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Clonal analysis reveals granule cell behaviors and compartmentalization that determine the folded morphology of the cerebellum.

Authors :
Legué, Emilie
Riedel, Elyn
Joyner, Alexandra L.
Source :
Development (09501991). May2015, Vol. 142 Issue 9, p1661-1671. 11p.
Publication Year :
2015

Abstract

The mammalian cerebellum consists of folds of different sizes and shapes that house distinct neural circuits. A crucial factor underlying foliation is the generation of granule cells (gcs), the most numerous neuron type in the brain. We used clonal analysis to uncover global as well as folium size-specific cellular behaviors that underlie cerebellar morphogenesis. Unlike most neural precursors, gc precursors divide symmetrically, accounting for their massive expansion. We found that oriented cell divisions underlie an overall anteroposteriorly polarized growth of the cerebellum and gc clone geometry. Clone geometry is further refined by mediolateral oriented migration and passive dispersion of differentiating gcs. Most strikingly, the base of each fissure acts as a boundary for gc precursor dispersion, which we propose allows each folium to be regulated as a developmental unit. Indeed, the geometry and size of clones in long and short folia are distinct. Moreover, in engrailed 1/2 mutants with shorter folia, clone cell number and geometry are most similar to clones in short folia of wild-type mice. Thus, the cerebellum has a modular mode of development that allows the plane of cell division and number of divisions to be differentially regulated to ensure that the appropriate number of cells are partitioned into each folium. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09501991
Volume :
142
Issue :
9
Database :
Academic Search Index
Journal :
Development (09501991)
Publication Type :
Academic Journal
Accession number :
103308315
Full Text :
https://doi.org/10.1242/dev.120287