Neural stem cells: balancing self-renewal with differentiation
Top Cited Papers
- 1 May 2008
- journal article
- review article
- Published by The Company of Biologists in Development
- Vol. 135 (9), 1575-1587
- https://doi.org/10.1242/dev.014977
Abstract
Stem cells are captivating because they have the potential to make multiple cell types yet maintain their undifferentiated state. Recent studies of Drosophila and mammalian neural stem cells have shed light on how stem cells regulate self-renewal versus differentiation and have revealed the proteins, processes and pathways that all converge to regulate neural progenitor self-renewal. If we can better understand how stem cells balance self-renewal versus differentiation, we will significantly advance our knowledge of embryogenesis, cancer biology and brain evolution, as well as the use of stem cells for therapeutic purposes.Keywords
This publication has 150 references indexed in Scilit:
- Lis1/dynactin regulates metaphase spindle orientation in Drosophila neuroblastsDevelopmental Biology, 2008
- NUMB controls p53 tumour suppressor activityNature, 2008
- Induction of Pluripotent Stem Cells from Adult Human Fibroblasts by Defined FactorsCell, 2007
- Cep120 and TACCs Control Interkinetic Nuclear Migration and the Neural Progenitor PoolNeuron, 2007
- Polo inhibits progenitor self-renewal and regulates Numb asymmetry by phosphorylating PonNature, 2007
- Differential Notch signalling distinguishes neural stem cells from intermediate progenitorsNature, 2007
- Neural stem cell self-renewalCritical Reviews in Oncology/Hematology, 2007
- Postnatal Deletion of Numb/Numblike Reveals Repair and Remodeling Capacity in the Subventricular Neurogenic NicheCell, 2006
- Vertebrate neural cell-fate determination: Lessons from the retinaNature Reviews Neuroscience, 2001
- Cleavage orientation and the asymmetric inheritance of notchl immunoreactivity in mammalian neurogenesisCell, 1995