Coordinated control of self-renewal and differentiation of neural stem cells by Myc and the p19ARF–p53 pathway
2008
The modes of proliferation and differentiation of neural stem cells (NSCs) are coordinately controlled during development, but the underlying mechanisms remain largely unknown. In this study, we show that the protooncoprotein Myc and the tumor suppressor p19ARF regulate both NSC self-renewal and their neuronal and glial fate in a developmental stage–dependent manner. Early-stage NSCs have low p19ARF expression and retain a high self-renewal and neurogenic capacity, whereas late-stage NSCs with higher p19ARF expression possess a lower self-renewal capacity and predominantly generate glia. Overexpression of Myc or inactivation of p19ARF reverts the properties of late-stage NSCs to those of early-stage cells. Conversely, inactivation of Myc or forced p19ARF expression attenuates self-renewal and induces precocious gliogenesis through modulation of the responsiveness to gliogenic signals. These actions of p19ARF in NSCs are mainly mediated by p53. We propose that opposing actions of Myc and the p19ARF–p53 pathway have important functions in coordinated developmental control of self-renewal and cell fate choices in NSCs.
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