Lineage tracing reveals the hierarchical relationship between neural stem cell populations in the mouse forebrain

Nadia Sachewsky; Wenjun Xu; Tobias Fuehrmann; Derek van der Kooy; Cindi M. Morshead

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Lineage tracing reveals the hierarchical relationship between neural stem cell populations in the mouse forebrain

机译：谱系追踪揭示了小鼠前脑中神经干细胞群之间的层次关系

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Since the original isolation of neural stem cells (NSCs) in the adult mammalian brain, further work has revealed a heterogeneity in the NSC pool. Our previous work characterized a distinct, Oct4 expressing, NSC population in the periventricular region, through development and into adulthood. We hypothesized that this population is upstream in lineage to the more abundant, well documented, GFAP expressing NSC. Herein, we show that Oct4 expressing NSCs give rise to neurons, astrocytes and oligodendrocytes throughout the developing brain. Further, transgenic inducible mouse models demonstrate that the rare Oct4 expressing NSCs undergo asymmetric divisions to give rise to GFAP expressing NSCs in na?ve and injured brains. This lineage relationship between distinct NSC pools contributes significantly to an understanding of neural development, the NSC lineage in vivo and has implications for neural repair.

机译：由于神经干细胞（NSCs）在成人哺乳动物脑中的原始分离，进一步的工作揭示了NSC池中的异质性。我们以前的工作表征了一个独特的Oct4表达，在Periventricular地区，通过开发和成年期地区表达了NSC人口。我们假设这一人口在血统上的上游到更丰富，记录的GFAP更丰富，表达了NSC。在此，我们表明，表达NSCs的OCT4产生神经元，星形胶质细胞和在整个发育中的大脑中的少粒细胞。此外，转基因诱导小鼠模型表明，表达NSCs的罕见OCT4经历不对称部门，以引起纳尔和受伤的脑中表达NSC的GFAP。不同的NSC池之间的这种谱系关系促进了对神经发展的理解，NSC谱系在体内的血统和对神经修复的影响。

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《Scientific reports.》 |2019年第1期|共页
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Nadia Sachewsky; Wenjun Xu; Tobias Fuehrmann; Derek van der Kooy; Cindi M. Morshead;
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入库时间 2022-08-19 01:15:35

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1. The neural stem cell lineage reveals novel relationships among spermatogonial germ stem cells and other pluripotent stem cells. [J] . Anouk-Martine Teichert, Schreiber Pereira, Brenda Coles, Stem cells and development . 2014,第7期

机译：神经干细胞谱系揭示了精原干细胞与其他多能干细胞之间的新关系。
2. Lineage tracing of Notch1-expressing cells in intestinal tumours reveals a distinct population of cancer stem cells [J] . Larissa Mourao, Guillaume Jacquemin, Mathilde Huyghe, Scientific reports. . 2019,第1期

机译：肠道肿瘤中Notch1表达细胞的谱系追踪揭示了癌症干细胞的独特种群
3. Neural stem cells from mouse forebrain are contained in a population distinct from the 'side population'. [J] . Mouthon MA, Fouchet P, Mathieu C, Journal of Neurochemistry: Offical Journal of the International Society for Neurochemistry . 2006,第3期

机译：来自小鼠前脑的神经干细胞包含在不同于“侧群”的种群中。
4. Differentiation of the mouse embryoid body cells towards neural lineage on octadiene-allylamine plasma polymer gradients [C] . Bahman Delalat, Renee Goreham, Krasimir Vasilev, World biomaterials congress . 2012

机译：辛二烯-烯丙胺血浆聚合物梯度对小鼠类胚体细胞向神经谱系的分化
5. Regionally distinct neural stem cell populations in the mouse embryonic brain and spinal cord. [D] . Kelly, Theresa Kathleen. 2006

机译：小鼠胚胎脑和脊髓中区域不同的神经干细胞群体。
6. Lineage tracing with Axin2 reveals distinct developmental and adult populations of Wnt/β-catenin–responsive neural stem cells [O] . Angela N. Bowman, Renée van Amerongen, Theo D. Palmer, 2013

机译：使用Axin2的谱系追踪揭示了Wnt /β-catenin反应神经干细胞的不同发育和成年种群
7. Lineage tracing with Axin2 reveals distinct developmental and adult populations of Wnt/ -catenin-responsive neural stem cells [O] . A. N. Bowman, R. van Amerongen, T. D. Palmer, 2013

机译：轴突2的谱系追踪揭示了Wnt / -catenin响应性神经干细胞的明显发育和成人群体

Lineage tracing reveals the hierarchical relationship between neural stem cell populations in the mouse forebrain

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