De novo heterozygous variants of the RSF1 gene are responsible for a syndromic neurodevelopmental disorder

IF 4.6 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

European Journal of Human Genetics Pub Date : 2026-01-28 DOI:10.1038/s41431-026-02017-w

Céline Jost, Tiffany Busa, Daniel Wegner, Marwan Shinawi, Elise Schaefer, Amélie Piton, Caroline Schluth-Bolard, Perrine Charles, Boris Keren, Katharina Mayerhanser, Theresa Brunet, Ulrich Schatz, Jennifer E. Neil, Christopher A. Walsh, Kathleen Sisco, Alexander J. Paul, Undiagnosed Diseases Network, Chung Lee, Natalie Dykzeul, Devon Bonner, Jonathan A. Bernstein, Erin Sutcliffe, Ingrid M. Wentzensen, Catherine Froehlich, Kaleigh Liebler, Patricia Galvin Parton, Jody Weiss-Burns, Chloé Sagnol, Julian Delanne, Caroline Racine, Christel Thauvin-Robinet, Hana Safraou, Frédéric Tran Mau-Them, Yannis Duffourd, Ange-Line Bruel, Laurence Faivre

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Abstract

Neurodevelopmental disorders (NDD) are a wide and heterogenous group of conditions due to impaired brain development, orchestrated by the crosstalk between genome and environment. Dynamic chromatin regulation during cortical development is fundamental, and chromatin remodelers are critical determinants of this process. Recently, numerous chromatin remodeling genes have been implicated in NDDs. By altering genes’ epigenetic state, mutated chromatin remodelers disrupt the spatiotemporal regulation of gene expression during development, potentially leading to severe consequences. The Remodeling and Spacing Factor 1 (RSF1) gene encodes a ubiquitous nuclear protein involved in chromatin remodeling, crucial for processes such as DNA transcription, replication, and repair. In this study, we identified by gene matching (n = 7) and literature search (n = 4) eleven unrelated individuals harboring de novo or inherited from a symptomatic parent heterozygous variants in RSF1. All individuals had an NDD, whether intellectual disability, autism spectrum disorder or developmental delay. From the seven individuals with detailed clinical information, unspecific and inconsistent associated features were described, including cranio-facial morphological features, musculoskeletal, digestive, vision, tone, epilepsy and brain MRI anomalies. Our data support the hypothesis that RSF1 is important for brain development and a novel candidate gene for syndromic NDDs.

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RSF1基因的新杂合变异体是综合征性神经发育障碍的原因

神经发育障碍（NDD）是一种广泛而异质性的疾病，由于大脑发育受损，由基因组和环境之间的串扰精心策划。在皮层发育过程中，动态染色质调节是基本的，染色质重塑是这一过程的关键决定因素。近年来，许多染色质重塑基因与ndd有关。突变的染色质重塑子通过改变基因的表观遗传状态，破坏了发育过程中基因表达的时空调控，可能导致严重的后果。重塑和间隔因子1 （RSF1）基因编码一种普遍存在的核蛋白，参与染色质重塑，对DNA转录、复制和修复等过程至关重要。在本研究中，我们通过基因匹配（n = 7）和文献检索（n = 4）确定了11个无亲缘关系的RSF1个体，这些个体携带有症状的亲本杂合变异体。所有人都有NDD，无论是智力残疾、自闭症谱系障碍还是发育迟缓。从7个具有详细临床信息的个体中，描述了非特异性和不一致的相关特征，包括颅面形态学特征、肌肉骨骼、消化、视觉、音调、癫痫和脑MRI异常。我们的数据支持RSF1对大脑发育很重要的假设，并且是综合征性ndd的新候选基因。

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来源期刊

European Journal of Human Genetics 生物-生化与分子生物学

CiteScore

9.90

自引率

5.80%

发文量

216

审稿时长

2 months

期刊介绍： The European Journal of Human Genetics is the official journal of the European Society of Human Genetics, publishing high-quality, original research papers, short reports and reviews in the rapidly expanding field of human genetics and genomics. It covers molecular, clinical and cytogenetics, interfacing between advanced biomedical research and the clinician, and bridging the great diversity of facilities, resources and viewpoints in the genetics community. Key areas include: -Monogenic and multifactorial disorders -Development and malformation -Hereditary cancer -Medical Genomics -Gene mapping and functional studies -Genotype-phenotype correlations -Genetic variation and genome diversity -Statistical and computational genetics -Bioinformatics -Advances in diagnostics -Therapy and prevention -Animal models -Genetic services -Community genetics