AU - Sogorb-Esteve, Aitana

AU - Bouzigues, Arabella

AU - Russell, Lucy L

AU - Foster, Phoebe H

AU - Ferry-Bolder, Eve

AU - van Swieten, John C

AU - Jiskoot, Lize C

AU - Sanchez-Valle, Raquel

AU - Laforce, Robert

AU - Graff, Caroline

AU - Galimberti, Daniela

AU - Vandenberghe, Rik

AU - de Mendonça, Alexandre

AU - Tiraboschi, Pietro

AU - Santana, Isabel

AU - Gerhard, Alexander

AU - Levin, Johannes

AU - Nacmias, Benedetta

AU - Otto, Markus

AU - Bertoux, Maxime

AU - Lebouvier, Thibaud

AU - Ducharme, Simon

AU - Butler, Chris R

AU - Le Ber, Isabelle

AU - Finger, Elizabeth

AU - Tartaglia, Maria Carmela

AU - Masellis, Mario

AU - Rowe, James B

AU - Synofzik, Matthis

AU - Moreno, Fermin

AU - Borroni, Barbara

AU - Zetterberg, Henrik

AU - Rohrer, Jonathan D

AU - Tijms, Betty M

AU - Pijnenburg, Yolande A L

AU - Teunissen, Charlotte

AU - Seelaar, Harro

PY - 2025/12/4

Y1 - 2025/12/4

N2 - Fluid biomarkers to diagnose frontotemporal lobar degeneration (FTLD) are currently lacking. In this study, we aimed to identify proteomic changes in cerebrospinal fluid (CSF) associated with FTLD pathogenesis, focusing on signatures unique to different genetic groups. Additionally, we sought proteins distinguishing FTLD-spectrum disorders from controls. To this end, we measured a comprehensive library of over 2900 proteins in CSF using proximity extension assay technology in two well-characterized FTLD cohorts. The discovery cohort, selected from the GENFI cohort, included 47 symptomatic pathogenic variant carriers (22 C9orf72, 14 GRN, 10 MAPT and 1 TARDBP), 124 presymptomatic pathogenic variant carriers (55 C9orf72, 44 GRN, 24 MAPT and 1 TARDBP) and 57 healthy non-carriers. The validation cohort comprised individuals clinically diagnosed with an FTLD-spectrum disorder (n = 132) and cognitively intact controls (n = 32). We assessed differentially abundant proteins using linear regression, adjusting for age and sex. Overrepresentation analysis was conducted for the three genetic groups using Gene Ontology Biological Processes as ontology source. To develop diagnostic tools, we applied a LASSO regression, establishing two types of panels: one to distinguish individuals with an FTLD-spectrum disorder from controls (FTLD panel) and another to differentiate individuals with underlying TDP pathology from controls (TDP panel). We observed 23 dysregulated proteins in symptomatic carriers. Of these, four were also significantly dysregulated (NEFL, TPM3, MSLN and DNM3) in the validation cohort. When focusing on genetic subgroups, 63 upregulated proteins were observed in symptomatic MAPT carriers, with enriched biological pathways linked to immune function. In symptomatic C9orf72 carriers, four proteins - related to energy metabolism - were upregulated. When limiting symptomatic carriers to GRN, six proteins were dysregulated, with enriched pathways involved in neuronal development and projection. Notably, NEFL and TPM3 were consistently significant in all comparisons across both cohorts. We developed two diagnostic panels: one for FTLD and one for FTLD-TDP. The FTLD panel consisted of six proteins (NEFL, RBFOX3, NPTX1, TFF1, ENTPD5, and CNP). The TDP panel was made up of seven proteins (NEFL, RBFOX3, CBLN4, ENTPD5, CCL25, CNP, and MMP1). Both panels were successfully replicated in the validation cohort (AUC of 0.94 and 0.96 respectively). This study highlights distinct proteomic signatures across FTLD genetic subgroups and their associated pathologies using a targeted proteomic approach. Additionally, we present two diagnostic panels-comprising both established and novel proteins-that effectively differentiate individuals with FTLD-spectrum disorders from healthy controls, offering promising avenues for improved clinical diagnosis.

AB - Fluid biomarkers to diagnose frontotemporal lobar degeneration (FTLD) are currently lacking. In this study, we aimed to identify proteomic changes in cerebrospinal fluid (CSF) associated with FTLD pathogenesis, focusing on signatures unique to different genetic groups. Additionally, we sought proteins distinguishing FTLD-spectrum disorders from controls. To this end, we measured a comprehensive library of over 2900 proteins in CSF using proximity extension assay technology in two well-characterized FTLD cohorts. The discovery cohort, selected from the GENFI cohort, included 47 symptomatic pathogenic variant carriers (22 C9orf72, 14 GRN, 10 MAPT and 1 TARDBP), 124 presymptomatic pathogenic variant carriers (55 C9orf72, 44 GRN, 24 MAPT and 1 TARDBP) and 57 healthy non-carriers. The validation cohort comprised individuals clinically diagnosed with an FTLD-spectrum disorder (n = 132) and cognitively intact controls (n = 32). We assessed differentially abundant proteins using linear regression, adjusting for age and sex. Overrepresentation analysis was conducted for the three genetic groups using Gene Ontology Biological Processes as ontology source. To develop diagnostic tools, we applied a LASSO regression, establishing two types of panels: one to distinguish individuals with an FTLD-spectrum disorder from controls (FTLD panel) and another to differentiate individuals with underlying TDP pathology from controls (TDP panel). We observed 23 dysregulated proteins in symptomatic carriers. Of these, four were also significantly dysregulated (NEFL, TPM3, MSLN and DNM3) in the validation cohort. When focusing on genetic subgroups, 63 upregulated proteins were observed in symptomatic MAPT carriers, with enriched biological pathways linked to immune function. In symptomatic C9orf72 carriers, four proteins - related to energy metabolism - were upregulated. When limiting symptomatic carriers to GRN, six proteins were dysregulated, with enriched pathways involved in neuronal development and projection. Notably, NEFL and TPM3 were consistently significant in all comparisons across both cohorts. We developed two diagnostic panels: one for FTLD and one for FTLD-TDP. The FTLD panel consisted of six proteins (NEFL, RBFOX3, NPTX1, TFF1, ENTPD5, and CNP). The TDP panel was made up of seven proteins (NEFL, RBFOX3, CBLN4, ENTPD5, CCL25, CNP, and MMP1). Both panels were successfully replicated in the validation cohort (AUC of 0.94 and 0.96 respectively). This study highlights distinct proteomic signatures across FTLD genetic subgroups and their associated pathologies using a targeted proteomic approach. Additionally, we present two diagnostic panels-comprising both established and novel proteins-that effectively differentiate individuals with FTLD-spectrum disorders from healthy controls, offering promising avenues for improved clinical diagnosis.

U2 - 10.1093/brain/awaf457

DO - 10.1093/brain/awaf457

M3 - Article

C2 - 41343108

SN - 0006-8950

JO - Brain : a journal of neurology

JF - Brain : a journal of neurology

ER -

Distinct proteomic CSF profiles in genetic frontotemporal lobar degeneration

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