Mutations in spliceosomal gene SNW1 cause neurodevelopment disorders with microcephaly.

IF 13.3 1区医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL

Journal of Clinical Investigation Pub Date : 2025-07-03 DOI:10.1172/JCI186119

Lei Ji, Jin Yan, Nicole A Losurdo, Hua Wang, Liangjie Liu, Keyi Li, Zhen Liu, Zhenming Guo, Jing Xu, Adriana Bibo, Decheng Ren, Ke Yang, Yingying Luo, Fengping Yang, Gui Wang, Zhenglong Xiang, Yuan Wang, Huaizhe Zhan, Hu Pan, Juanli Hu, Jianmin Zhong, Rami Abou Jamra, Pia Zacher, Luciana Musante, Flavio Faletra, Paola Costa, Caterina Zanus, Nathalie Couque, Lyse Ruaud, Anna Maria Cueto-González, Hector San Nicolas Fernández, Eduardo Tizzano, Núria Martínez Gil, Xiaorong Liu, Weiping Liao, Layal Abi Farraj, Alden Y Huang, Liying Zhang, Aparna Murali, Esther Schmuel, Christina S Han, Kayla King, Weiyue Gu, Pengchao Wang, Kai Li, Nichole Link, Guang He, Shan Bian, Xiao Mao

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Abstract

The spliceosome is a critical cellular machinery responsible for pre-mRNA splicing, essential for the proper expression of genes. Mutations in its core components are increasingly linked to neurodevelopmental disorders, such as primary microcephaly. Here, we investigated the role of SNW1, a spliceosomal protein, in splicing integrity and neurodevelopment. We identified nine heterozygous mutations in the SNW1 gene in patients presenting with primary microcephaly. These mutations impaired SNW1's interactions with core spliceosomal proteins, leading to defective RNA splicing and reduced protein functionality. Using Drosophila melanogaster and human embryonic stem cell-derived cerebral organoids models, we demonstrated that SNW1 depletion resulted in significant reductions in neural stem cell proliferation and increased apoptosis. RNA-sequencing revealed disrupted alternative splicing, especially skipping exons, and altered expression of neurodevelopment-associated genes (CENPE, MEF2C, and NRXN2). Our findings provide crucial insights into the molecular mechanisms by which SNW1 dysfunction contributes to neurodevelopmental disorders and underscore the importance of proper spliceosome function in brain development.

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剪接体基因SNW1突变导致小头畸形的神经发育障碍。

剪接体是负责前mrna剪接的关键细胞机制，对基因的正确表达至关重要。其核心成分的突变越来越多地与神经发育障碍（如原发性小头畸形）联系在一起。在这里，我们研究了SNW1（一种剪接体蛋白）在剪接完整性和神经发育中的作用。我们在原发性小头畸形患者中发现了SNW1基因的9个杂合突变。这些突变破坏了SNW1与核心剪接体蛋白的相互作用，导致RNA剪接缺陷和蛋白质功能降低。利用黑腹果蝇和人类胚胎干细胞衍生的脑类器官模型，我们证明SNW1缺失导致神经干细胞增殖显著减少和细胞凋亡增加。rna测序显示选择性剪接中断，特别是外显子跳跃，以及神经发育相关基因（CENPE， MEF2C和NRXN2）的表达改变。我们的研究结果为SNW1功能障碍导致神经发育障碍的分子机制提供了重要的见解，并强调了正确的剪接体功能在大脑发育中的重要性。

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

Journal of Clinical Investigation 医学-医学：研究与实验

CiteScore

24.50

自引率

1.30%

发文量

1034

审稿时长

2 months

期刊介绍： The Journal of Clinical Investigation, established in 1924 by the ASCI, is a prestigious publication that focuses on breakthroughs in basic and clinical biomedical science, with the goal of advancing the field of medicine. With an impressive Impact Factor of 15.9 in 2022, it is recognized as one of the leading journals in the "Medicine, Research & Experimental" category of the Web of Science. The journal attracts a diverse readership from various medical disciplines and sectors. It publishes a wide range of research articles encompassing all biomedical specialties, including Autoimmunity, Gastroenterology, Immunology, Metabolism, Nephrology, Neuroscience, Oncology, Pulmonology, Vascular Biology, and many others. The Editorial Board consists of esteemed academic editors who possess extensive expertise in their respective fields. They are actively involved in research, ensuring the journal's high standards of publication and scientific rigor.