Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders

Johnny Bou-Rouphael; Auriane Cospain; Thomas Courtin; Boris Keren; Corentine Marie; Marion Lesieur-Sebellin; Delphine Heron; Jean Madeleine de Sainte Agathe; Solveig Heide; Elodie Lejeune; Chloe Quelin; François Lecoquierre; Mathilde Nizon; Bertrand Isidor; Thomas Besnard; Benjamin Cogne; Xenia Latypova; Jonathan Levy; Pascal Joset; Katharina Steindl; Maria Palomares-Bralo; Fernando Santos-Simarro; Mary Ann Thomas; Amina Abubakar; Sally Ann Lynch; Amelie J. Müller; Tobias B. Haack; Martin Zenker; Michael Parker; Emma Clossick; Michael Spiller; Renarta Crookes; Muriel Holder-Espinasse; Allan Bayat; Rikke S. Møller; Tomasz Stanislaw Mieszczanek; Pierre de la Grange; Julien Buratti; Pierre Marijon; Sabir Ataf; Ryan Gavin; Carlos Parras; Bassem A. Hassan; Cyril Mignot; Laïla El Khattabi

doi:10.1016/j.ajhg.2025.09.001

Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders

Johnny Bou-Rouphael, Auriane Cospain, Thomas Courtin, Boris Keren, Corentine Marie, Marion Lesieur-Sebellin, Delphine Heron, Jean Madeleine de Sainte Agathe, Solveig Heide, Elodie Lejeune, Chloe Quelin, François Lecoquierre, Mathilde Nizon, Bertrand Isidor, Thomas Besnard, Benjamin Cogne, Xenia Latypova, Jonathan Levy, Pascal Joset, Katharina SteindlMaria Palomares-Bralo, Fernando Santos-Simarro, Mary Ann Thomas, Amina Abubakar, Sally Ann Lynch, Amelie J. Müller, Tobias B. Haack, Martin Zenker, Michael Parker, Emma Clossick, Michael Spiller, Renarta Crookes, Muriel Holder-Espinasse, Allan Bayat, Rikke S. Møller, Tomasz Stanislaw Mieszczanek, Pierre de la Grange, Julien Buratti, Pierre Marijon, Sabir Ataf, Ryan Gavin, Carlos Parras, Bassem A. Hassan, Cyril Mignot, Laïla El Khattabi

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

Abstract

Alternative splicing is highly prevalent in the brain where it orchestrates key processes such as neurogenesis and synaptogenesis, both essential for the nervous system's complexity and plasticity. Dysregulation of splicing has increasingly been linked to neurodevelopmental disorders. Here, we describe unrelated individuals carrying de novo, likely deleterious heterozygous variants in Splicing Factor 1 (SF1), all presenting with neurodevelopmental disorders of variable severity, frequently accompanied by autistic traits and other non-specific features. SF1 is a core component of pre-mRNA processing, facilitating early spliceosome assembly at the 3′ splice site and regulating alternative splicing. We conducted functional studies in neural progenitor cells, which showed that SF1 downregulation alters gene expression and alternative splicing programs, particularly in genes involved in neuronal differentiation, synaptic transmission, and axonal guidance, processes fundamental to brain development. Together, these findings establish SF1 dysfunction as an additional spliceosomopathy contributing to neurodevelopmental disorders and underscore its essential role in human neurodevelopment and disease.

Original language	English (US)
Journal	American Journal of Human Genetics
DOIs	https://doi.org/10.1016/j.ajhg.2025.09.001
Publication status	Accepted/In press - 2025
Externally published	Yes

Keywords

RNA processing
SF1
brain development
gene regulation
genetic variants
intelle
neurodevelopment
spliceosome assembly
splicing factor

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.ajhg.2025.09.001

Cite this

Bou-Rouphael, J., Cospain, A., Courtin, T., Keren, B., Marie, C., Lesieur-Sebellin, M., Heron, D., de Sainte Agathe, J. M., Heide, S., Lejeune, E., Quelin, C., Lecoquierre, F., Nizon, M., Isidor, B., Besnard, T., Cogne, B., Latypova, X., Levy, J., Joset, P., ... El Khattabi, L. (Accepted/In press). Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders. American Journal of Human Genetics. https://doi.org/10.1016/j.ajhg.2025.09.001

@article{e840561f69634366ad46490c138f11f2,

title = "Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders",

abstract = "Alternative splicing is highly prevalent in the brain where it orchestrates key processes such as neurogenesis and synaptogenesis, both essential for the nervous system's complexity and plasticity. Dysregulation of splicing has increasingly been linked to neurodevelopmental disorders. Here, we describe unrelated individuals carrying de novo, likely deleterious heterozygous variants in Splicing Factor 1 (SF1), all presenting with neurodevelopmental disorders of variable severity, frequently accompanied by autistic traits and other non-specific features. SF1 is a core component of pre-mRNA processing, facilitating early spliceosome assembly at the 3′ splice site and regulating alternative splicing. We conducted functional studies in neural progenitor cells, which showed that SF1 downregulation alters gene expression and alternative splicing programs, particularly in genes involved in neuronal differentiation, synaptic transmission, and axonal guidance, processes fundamental to brain development. Together, these findings establish SF1 dysfunction as an additional spliceosomopathy contributing to neurodevelopmental disorders and underscore its essential role in human neurodevelopment and disease.",

keywords = "RNA processing, SF1, brain development, gene regulation, genetic variants, intelle, neurodevelopment, spliceosome assembly, splicing factor",

author = "Johnny Bou-Rouphael and Auriane Cospain and Thomas Courtin and Boris Keren and Corentine Marie and Marion Lesieur-Sebellin and Delphine Heron and \{de Sainte Agathe\}, \{Jean Madeleine\} and Solveig Heide and Elodie Lejeune and Chloe Quelin and Fran{\c c}ois Lecoquierre and Mathilde Nizon and Bertrand Isidor and Thomas Besnard and Benjamin Cogne and Xenia Latypova and Jonathan Levy and Pascal Joset and Katharina Steindl and Maria Palomares-Bralo and Fernando Santos-Simarro and Thomas, \{Mary Ann\} and Amina Abubakar and Lynch, \{Sally Ann\} and M{\"u}ller, \{Amelie J.\} and Haack, \{Tobias B.\} and Martin Zenker and Michael Parker and Emma Clossick and Michael Spiller and Renarta Crookes and Muriel Holder-Espinasse and Allan Bayat and M{\o}ller, \{Rikke S.\} and Mieszczanek, \{Tomasz Stanislaw\} and \{de la Grange\}, Pierre and Julien Buratti and Pierre Marijon and Sabir Ataf and Ryan Gavin and Carlos Parras and Hassan, \{Bassem A.\} and Cyril Mignot and \{El Khattabi\}, La{\"i}la",

note = "Publisher Copyright: {\textcopyright} 2025",

year = "2025",

doi = "10.1016/j.ajhg.2025.09.001",

language = "English (US)",

journal = "American Journal of Human Genetics",

issn = "0002-9297",

publisher = "Cell Press",

}

Bou-Rouphael, J, Cospain, A, Courtin, T, Keren, B, Marie, C, Lesieur-Sebellin, M, Heron, D, de Sainte Agathe, JM, Heide, S, Lejeune, E, Quelin, C, Lecoquierre, F, Nizon, M, Isidor, B, Besnard, T, Cogne, B, Latypova, X, Levy, J, Joset, P, Steindl, K, Palomares-Bralo, M, Santos-Simarro, F, Thomas, MA, Abubakar, A, Lynch, SA, Müller, AJ, Haack, TB, Zenker, M, Parker, M, Clossick, E, Spiller, M, Crookes, R, Holder-Espinasse, M, Bayat, A, Møller, RS, Mieszczanek, TS, de la Grange, P, Buratti, J, Marijon, P, Ataf, S, Gavin, R, Parras, C, Hassan, BA, Mignot, C & El Khattabi, L 2025, 'Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders', American Journal of Human Genetics. https://doi.org/10.1016/j.ajhg.2025.09.001

TY - JOUR

T1 - Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders

AU - Bou-Rouphael, Johnny

AU - Cospain, Auriane

AU - Courtin, Thomas

AU - Keren, Boris

AU - Marie, Corentine

AU - Lesieur-Sebellin, Marion

AU - Heron, Delphine

AU - de Sainte Agathe, Jean Madeleine

AU - Heide, Solveig

AU - Lejeune, Elodie

AU - Quelin, Chloe

AU - Lecoquierre, François

AU - Nizon, Mathilde

AU - Isidor, Bertrand

AU - Besnard, Thomas

AU - Cogne, Benjamin

AU - Latypova, Xenia

AU - Levy, Jonathan

AU - Joset, Pascal

AU - Steindl, Katharina

AU - Palomares-Bralo, Maria

AU - Santos-Simarro, Fernando

AU - Thomas, Mary Ann

AU - Abubakar, Amina

AU - Lynch, Sally Ann

AU - Müller, Amelie J.

AU - Haack, Tobias B.

AU - Zenker, Martin

AU - Parker, Michael

AU - Clossick, Emma

AU - Spiller, Michael

AU - Crookes, Renarta

AU - Holder-Espinasse, Muriel

AU - Bayat, Allan

AU - Møller, Rikke S.

AU - Mieszczanek, Tomasz Stanislaw

AU - de la Grange, Pierre

AU - Buratti, Julien

AU - Marijon, Pierre

AU - Ataf, Sabir

AU - Gavin, Ryan

AU - Parras, Carlos

AU - Hassan, Bassem A.

AU - Mignot, Cyril

AU - El Khattabi, Laïla

PY - 2025

Y1 - 2025

N2 - Alternative splicing is highly prevalent in the brain where it orchestrates key processes such as neurogenesis and synaptogenesis, both essential for the nervous system's complexity and plasticity. Dysregulation of splicing has increasingly been linked to neurodevelopmental disorders. Here, we describe unrelated individuals carrying de novo, likely deleterious heterozygous variants in Splicing Factor 1 (SF1), all presenting with neurodevelopmental disorders of variable severity, frequently accompanied by autistic traits and other non-specific features. SF1 is a core component of pre-mRNA processing, facilitating early spliceosome assembly at the 3′ splice site and regulating alternative splicing. We conducted functional studies in neural progenitor cells, which showed that SF1 downregulation alters gene expression and alternative splicing programs, particularly in genes involved in neuronal differentiation, synaptic transmission, and axonal guidance, processes fundamental to brain development. Together, these findings establish SF1 dysfunction as an additional spliceosomopathy contributing to neurodevelopmental disorders and underscore its essential role in human neurodevelopment and disease.

AB - Alternative splicing is highly prevalent in the brain where it orchestrates key processes such as neurogenesis and synaptogenesis, both essential for the nervous system's complexity and plasticity. Dysregulation of splicing has increasingly been linked to neurodevelopmental disorders. Here, we describe unrelated individuals carrying de novo, likely deleterious heterozygous variants in Splicing Factor 1 (SF1), all presenting with neurodevelopmental disorders of variable severity, frequently accompanied by autistic traits and other non-specific features. SF1 is a core component of pre-mRNA processing, facilitating early spliceosome assembly at the 3′ splice site and regulating alternative splicing. We conducted functional studies in neural progenitor cells, which showed that SF1 downregulation alters gene expression and alternative splicing programs, particularly in genes involved in neuronal differentiation, synaptic transmission, and axonal guidance, processes fundamental to brain development. Together, these findings establish SF1 dysfunction as an additional spliceosomopathy contributing to neurodevelopmental disorders and underscore its essential role in human neurodevelopment and disease.

KW - RNA processing

KW - SF1

KW - brain development

KW - gene regulation

KW - genetic variants

KW - intelle

KW - neurodevelopment

KW - spliceosome assembly

KW - splicing factor

UR - https://www.scopus.com/pages/publications/105016893726

U2 - 10.1016/j.ajhg.2025.09.001

DO - 10.1016/j.ajhg.2025.09.001

M3 - Article

AN - SCOPUS:105016893726

SN - 0002-9297

JO - American Journal of Human Genetics

JF - American Journal of Human Genetics

ER -

Heterozygous pathogenic variants in the splicing factor SF1 lead to a large spectrum of neurodevelopmental disorders

Abstract

Keywords

UN SDGs

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