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体育锻炼可调节小鼠小胶质细胞补体途径,以缓解由突变型人类TDP-43诱导的皮质神经回路缺陷。

Physical exercise modulates the microglial complement pathway in mice to relieve cortical circuitry deficits induced by mutant human TDP-43.

作者信息

Wei Ji-An, Liu Linglin, Song Xichen, Lin Bilian, Cui Jing, Luo Lanzhi, Liu Yuchu, Li Shihua, Li Xiaojiang, So Kwok-Fai, Yan Sen, Zhang Li

机构信息

Key Laboratory of CNS Regeneration (Ministry of Education), Guangdong-Hong Kong-Macau Institute of CNS Regeneration, Jinan University, Guangzhou 510632, China.

Key Laboratory of CNS Regeneration (Ministry of Education), Guangdong-Hong Kong-Macau Institute of CNS Regeneration, Jinan University, Guangzhou 510632, China; Guangdong Key Laboratory of Non-Human Primate Models, Guangdong-Hongkong-Macau Institute of CNS Regeneration, Jinan University, Guangzhou 510632, China.

出版信息

Cell Rep. 2023 Mar 28;42(3):112240. doi: 10.1016/j.celrep.2023.112240. Epub 2023 Mar 15.

DOI:10.1016/j.celrep.2023.112240
PMID:36924491
Abstract

The aggregation of TAR DNA binding protein 43 kDa (TDP-43) is related to different neurodegenerative diseases, which leads to microglial activation and neuronal loss. The molecular mechanism driving neuronal death by reactive microglia, however, has not been completely resolved. In this study, we generated a mouse model by overexpressing mutant human TDP-43 (M337V) in the primary motor cortex, leading to prominent motor-learning deficits. In vivo 2-photon imaging shows an active approach of microglia toward parvalbumin interneurons, resulting in disrupted cortical excitatory-inhibitory balance. Proteomics studies suggest that activation of the complement pathway induces microglial activity. To develop an early interventional strategy, treadmill exercise successfully prevents the deterioration of motor dysfunction under enhanced adipocytic release of clusterin to block the complement pathway. These results demonstrate a previously unrecognized pathway by which TDP-43 induces cortical deficits and provide additional insights for the mechanistic explanation of exercise training in disease intervention.

摘要

43 kDa的TAR DNA结合蛋白(TDP - 43)聚集与不同的神经退行性疾病相关,会导致小胶质细胞激活和神经元丢失。然而,反应性小胶质细胞导致神经元死亡的分子机制尚未完全阐明。在本研究中,我们通过在初级运动皮层中过表达突变型人TDP - 43(M337V)建立了一个小鼠模型,导致明显的运动学习缺陷。体内双光子成像显示小胶质细胞积极趋向小白蛋白中间神经元,导致皮质兴奋性 - 抑制性平衡被破坏。蛋白质组学研究表明补体途径的激活诱导了小胶质细胞活性。为了制定早期干预策略,跑步机运动成功预防了运动功能障碍的恶化,这是通过增强脂肪细胞释放簇集蛋白以阻断补体途径实现的。这些结果证明了TDP - 43诱导皮质缺陷的一个此前未被认识的途径,并为运动训练在疾病干预中的作用机制解释提供了更多见解。

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