Ikaros-1 couples cell cycle arrest of late striatal precursors with neurogenesis of enkephalinergic neurons

During central nervous system development, several transcription factors regulate the differentiation of progenitor cells to postmitotic neurons. Here we describe a novel role for Ikaros‐1 in the generation of late‐born striatal neurons. Our results show that Ikaros‐1 is expressed in the boundary of...

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Published in:Journal of comparative neurology (1911) 2010-02, Vol.518 (3), p.329-351
Main Authors: Martín-Ibáñez, Raquel, Crespo, Empar, Urbán, Noelia, Sergent-Tanguy, Solène, Herranz, Cristina, Jaumot, Montserrat, Valiente, Manuel, Long, Jason E., Pineda, José Ramón, Andreu, Celia, Rubenstein, John L.R., Marín, Óscar, Georgopoulos, Katia, Mengod, Guadalupe, Fariñas, Isabel, Bachs, Oriol, Alberch, Jordi, Canals, Josep M.
Format: Article
Language:English
Subjects:
Animals
Calbindins
Cell Cycle Proteins - genetics
Cell Cycle Proteins - metabolism
Cell Differentiation - physiology
Corpus Striatum - cytology
Corpus Striatum - embryology
Cyclin-Dependent Kinase Inhibitor p21 - genetics
Cyclin-Dependent Kinase Inhibitor p21 - metabolism
differentiation
Dlx
Ebf-1
Efferent Pathways - cytology
Efferent Pathways - embryology
Enkephalins - metabolism
Genes, cdc - physiology
Homeodomain Proteins - genetics
Ikaros Transcription Factor - genetics
Ikaros Transcription Factor - metabolism
Mice
Mice, Inbred C57BL
Mice, Knockout
Neurogenesis - physiology
Neurons - cytology
Neurons - metabolism
P21
S100 Calcium Binding Protein G - metabolism
Stem Cells - cytology
Stem Cells - metabolism
striatum
Substance P - metabolism
telencephalon
Trans-Activators - genetics
Transcription Factors - genetics
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Summary:During central nervous system development, several transcription factors regulate the differentiation of progenitor cells to postmitotic neurons. Here we describe a novel role for Ikaros‐1 in the generation of late‐born striatal neurons. Our results show that Ikaros‐1 is expressed in the boundary of the striatal germinal zone (GZ)/mantle zone (MZ), where it induces cell cycle arrest of neural progenitors by up‐regulation of the cyclin‐dependent kinase inhibitor (CDKi) p21Cip1/Waf1. This effect is coupled with the neuronal differentiation of late precursors, which in turn is critical for the second wave of striatal neurogenesis that gives rise to matrix neurons. Consistently, Ikaros−/− mice had fewer striatal projecting neurons and, in particular, enkephalin (ENK)‐positive neurons. In addition, overexpression of Ikaros‐1 in primary striatal cultures increases the number of calbindin‐ and ENK‐positive neurons. Our results also show that Ikaros‐1 acts downstream of the Dlx family of transcription factors, insofar as its expression is lost in Dlx1/2 double knockout mice. However, we demonstrate that Ikaros‐1 and Ebf‐1 independently regulate the final determination of the two populations of striatal projection neurons of the matrix compartment, ENK‐ and substance P‐positive neurons. In conclusion, our findings identify Ikaros‐1 as a modulator of cell cycle exit of neural progenitors that gives rise to the neurogenesis of ENK‐positive striatal neurons. J. Comp. Neurol. 518:329–351, 2010. © 2009 Wiley‐Liss, Inc.
ISSN:0021-9967
1096-9861
DOI:10.1002/cne.22215