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由 -ALS iPSC 衍生的小胶质细胞中自噬紊乱引起的细胞自主免疫功能障碍导致神经退行性变。

Cell-autonomous immune dysfunction driven by disrupted autophagy in -ALS iPSC-derived microglia contributes to neurodegeneration.

机构信息

UK Dementia Research Institute at University of Edinburgh, University of Edinburgh, Edinburgh bioQuarter, Chancellor's Building, 49 Little France Crescent, Edinburgh EH16 4SB, UK.

Centre for Clinical Brain Sciences, University of Edinburgh, Edinburgh EH16 4SB, UK.

出版信息

Sci Adv. 2023 Apr 21;9(16):eabq0651. doi: 10.1126/sciadv.abq0651.

DOI:10.1126/sciadv.abq0651
PMID:37083530
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10121169/
Abstract

Although microglial activation is widely found in amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD), the underlying mechanism(s) are poorly understood. Here, using human-induced pluripotent stem cell-derived microglia-like cells (hiPSC-MG) harboring the most common ALS/FTD mutation (, mC9-MG), gene-corrected isogenic controls (isoC9-MG), and knockout hiPSC-MG (C9KO-MG), we show that reduced C9ORF72 protein is associated with impaired phagocytosis and an exaggerated immune response upon stimulation with lipopolysaccharide. Analysis of the C9ORF72 interactome revealed that C9ORF72 interacts with regulators of autophagy and functional studies showed impaired initiation of autophagy in mC9-MG and C9KO-MG. Coculture studies with motor neurons (MNs) demonstrated that the autophagy deficit in mC9-MG drives increased vulnerability of mC9-MNs to excitotoxic stimulus. Pharmacological activation of autophagy ameliorated both cell-autonomous functional deficits in hiPSC-MG and MN death in MG-MN coculture. Together, these findings reveal an important role for C9ORF72 in regulating immune homeostasis and identify dysregulation in myeloid cells as a contributor to neurodegeneration in ALS/FTD.

摘要

虽然小胶质细胞激活在肌萎缩侧索硬化症 (ALS) 和额颞叶痴呆 (FTD) 中广泛存在,但潜在的机制仍知之甚少。在这里,我们使用携带最常见的 ALS/FTD 突变 (mC9) 的人诱导多能干细胞衍生的小胶质样细胞 (hiPSC-MG)、基因校正的同基因对照 (isoC9-MG) 和 C9ORF72 敲除 hiPSC-MG (C9KO-MG),我们表明,C9ORF72 蛋白减少与吞噬作用受损以及脂多糖刺激时过度的免疫反应有关。对 C9ORF72 相互作用组的分析表明,C9ORF72 与自噬调节剂相互作用,功能研究表明 mC9-MG 和 C9KO-MG 中的自噬起始受损。与运动神经元 (MNs) 的共培养研究表明,mC9-MG 中的自噬缺陷导致 mC9-MNs 对兴奋毒性刺激的易感性增加。自噬的药理学激活改善了 hiPSC-MG 中的细胞自主功能缺陷和 MG-MN 共培养中的 MN 死亡。总之,这些发现揭示了 C9ORF72 在调节免疫稳态中的重要作用,并确定髓样细胞中的失调是 ALS/FTD 神经退行性变的一个贡献因素。

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