TDP-43 seeding induces cytoplasmic aggregation heterogeneity and nuclear loss of function of TDP-43

播种 功能(生物学) 细胞质 损失函数 神经科学 细胞生物学 生物物理学 化学 生物 表型 生物化学 基因 农学
作者
JL Rummens,Bilal Khalil,Günseli Yıldırım,Pedro Silva,Valentina Zorzini,Nicolas Peredo,Marta Wojno,Meine Ramakers,Ludo Van Den Bosch,Philip Van Damme,Kristofer Davie,Jelle Hendrix,Frédéric Rousseau,Joost Schymkowitz,Sandrine Da Cruz
出处
期刊:Neuron [Cell Press]
卷期号:113 (10): 1597-1613.e8 被引量:10
标识
DOI:10.1016/j.neuron.2025.03.004
摘要

Cytoplasmic aggregation and nuclear depletion of TAR DNA-binding protein 43 (TDP-43) are hallmarks of several neurodegenerative disorders. Yet, recapitulating both features in cellular systems has been challenging. Here, we produced amyloid-like fibrils from recombinant TDP-43 low-complexity domain and demonstrate that sonicated fibrils trigger TDP-43 pathology in human cells, including induced pluripotent stem cell (iPSC)-derived neurons. Fibril-induced cytoplasmic TDP-43 inclusions acquire distinct biophysical properties, recapitulate pathological hallmarks such as phosphorylation, ubiquitin, and p62 accumulation, and recruit nuclear endogenous TDP-43, leading to its loss of function. A transcriptomic signature linked to both aggregation and nuclear loss of TDP-43, including disease-specific cryptic splicing, is identified. Cytoplasmic TDP-43 aggregates exhibit time-dependent heterogeneous morphologies as observed in patients-including compacted, filamentous, or fragmented-which involve upregulation/recruitment of protein clearance pathways. Ultimately, cell-specific progressive toxicity is provoked by seeded TDP-43 pathology in human neurons. These findings identify TDP-43-templated aggregation as a key mechanism driving both cytoplasmic gain of function and nuclear loss of function, offering a valuable approach to identify modifiers of sporadic TDP-43 proteinopathies.
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