p21(Waf1/Cip1) 对 Bmp2 的转录抑制将静止与神经干细胞维持联系起来。

Transcriptional repression of Bmp2 by p21(Waf1/Cip1) links quiescence to neural stem cell maintenance.

机构信息

1] Centro de Investigación Biomédica en Red sobre Enfermedades Neurodegenerativas (CIBERNED), Madrid, Spain. [2] Departamento de Biología Celular, Universidad de Valencia, Valencia, Spain. [3].

出版信息

Nat Neurosci. 2013 Nov;16(11):1567-75. doi: 10.1038/nn.3545. Epub 2013 Oct 6.

DOI:10.1038/nn.3545

PMID:24097040

Abstract

Relative quiescence and self renewal are defining features of adult stem cells, but their potential coordination remains unclear. Subependymal neural stem cells (NSCs) lacking cyclin-dependent kinase (CDK) inhibitor (CKI) 1a (p21) exhibit rapid expansion that is followed by their permanent loss later in life. Here we demonstrate that transcription of the gene encoding bone morphogenetic protein 2 (Bmp2) in NSCs is under the direct negative control of p21 through actions that are independent of CDK. Loss of p21 in NSCs results in increased levels of secreted BMP2, which induce premature terminal differentiation of multipotent NSCs into mature non-neurogenic astrocytes in an autocrine and/or paracrine manner. We also show that the cell-nonautonomous p21-null phenotype is modulated by the Noggin-rich environment of the subependymal niche. The dual function that we describe here provides a physiological example of combined cell-autonomous and cell-nonautonomous functions of p21 with implications in self renewal, linking the relative quiescence of adult stem cells to their longevity and potentiality.

摘要

相对静止和自我更新是成体干细胞的定义特征，但它们的潜在协调仍不清楚。缺少细胞周期蛋白依赖性激酶（CDK）抑制剂（CKI）1a（p21）的室管膜下神经干细胞（NSC）表现出快速扩增，随后在生命后期永久性丧失。在这里，我们证明 NSCs 中编码骨形态发生蛋白 2（Bmp2）的基因转录受到 p21 的直接负调控，其作用独立于 CDK。NSC 中 p21 的缺失导致分泌的 BMP2 水平升高，BMP2 以自分泌和/或旁分泌的方式诱导多能 NSC 过早终末分化为成熟的非神经源性星形胶质细胞。我们还表明，细胞非自主的 p21 缺失表型受室管膜下腔 Noggin 丰富环境的调节。我们在这里描述的双重功能提供了一个与自我更新相关的 p21 细胞自主和细胞非自主功能的生理实例，将成体干细胞的相对静止与其长寿和潜能联系起来。

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p21(Waf1/Cip1) 对 Bmp2 的转录抑制将静止与神经干细胞维持联系起来。

Transcriptional repression of Bmp2 by p21(Waf1/Cip1) links quiescence to neural stem cell maintenance.

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