A novel pathogenic mutation of MeCP2 impairs chromatin association independent of protein levels.

IF 7.5 1区 生物学 Q1 CELL BIOLOGY
Genes & development Pub Date : 2023-10-01 Epub Date: 2023-10-27 DOI:10.1101/gad.350733.123
Jian Zhou, Claudia Cattoglio, Yingyao Shao, Harini P Tirumala, Carlo Vetralla, Sameer S Bajikar, Yan Li, Hu Chen, Qi Wang, Zhenyu Wu, Bing Tang, Mahla Zahabiyon, Aleksandar Bajic, Xiangling Meng, Jack J Ferrie, Anel LaGrone, Ping Zhang, Jean J Kim, Jianrong Tang, Zhandong Liu, Xavier Darzacq, Nathaniel Heintz, Robert Tjian, Huda Y Zoghbi
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引用次数: 0

Abstract

Loss-of-function mutations in MECP2 cause Rett syndrome (RTT), a severe neurological disorder that mainly affects girls. Mutations in MECP2 do occur in males occasionally and typically cause severe encephalopathy and premature lethality. Recently, we identified a missense mutation (c.353G>A, p.Gly118Glu [G118E]), which has never been seen before in MECP2, in a young boy who suffered from progressive motor dysfunction and developmental delay. To determine whether this variant caused the clinical symptoms and study its functional consequences, we established two disease models, including human neurons from patient-derived iPSCs and a knock-in mouse line. G118E mutation partially reduces MeCP2 abundance and its DNA binding, and G118E mice manifest RTT-like symptoms seen in the patient, affirming the pathogenicity of this mutation. Using live-cell and single-molecule imaging, we found that G118E mutation alters MeCP2's chromatin interaction properties in live neurons independently of its effect on protein levels. Here we report the generation and characterization of RTT models of a male hypomorphic variant and reveal new insight into the mechanism by which this pathological mutation affects MeCP2's chromatin dynamics. Our ability to quantify protein dynamics in disease models lays the foundation for harnessing high-resolution single-molecule imaging as the next frontier for developing innovative therapies for RTT and other diseases.

MeCP2的一种新的致病性突变破坏了与蛋白质水平无关的染色质结合。
MECP2的功能缺失突变导致雷特综合征(RTT),这是一种严重的神经系统疾病,主要影响女孩。MECP2突变确实偶尔发生在男性身上,通常会导致严重的脑病和过早死亡。最近,我们发现了一种错义突变(c.353G>a,p.Gly118Glu[G118E]),这种突变以前从未在MECP2中发现过,发生在一名患有进行性运动功能障碍和发育迟缓的男孩身上。为了确定这种变体是否引起临床症状并研究其功能后果,我们建立了两个疾病模型,包括来自患者来源的iPSC的人类神经元和敲除小鼠系。G118E突变部分降低了MeCP2的丰度及其DNA结合,G118E小鼠在患者身上表现出RTT样症状,证实了该突变的致病性。使用活细胞和单分子成像,我们发现G118E突变改变了MeCP2在活神经元中的染色质相互作用特性,而与它对蛋白质水平的影响无关。在这里,我们报道了男性亚形态变体的RTT模型的生成和表征,并揭示了这种病理突变影响MeCP2染色质动力学的机制的新见解。我们在疾病模型中量化蛋白质动力学的能力为利用高分辨率单分子成像作为开发RTT和其他疾病创新疗法的下一个前沿奠定了基础。
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
Genes & development
Genes & development 生物-发育生物学
CiteScore
17.50
自引率
1.90%
发文量
71
审稿时长
3-6 weeks
期刊介绍: Genes & Development is a research journal published in association with The Genetics Society. It publishes high-quality research papers in the areas of molecular biology, molecular genetics, and related fields. The journal features various research formats including Research papers, short Research Communications, and Resource/Methodology papers. Genes & Development has gained recognition and is considered as one of the Top Five Research Journals in the field of Molecular Biology and Genetics. It has an impressive Impact Factor of 12.89. The journal is ranked #2 among Developmental Biology research journals, #5 in Genetics and Heredity, and is among the Top 20 in Cell Biology (according to ISI Journal Citation Reports®, 2021).
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