Fancy Stephen P J, Zhao Chao, Franklin Robin J M
Cambridge Centre for Brain Repair and Centre for Veterinary Sciences, University of Cambridge, Cambridge CB3 0ES, United Kingdom.
Mol Cell Neurosci. 2004 Nov;27(3):247-54. doi: 10.1016/j.mcn.2004.06.015.
Within the adult CNS, a quiescent population of oligodendrocyte progenitor cells (OPCs) become activated in response to demyelination and give rise to remyelinating oligodendrocytes. During development, OPC differentiation is controlled by several transcription factors including Olig1 and Olig2, and Nkx2.2. We hypothesized that these genes may serve similar functions in activated adult OPCs allowing them to become remyelinating oligodendrocytes and tested this hypothesis by examining their expression during the remyelination of a toxin-induced rodent model of demyelination. During the acute phase of demyelination, OPCs within the lesion increased their expression of Nkx2.2 and Olig2, two transcription factors that in combination are critical for oligodendrocyte differentiation during developmental myelination. This activation was not associated with increases in Sonic hedgehog (Shh) expression, which does not appear essential for CNS remyelination. Consistent with a role in the activation and differentiation of OPCs, these increases were delayed in old adult animals where the rate of remyelination is slowed. Our data suggest the hypothesis that increased expression of Nkx2.2 and Olig2 plays a critically important role in the differentiation of adult OPCs into remyelinating oligodendrocytes and that these genes may present novel targets for therapeutic manipulation in cases where remyelination is impaired.
在成体中枢神经系统中,少突胶质前体细胞(OPC)的静止群体在脱髓鞘反应中被激活,并产生参与髓鞘再生的少突胶质细胞。在发育过程中,OPC的分化受多种转录因子调控,包括Olig1、Olig2和Nkx2.2。我们推测这些基因在激活的成体OPC中可能发挥类似功能,使其能够分化为参与髓鞘再生的少突胶质细胞,并通过检测它们在毒素诱导的啮齿动物脱髓鞘模型髓鞘再生过程中的表达来验证这一假设。在脱髓鞘的急性期,损伤部位的OPC增加了Nkx2.2和Olig2的表达,这两种转录因子共同作用对发育性髓鞘形成过程中少突胶质细胞的分化至关重要。这种激活与音猬因子(Shh)表达的增加无关,Shh似乎对中枢神经系统的髓鞘再生并非必不可少。与在OPC激活和分化中的作用一致,在老年动物中这些增加出现延迟,而老年动物的髓鞘再生速度减慢。我们的数据支持以下假设:Nkx2.2和Olig2表达的增加在成体OPC分化为参与髓鞘再生的少突胶质细胞过程中起关键重要作用,并且在髓鞘再生受损的情况下,这些基因可能成为治疗干预的新靶点。
