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肌萎缩侧索硬化症 M114T PFN1 突变使非经典自噬途径和线粒体稳态失调。

The Amyotrophic Lateral Sclerosis M114T PFN1 Mutation Deregulates Alternative Autophagy Pathways and Mitochondrial Homeostasis.

机构信息

Institut du Cerveau-Paris Brain Institute-ICM, Inserm, CNRS, APHP, Hôpital de la Pitié Salpêtrière, Sorbonne Université, F-75013 Paris, France.

The Florey Institute of Neuroscience and Mental Health, University of Melbourne, Parkville, VIC 3052, Australia.

出版信息

Int J Mol Sci. 2022 May 19;23(10):5694. doi: 10.3390/ijms23105694.

DOI:10.3390/ijms23105694
PMID:35628504
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9143529/
Abstract

Mutations in profilin 1 (PFN1) have been identified in rare familial cases of Amyotrophic Lateral Sclerosis (ALS). PFN1 is involved in multiple pathways that could intervene in ALS pathology. However, the specific pathogenic role of PFN1 mutations in ALS is still not fully understood. We hypothesized that PFN1 could play a role in regulating autophagy pathways and that PFN1 mutations could disrupt this function. We used patient cells (lymphoblasts) or tissue (post-mortem) carrying PFN1 mutations (M114T and E117G), and designed experimental models expressing wild-type or mutant PFN1 (cell lines and novel PFN1 mice established by lentiviral transgenesis) to study the effects of PFN1 mutations on autophagic pathway markers. We observed no accumulation of PFN1 in the spinal cord of one E117G mutation carrier. Moreover, in patient lymphoblasts and transfected cell lines, the M114T mutant PFN1 protein was unstable and deregulated the RAB9-mediated alternative autophagy pathway involved in the clearance of damaged mitochondria. In vivo, motor neurons expressing M114T mutant PFN1 showed mitochondrial abnormalities. Our results demonstrate that the M114T PFN1 mutation is more deleterious than the E117G variant in patient cells and experimental models and suggest a role for the RAB9-dependent autophagic pathway in ALS.

摘要

PFN1 基因突变已在罕见的家族性肌萎缩侧索硬化症(ALS)病例中被发现。PFN1 参与了多个可能干预 ALS 病理的途径。然而,PFN1 突变在 ALS 中的特定致病作用仍不完全清楚。我们假设 PFN1 可能在调节自噬途径中发挥作用,并且 PFN1 突变可能会破坏这种功能。我们使用携带 PFN1 突变(M114T 和 E117G)的患者细胞(淋巴母细胞)或组织(死后),并设计了表达野生型或突变型 PFN1 的实验模型(通过慢病毒转染建立的细胞系和新型 PFN1 小鼠),以研究 PFN1 突变对自噬途径标志物的影响。我们没有观察到 E117G 突变携带者脊髓中 PFN1 的积累。此外,在患者的淋巴母细胞和转染的细胞系中,M114T 突变 PFN1 蛋白不稳定,并且扰乱了涉及清除受损线粒体的 RAB9 介导的替代自噬途径。在体内,表达 M114T 突变 PFN1 的运动神经元表现出线粒体异常。我们的结果表明,在患者细胞和实验模型中,M114T PFN1 突变比 E117G 变体更具危害性,并提示 RAB9 依赖性自噬途径在 ALS 中的作用。

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