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线粒体DNA缺失会激活星形胶质细胞并导致海绵状脑病。

Loss of mtDNA activates astrocytes and leads to spongiotic encephalopathy.

作者信息

Ignatenko Olesia, Chilov Dmitri, Paetau Ilse, de Miguel Elena, Jackson Christopher B, Capin Gabrielle, Paetau Anders, Terzioglu Mugen, Euro Liliya, Suomalainen Anu

机构信息

Research Programs Unit, Molecular Neurology, Biomedicum Helsinki, Haartmaninkatu 8, University of Helsinki, Helsinki, 00014, Finland.

Department of Pharmacology, Faculty of Medicine, Haartmaninkatu 8, University of Helsinki, Helsinki, 00014, Finland.

出版信息

Nat Commun. 2018 Jan 4;9(1):70. doi: 10.1038/s41467-017-01859-9.

DOI:10.1038/s41467-017-01859-9
PMID:29302033
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5754366/
Abstract

Mitochondrial dysfunction manifests as different neurological diseases, but the mechanisms underlying the clinical variability remain poorly understood. To clarify whether different brain cells have differential sensitivity to mitochondrial dysfunction, we induced mitochondrial DNA (mtDNA) depletion in either neurons or astrocytes of mice, by inactivating Twinkle (TwKO), the replicative mtDNA helicase. Here we show that astrocytes, the most abundant cerebral cell type, are chronically activated upon mtDNA loss, leading to early-onset spongiotic degeneration of brain parenchyma, microgliosis and secondary neurodegeneration. Neuronal mtDNA loss does not, however, cause symptoms until 8 months of age. Findings in astrocyte-TwKO mimic neuropathology of Alpers syndrome, infantile-onset mitochondrial spongiotic encephalopathy caused by mtDNA maintenance defects. Our evidence indicates that (1) astrocytes are dependent on mtDNA integrity; (2) mitochondrial metabolism contributes to their activation; (3) chronic astrocyte activation has devastating consequences, underlying spongiotic encephalopathy; and that (4) astrocytes are a potential target for interventions.

摘要

线粒体功能障碍表现为不同的神经疾病,但其临床变异性背后的机制仍知之甚少。为了阐明不同的脑细胞对线粒体功能障碍是否具有不同的敏感性,我们通过使复制性线粒体DNA解旋酶Twinkle(TwKO)失活,在小鼠的神经元或星形胶质细胞中诱导线粒体DNA(mtDNA)耗竭。我们在此表明,作为大脑中最丰富的细胞类型,星形胶质细胞在mtDNA缺失时会被长期激活,导致脑实质早期海绵状变性、小胶质细胞增生和继发性神经变性。然而,神经元mtDNA缺失直到8个月大时才会引发症状。星形胶质细胞TwKO小鼠的研究结果模拟了阿尔珀斯综合征(Alpers syndrome)的神经病理学特征,这是一种由mtDNA维持缺陷引起的婴儿期线粒体海绵状脑病。我们的证据表明:(1)星形胶质细胞依赖于mtDNA的完整性;(2)线粒体代谢促进其激活;(3)星形胶质细胞的长期激活具有毁灭性后果,是海绵状脑病的基础;(4)星形胶质细胞是干预的潜在靶点。

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