成人神经胶质祖细胞命运的测定。

Neuron glia biology Pub Date : 2009-11-01 Epub Date: 2009-10-07 DOI:10.1017/S1740925X09990317
Fraser J Sim, Martha S Windrem, Steven A Goldman
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引用次数: 54

摘要

胶质祖细胞(GPCs)是成人大脑中最丰富的祖细胞群。它们负责中枢神经系统(CNS)的髓鞘再生,并可能有助于脑损伤和变性的星形胶质反应。成人GPCs倾向于分化为少突胶质细胞和精心制作的新髓鞘,但它们仍保持多系可塑性,并且一旦从成人实质环境中移除,就可以产生神经元、星形胶质细胞和少突胶质细胞。GPCs保留了强大的细胞自主自我更新机制,然而它们的表型和命运可能都是由它们的微环境决定的。利用急性分离GPCs的转录谱,我们已经开始了解这些过程中涉及的有效配体-受体相互作用,并确定了几个关键的信号通路,通过这些通路,成人GPCs可能被可靠地指示成少突胶质细胞或星形胶质细胞的命运。此外,我们注意到胎儿和成人GPCs,以及啮齿动物和人类GPCs的表达基因和显性信号通路之间存在显著差异。后者的数据尤其对仅基于啮齿动物数据的治疗策略提出了质疑,同时可能突出了神经胶质表型和功能的系统发育修饰在进化中的程度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fate determination of adult human glial progenitor cells.

Glial progenitor cells (GPCs) comprise the most abundant population of progenitor cells in the adult human brain. They are responsible for central nervous system (CNS) remyelination, and likely contribute to the astrogliotic response to brain injury and degeneration as well. Adult human GPCs are biased to differentiate as oligodendrocytes and elaborate new myelin, and yet they retain multilineage plasticity, and can give rise to neurons as well as astrocytes and oligodendrocytes once removed from the adult parenchymal environment. GPCs retain strong mechanisms for cell-autonomous self-renewal, and yet both their phenotype and fate may be dictated by their microenvironment. Using the transcriptional profiles of acutely isolated GPCs, we have begun to understand the operative ligand-receptor interactions involved in these processes, and have identified several key signaling pathways by which adult human GPCs may be reliably instructed to either oligodendrocytic or astrocytic fate. In addition, we have noted significant differences between the expressed genes and dominant signaling pathways of fetal and adult human GPCs, as well as between rodent and human GPCs. The latter data in particular call into question therapeutic strategies predicated solely upon data obtained using rodents, while perhaps highlighting the extent to which evolution has been attended by the phylogenetic modification of glial phenotype and function.

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Neuron glia biology
Neuron glia biology 医学-神经科学
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