Reference : p27Kip1 independently promotes neuronal differentiation and migration in the cerebral...
Scientific journals : Article
Life sciences : Biochemistry, biophysics & molecular biology
Life sciences : Anatomy (cytology, histology, embryology...) & physiology
p27Kip1 independently promotes neuronal differentiation and migration in the cerebral cortex.
[en] p27Kip1 independently promotes neuronal differentiation and migration in the cerebral cortex
Nguyen, Laurent mailto [Université de Liège - ULiège > Département des sciences cliniques > Neurologie >]
Besson, A. [> > > >]
Heng, J Ik-Tsen [> > > >]
Schuurmans, C. [> > > >]
Teboul, L. [> > > >]
Parras, C. [> > > >]
Philpott, A. [> > > >]
Roberts, J. M. [> > > >]
Guillemot, F. [> > > >]
Bulletin et Mémoires de l'Académie Royale de Médecine de Belgique
Académie Royale de Médecine de Belgique
[en] Animal Experimentation ; Animals ; Basic Helix-Loop-Helix Transcription Factors/physiology ; Cell Cycle ; Cell Differentiation/physiology ; Cell Movement/physiology ; Cerebral Cortex/cytology/growth & development ; Cyclin-Dependent Kinase Inhibitor p27/physiology ; Gene Targeting ; Mice ; Nerve Tissue Proteins/physiology ; Neurons/cytology ; RNA Interference
[en] The generation of glutamatergic neurons by stem and progenitor cells is a complex process involving the tight coordination of multiple cellular activities, including cell cycle exit, initiation of neuronal differentiation and cell migration. The mechanisms that integrate these different events into a coherent program are not well understood. Here we show that the cyclin-dependent kinase inhibitor p27Kip1 plays an important role in neurogenesis in the mouse cerebral cortex, by promoting the differentiation and radial migration of cortical projection neurons. Importantly, p27Kip1 promotes neuronal differentiation and neuronal migration via two distinct mechanisms, which are themselves independent of the cell cycle regulatory function of p27Kip1. p27Kip1 inactivation by gene targeting or RNA interference results in neuronal differentiation and radial migration defects, demonstrating that p27Kip1 regulates cell migration in vivo. The differentiation defect, but not the migration defect, is rescued by overexpression of the proneural gene Neurogenin 2. p27Kip1 acts by stabilizing Neurogenin 2 protein, an activity carried by the N-terminal half of the protein. The migration defect resulting from p27Kp1 inactivation is rescued by blocking RhoA signalling, an activity that resides in the c-terminal half of p27Kip1. Thus, p27Kip1 plays a key role in cortical development, acting as a modular protein that independently regulates and couples multiple cellular pathways contributing to neurogenesis.
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