一个低表达的PIGA基因突变在人诱导多能干细胞模型中导致神经元发育的严重缺陷以及对补体介导毒性的易感性。

A hypomorphic PIGA gene mutation causes severe defects in neuron development and susceptibility to complement-mediated toxicity in a human iPSC model.

作者信息

Yuan Xuan, Li Zhe, Baines Andrea C, Gavriilaki Eleni, Ye Zhaohui, Wen Zhexing, Braunstein Evan M, Biesecker Leslie G, Cheng Linzhao, Dong Xinzhong, Brodsky Robert A

机构信息

Division of Hematology, Department of Medicine, Johns Hopkins University School of Medicine, Baltimore, MD, United States of America.

Department of Neuroscience, Johns Hopkins University, School of Medicine, Baltimore, MD, United States of America.

出版信息

PLoS One. 2017 Apr 25;12(4):e0174074. doi: 10.1371/journal.pone.0174074. eCollection 2017.

DOI:10.1371/journal.pone.0174074

PMID:28441409

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5404867/

Abstract

Mutations in genes involved in glycosylphosphatidylinositol (GPI) anchor biosynthesis underlie a group of congenital syndromes characterized by severe neurodevelopmental defects. GPI anchored proteins have diverse roles in cell adhesion, signaling, metabolism and complement regulation. Over 30 enzymes are required for GPI anchor biosynthesis and PIGA is involved in the first step of this process. A hypomorphic mutation in the X-linked PIGA gene (c.1234C>T) causes multiple congenital anomalies hypotonia seizure syndrome 2 (MCAHS2), indicating that even partial reduction of GPI anchored proteins dramatically impairs central nervous system development, but the mechanism is unclear. Here, we established a human induced pluripotent stem cell (hiPSC) model containing the PIGAc.1234C>T mutation to study the effects of a hypomorphic allele of PIGA on neuronal development. Neuronal differentiation from neural progenitor cells generated by EB formation in PIGAc.1234C>T is significantly impaired with decreased proliferation, aberrant synapse formation and abnormal membrane depolarization. The results provide direct evidence for a critical role of GPI anchor proteins in early neurodevelopment. Furthermore, neural progenitors derived from PIGAc.1234C>T hiPSCs demonstrate increased susceptibility to complement-mediated cytotoxicity, suggesting that defective complement regulation may contribute to neurodevelopmental disorders.

摘要

参与糖基磷脂酰肌醇（GPI）锚生物合成的基因突变是一组以严重神经发育缺陷为特征的先天性综合征的基础。GPI锚定蛋白在细胞黏附、信号传导、代谢和补体调节中具有多种作用。GPI锚生物合成需要30多种酶，PIGA参与该过程的第一步。X连锁PIGA基因中的一个低表达突变（c.1234C>T）导致多发性先天性异常低张力癫痫综合征2（MCAHS2），这表明即使GPI锚定蛋白部分减少也会显著损害中枢神经系统发育，但其机制尚不清楚。在这里，我们建立了一个包含PIGAc.1234C>T突变的人类诱导多能干细胞（hiPSC）模型，以研究PIGA低表达等位基因对神经元发育的影响。在PIGAc.1234C>T中通过EB形成产生的神经祖细胞向神经元的分化显著受损，表现为增殖减少、突触形成异常和膜去极化异常。这些结果为GPI锚定蛋白在早期神经发育中的关键作用提供了直接证据。此外，源自PIGAc.1234C>T hiPSC的神经祖细胞对补体介导的细胞毒性表现出更高的敏感性，这表明补体调节缺陷可能导致神经发育障碍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/202d/5404867/96fe0808298d/pone.0174074.g001.jpg

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一个低表达的PIGA基因突变在人诱导多能干细胞模型中导致神经元发育的严重缺陷以及对补体介导毒性的易感性。

A hypomorphic PIGA gene mutation causes severe defects in neuron development and susceptibility to complement-mediated toxicity in a human iPSC model.

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