纠正脂质代谢失调可使少突胶质细胞中的基因表达正常化，并延长雌性多聚 - GA C9orf72 小鼠的寿命。

Correction of dysregulated lipid metabolism normalizes gene expression in oligodendrocytes and prolongs lifespan in female poly-GA C9orf72 mice.

作者信息

Rezaei Ali, Kocsis-Jutka Virág, Gunes Zeynep I, Zeng Qing, Kislinger Georg, Bauernschmitt Franz, Isilgan Huseyin Berkcan, Parisi Laura R, Kaya Tuğberk, Franzenburg Sören, Koppenbrink Jonas, Knogler Julia, Arzberger Thomas, Farny Daniel, Nuscher Brigitte, Katona Eszter, Dhingra Ashutosh, Yang Chao, Gouna Garyfallia, LaClair Katherine D, Janjic Aleksandar, Enard Wolfgang, Zhou Qihui, Hagan Nellwyn, Ofengeim Dimitry, Beltrán Eduardo, Gokce Ozgun, Simons Mikael, Liebscher Sabine, Edbauer Dieter

机构信息

German Center for Neurodegenerative Diseases (DZNE), Munich, Germany.

Munich Cluster of Systems Neurology (SyNergy), Munich, Germany.

出版信息

Nat Commun. 2025 Apr 11;16(1):3442. doi: 10.1038/s41467-025-58634-4.

DOI:10.1038/s41467-025-58634-4

PMID:40216746

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11992041/

Abstract

Clinical and genetic research links altered cholesterol metabolism with ALS development and progression, yet pinpointing specific pathomechanisms remain challenging. We investigated how cholesterol dysmetabolism interacts with protein aggregation, demyelination, and neuronal loss in ALS. Bulk RNAseq transcriptomics showed decreased cholesterol biosynthesis and increased cholesterol export in ALS mouse models (GA-Nes, GA-Camk2a GA-CFP, rNLS8) and patient samples (spinal cord), suggesting an adaptive response to cholesterol overload. Consequently, we assessed the efficacy of the cholesterol-binding drug 2-hydroxypropyl-β-cyclodextrin (CD) in a fast-progressing C9orf72 ALS mouse model with extensive poly-GA expression and myelination deficits. CD treatment normalized cholesteryl ester levels, lowered neurofilament light chain levels, and prolonged lifespan in female but not male GA-Nes mice, without impacting poly-GA aggregates. Single nucleus transcriptomics indicated that CD primarily affected oligodendrocytes, significantly restored myelin gene expression, increased density of myelinated axons, inhibited the disease-associated oligodendrocyte response, and downregulated the lipid-associated genes Plin4 and ApoD. These results suggest that reducing excess free cholesterol in the CNS could be a viable ALS treatment strategy.

摘要

临床和基因研究将胆固醇代谢改变与肌萎缩侧索硬化症（ALS）的发生和发展联系起来，但确定具体的发病机制仍然具有挑战性。我们研究了胆固醇代谢异常如何与ALS中的蛋白质聚集、脱髓鞘和神经元丢失相互作用。大量RNA测序转录组学研究表明，在ALS小鼠模型（GA-Nes、GA-Camk2a、GA-CFP、rNLS8）和患者样本（脊髓）中，胆固醇生物合成减少，胆固醇输出增加，这表明是对胆固醇过载的一种适应性反应。因此，我们评估了胆固醇结合药物2-羟丙基-β-环糊精（CD）在具有广泛多聚甘氨酸-丙氨酸（poly-GA）表达和髓鞘形成缺陷的快速进展性C9orf72 ALS小鼠模型中的疗效。CD治疗使胆甾醇酯水平正常化，降低神经丝轻链水平，并延长了雌性而非雄性GA-Nes小鼠的寿命，且不影响poly-GA聚集体。单核转录组学表明，CD主要影响少突胶质细胞，显著恢复髓鞘基因表达，增加有髓轴突密度，抑制疾病相关的少突胶质细胞反应，并下调脂质相关基因Plin4和ApoD。这些结果表明，降低中枢神经系统中过量的游离胆固醇可能是一种可行的ALS治疗策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b3d3/11992041/876e9d5ed0ec/41467_2025_58634_Fig1_HTML.jpg

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纠正脂质代谢失调可使少突胶质细胞中的基因表达正常化，并延长雌性多聚 - GA C9orf72 小鼠的寿命。

Correction of dysregulated lipid metabolism normalizes gene expression in oligodendrocytes and prolongs lifespan in female poly-GA C9orf72 mice.

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