前脑室管膜细胞依赖Notch信号，并在中风后生成神经母细胞和星形胶质细胞。

Forebrain ependymal cells are Notch-dependent and generate neuroblasts and astrocytes after stroke.

作者信息

Carlén Marie, Meletis Konstantinos, Göritz Christian, Darsalia Vladimer, Evergren Emma, Tanigaki Kenji, Amendola Mario, Barnabé-Heider Fanie, Yeung Maggie S Y, Naldini Luigi, Honjo Tasuku, Kokaia Zaal, Shupliakov Oleg, Cassidy Robert M, Lindvall Olle, Frisén Jonas

机构信息

Department of Cell and Molecular Biology, Medical Nobel Institute, Karolinska Institute, SE-171 77 Stockholm, Sweden.

出版信息

Nat Neurosci. 2009 Mar;12(3):259-67. doi: 10.1038/nn.2268. Epub 2009 Feb 22.

DOI:10.1038/nn.2268

PMID:19234458

Abstract

Neurons are continuously generated from stem cells in discrete regions in the adult mammalian brain. We found that ependymal cells lining the lateral ventricles were quiescent and did not contribute to adult neurogenesis under normal conditions in mice but instead gave rise to neuroblasts and astrocytes in response to stroke. Ependymal cell quiescence was actively maintained by canonical Notch signaling. Inhibition of this pathway in uninjured animals allowed ependymal cells to enter the cell cycle and produce olfactory bulb neurons, whereas forced Notch signaling was sufficient to block the ependymal cell response to stroke. Ependymal cells were depleted by stroke and failed to self-renew sufficiently to maintain their own population. Thus, although ependymal cells act as primary cells in the neural lineage to produce neurons and glial cells after stroke, they do not fulfill defining criteria for stem cells under these conditions and instead serve as a reservoir that is recruited by injury.

摘要

在成年哺乳动物大脑的离散区域，神经元不断地由干细胞产生。我们发现，在正常条件下，小鼠侧脑室衬里的室管膜细胞处于静止状态，不参与成年神经发生，但在中风后会产生神经母细胞和星形胶质细胞。室管膜细胞的静止状态由经典的Notch信号通路积极维持。在未受伤的动物中抑制该信号通路，可使室管膜细胞进入细胞周期并产生嗅球神经元，而强制激活Notch信号足以阻断室管膜细胞对中风的反应。中风会使室管膜细胞减少，且无法充分自我更新以维持自身数量。因此，尽管室管膜细胞在中风后作为神经谱系中的主要细胞产生神经元和胶质细胞，但在这些条件下它们不符合干细胞的定义标准，而是作为一种在损伤时被招募的储备细胞。

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前脑室管膜细胞依赖Notch信号，并在中风后生成神经母细胞和星形胶质细胞。

Forebrain ependymal cells are Notch-dependent and generate neuroblasts and astrocytes after stroke.

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