脑胼胝体定位错误重新连接皮层基因网络驱动ALS患者的认知和行为障碍。

medRxiv : the preprint server for health sciences Pub Date : 2025-06-17 DOI:10.1101/2025.06.16.25329673

Raphaelle Cassel, Félicie Lorenc, Aurélie Bombardier, Claudia DE Tapia, Stéphane Dieterle, Cláudio Gouveia Roque, Christopher A Jackson, Geoffrey Stuart-Lopez, Caroline Rouaux, Simon J Guillot, Marie-Christine Birling, Pascal Kessler, Maurizio Grassano, Bryan Traynor, Adriano Chio, Raju Roy, James Shorter, Fergal M Waldron, Jenna M Gregory, Hemali Phatnani, Luc Dupuis, Salim Megat

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引用次数: 0

摘要

认知和行为障碍影响多达一半的肌萎缩性侧索硬化症（ALS）患者，但其分子起源仍未解决。在这里，我们发现皮质神经元中rna结合蛋白FUS的错误定位是ALS患者认知功能障碍（ALS-ci）的一个决定性特征。小鼠成年皮质投射神经元中FUS的选择性错误定位足以引发ALS-ci和ALS-bi样表型，包括社交能力缺陷和神经退行性变。单核转录组学揭示了保守的fus依赖基因网络在这些小鼠和ALS-ci患者中下调。这一调控在ALS遗传危险因素中被富集，并与FBXO16在ALS-bi中有新的关联。蛋白截断FBXO16变异的携带者表现出行为异常、额颞叶萎缩和痴呆相关生物标志物水平升高。这些发现确定了ALS患者认知和行为功能障碍的神经元内在机制，并将FUS错定位及其下游基因网络作为治疗靶点。图片摘要：在ALS患者皮质投射神经元中观察到FUS错定位的转录指纹，FUS错定位导致皮质投射神经元中与tdp43共有的跨物种保守调控下调，成人皮质投射神经元中FUS错定位足以触发小鼠模型中ALS相关的认知和行为障碍，ALS患者认知障碍中FUS错定位和FUS调控下调携带FBXO16蛋白截断变体（FBXO16是FUS调节基因之一）的人，表现出ALS患者行为障碍的行为、影像学和生化标志物。

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FUS Mislocalization Rewires a Cortical Gene Network to Drive Cognitive and Behavioral Impairment in ALS.

Cognitive and behavioral impairment affects up to half of individuals with amyotrophic lateral sclerosis (ALS), but their molecular origin remains unresolved. Here, we identify mislocalization of the RNA-binding protein FUS in cortical neurons as a defining feature in ALS patients with cognitive impairment (ALS-ci). Selective mislocalization of FUS in adult cortical projection neurons in mice is sufficient to trigger ALS-ci- and ALS with behavioral impairment (ALS-bi)-like phenotypes, including deficits in sociability, and neurodegeneration. Single-nucleus transcriptomics reveal a conserved FUS-dependent gene network downregulated in these mice and ALS-ci patients. This regulon is enriched for ALS genetic risk factors and newly implicates FBXO16 in ALS-bi. Carriers of protein-truncating FBXO16 variants display behavioral abnormalities, frontotemporal atrophy, and increased levels of dementia-linked biomarkers. These findings define a neuron-intrinsic mechanism for cognitive and behavioral dysfunction in ALS and nominate FUS mislocalization and its downstream gene network as therapeutic targets.

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medRxiv : the preprint server for health sciences

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