α-突触核蛋白损害多系统萎缩中少突胶质前体细胞的成熟。

α-Synuclein impairs oligodendrocyte progenitor maturation in multiple system atrophy.

作者信息

May Verena E L, Ettle Benjamin, Poehler Anne-Maria, Nuber Silke, Ubhi Kiren, Rockenstein Edward, Winner Beate, Wegner Michael, Masliah Eliezer, Winkler Jürgen

机构信息

Department of Molecular Neurology, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany.

Department of Neurosciences and Pathology, School of Medicine, University of California San Diego, La Jolla, CA, USA.

出版信息

Neurobiol Aging. 2014 Oct;35(10):2357-68. doi: 10.1016/j.neurobiolaging.2014.02.028. Epub 2014 Mar 4.

DOI:10.1016/j.neurobiolaging.2014.02.028

PMID:24698767

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4087058/

Abstract

Multiple system atrophy (MSA), an atypical parkinsonian disorder, is characterized by α-synuclein (α-syn(+)) cytoplasmatic inclusions in mature oligodendrocytes. Oligodendrocyte progenitor cells (OPCs) represent a distinct cell population with the potential to replace dysfunctional oligodendrocytes. However, the role of OPCs in MSA and their potential to replace mature oligodendrocytes is still unclear. A postmortem analysis in MSA patients revealed α-syn within OPCs and an increased number of striatal OPCs. In an MSA mouse model, an age-dependent increase of dividing OPCs within the striatum and the cortex was detected. Despite of myelin loss, there was no reduction of mature oligodendrocytes in the corpus callosum or the striatum. Dissecting the underlying molecular mechanisms an oligodendroglial cell line expressing human α-syn revealed that α-syn delays OPC maturation by severely downregulating myelin-gene regulatory factor and myelin basic protein. Brain-derived neurotrophic factor was reduced in MSA models and its in vitro supplementation partially restored the phenotype. Taken together, efficacious induction of OPC maturation may open the window to restore glial and neuronal function in MSA.

摘要

多系统萎缩（MSA）是一种非典型帕金森氏症，其特征是成熟少突胶质细胞中存在α-突触核蛋白（α-syn(+)）胞质包涵体。少突胶质前体细胞（OPCs）代表了一种独特的细胞群体，具有替代功能失调的少突胶质细胞的潜力。然而，OPCs在MSA中的作用及其替代成熟少突胶质细胞的潜力仍不清楚。对MSA患者的尸检分析显示OPCs内存在α-syn，且纹状体OPCs数量增加。在MSA小鼠模型中，检测到纹状体和皮质内分裂的OPCs数量随年龄增长而增加。尽管存在髓鞘脱失，但胼胝体或纹状体中的成熟少突胶质细胞并未减少。通过对表达人α-syn的少突胶质细胞系的潜在分子机制进行剖析，发现α-syn通过严重下调髓鞘基因调节因子和髓鞘碱性蛋白来延迟OPCs成熟。在MSA模型中脑源性神经营养因子减少，其体外补充可部分恢复表型。综上所述，有效诱导OPCs成熟可能为恢复MSA中的胶质细胞和神经元功能打开一扇窗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e16c/4087058/d03219730c5e/nihms581928f1.jpg

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α-突触核蛋白损害多系统萎缩中少突胶质前体细胞的成熟。

α-Synuclein impairs oligodendrocyte progenitor maturation in multiple system atrophy.

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