Notch is Not Involved in Physioxia-Mediated Stem Cell Maintenance in Midbrain Neural Stem Cells.

IF 2.5 4区 医学 Q3 CELL & TISSUE ENGINEERING
Anne Herrmann, Anne K Meyer, Lena Braunschweig, Lisa Wagenfuehr, Franz Markert, Deborah Kolitsch, Vladimir Vukicevic, Christiane Hartmann, Marlen Siebert, Monika Ehrhart-Bornstein, Andreas Hermann, Alexander Storch
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Abstract

Background and objectives: The physiological oxygen tension in fetal brains (∼3%, physioxia) is beneficial for the maintenance of neural stem cells (NSCs). Sensitivity to oxygen varies between NSCs from different fetal brain regions, with midbrain NSCs showing selective susceptibility. Data on Hif-1α/Notch regulatory interactions as well as our observations that Hif-1α and oxygen affect midbrain NSCs survival and proliferation prompted our investigations on involvement of Notch signalling in physioxia-dependent midbrain NSCs performance.

Methods and results: Here we found that physioxia (3% O2) compared to normoxia (21% O2) increased proliferation, maintained stemness by suppression of spontaneous differentiation and supported cell cycle progression. Microarray and qRT-PCR analyses identified significant changes of Notch related genes in midbrain NSCs after long-term (13 days), but not after short-term physioxia (48 hours). Consistently, inhibition of Notch signalling with DAPT increased, but its stimulation with Dll4 decreased spontaneous differentiation into neurons solely under normoxic but not under physioxic conditions.

Conclusions: Notch signalling does not influence the fate decision of midbrain NSCs cultured in vitro in physioxia, where other factors like Hif-1α might be involved. Our findings on how physioxia effects in midbrain NSCs are transduced by alternative signalling might, at least in part, explain their selective susceptibility to oxygen.

Abstract Image

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Notch不参与中脑神经干细胞生理缺氧介导的干细胞维持。
背景和目的:胎儿大脑的生理氧张力(约3%,生理氧)有利于神经干细胞(NSCs)的维持。胎儿大脑不同区域的NSCs对氧的敏感性不同,中脑NSCs表现出选择性敏感性。关于Hif-1α/Notch调控相互作用的数据,以及我们观察到的Hif-1α和氧气影响中脑NSCs的存活和增殖,促使我们研究Notch信号参与生理缺氧依赖性中脑NSCs的表现。方法和结果:在这里,我们发现与常氧(21% O2)相比,缺氧(3% O2)增加了增殖,通过抑制自发分化和支持细胞周期进程来维持干细胞的干性。芯片和qRT-PCR分析发现,长期(13天)后中脑NSCs中Notch相关基因发生了显著变化,但短期(48小时)生理缺氧后无显著变化。与此一致,DAPT对Notch信号的抑制作用增强,但Dll4对其的刺激仅在常氧条件下而不是在生理氧条件下降低了神经元的自发分化。结论:Notch信号不影响体外培养中脑NSCs在生理缺氧条件下的命运决定,可能与Hif-1α等其他因素有关。我们关于中脑NSCs的生理氧作用是如何通过替代信号传导的研究结果,至少在一定程度上解释了它们对氧的选择性敏感性。
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来源期刊
International journal of stem cells
International journal of stem cells Biochemistry, Genetics and Molecular Biology-Cell Biology
CiteScore
5.10
自引率
4.30%
发文量
38
期刊介绍: International Journal of Stem Cells (Int J Stem Cells), a peer-reviewed open access journal, principally aims to provide a forum for investigators in the field of stem cell biology to present their research findings and share their visions and opinions. Int J Stem Cells covers all aspects of stem cell biology including basic, clinical and translational research on genetics, biochemistry, and physiology of various types of stem cells including embryonic, adult and induced stem cells. Reports on epigenetics, genomics, proteomics, metabolomics of stem cells are welcome as well. Int J Stem Cells also publishes review articles, technical reports and treatise on ethical issues.
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