巢蛋白的表达在一种神经干细胞系中通过一种涉及蛋白酶体和Notch信号传导的机制而丧失。

Nestin expression is lost in a neural stem cell line through a mechanism involving the proteasome and Notch signalling.

作者信息

Mellodew Karen, Suhr Ralf, Uwanogho Dafe A, Reuter Iris, Lendahl Urban, Hodges Helen, Price Jack

机构信息

Department of Neuroscience, Institute of Psychiatry, PO39, 1 Windsor Walk, Denmark Hill, London, UK.

出版信息

Brain Res Dev Brain Res. 2004 Jul 19;151(1-2):13-23. doi: 10.1016/j.devbrainres.2004.03.018.

DOI:10.1016/j.devbrainres.2004.03.018

PMID:15246688

Abstract

Neural stem cells (NSCs) are believed to repair brain damage primarily through cell replacement: i.e., the ability to regenerate lost neurons and glia in a site-specific fashion. The neural stem cell line, MHP36, has been shown to have this capacity, but we have little idea of the molecular mechanisms that control the differentiation of such cells during brain repair. In this study we show that an early event in the differentiation of MHP36 cells, both in vivo and in vitro, is the loss of expression of the intermediate filament protein, nestin. We use a co-culture assay to show that loss of nestin is fast, being detectable after just 1 h and complete in 4 h, and is controlled by proteasome degradation rather than down-regulation of de novo nestin synthesis. We also show that nestin loss is regulated by Notch, and mediated by cell contact.

摘要

神经干细胞（NSCs）被认为主要通过细胞替代来修复脑损伤，即能够以位点特异性方式再生丢失的神经元和神经胶质细胞。神经干细胞系MHP36已被证明具有这种能力，但我们对脑修复过程中控制此类细胞分化的分子机制知之甚少。在本研究中，我们表明，MHP36细胞在体内和体外分化的早期事件是中间丝蛋白巢蛋白表达的丧失。我们使用共培养试验表明，巢蛋白的丧失很快，仅在1小时后即可检测到，并在4小时内完成，且由蛋白酶体降解而非巢蛋白从头合成的下调所控制。我们还表明，巢蛋白的丧失受Notch调节，并由细胞接触介导。

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巢蛋白的表达在一种神经干细胞系中通过一种涉及蛋白酶体和Notch信号传导的机制而丧失。

Nestin expression is lost in a neural stem cell line through a mechanism involving the proteasome and Notch signalling.

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