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

IF 8.1 1区生物学 Q1 GENETICS & HEREDITY

American journal of human genetics Pub Date : 2025-09-22 DOI:10.1016/j.ajhg.2025.09.001

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

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引用次数: 0

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.

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剪接因子SF1的杂合致病性变异可导致多种神经发育障碍。

选择性剪接在大脑中非常普遍，它协调了神经发生和突触发生等关键过程，这对神经系统的复杂性和可塑性都至关重要。剪接失调已越来越多地与神经发育障碍联系在一起。在这里，我们描述了不相关的个体携带剪接因子1 （SF1）的新生，可能有害的杂合变异体，所有表现为不同严重程度的神经发育障碍，经常伴有自闭症特征和其他非特异性特征。SF1是pre-mRNA加工的核心成分，促进3'剪接位点的早期剪接体组装，并调节选择性剪接。我们在神经祖细胞中进行了功能研究，结果表明SF1下调会改变基因表达和选择性剪接程序，特别是参与神经元分化、突触传递和轴突引导的基因，这些过程对大脑发育至关重要。总之，这些发现证实SF1功能障碍是导致神经发育障碍的另一种剪接体病，并强调了其在人类神经发育和疾病中的重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

American journal of human genetics 生物-遗传学

CiteScore

14.70

自引率

4.10%

发文量

185

审稿时长

1 months

期刊介绍： The American Journal of Human Genetics (AJHG) is a monthly journal published by Cell Press, chosen by The American Society of Human Genetics (ASHG) as its premier publication starting from January 2008. AJHG represents Cell Press's first society-owned journal, and both ASHG and Cell Press anticipate significant synergies between AJHG content and that of other Cell Press titles.