Abstract EN:

Motor neurons acquire a precise identity according to their position along the anteroposterior (AP) and dorsoventral (DV) axis of the neural tube. In a first study I analysed the transcriptional regulation of the homeodain transcription factor Phox2b, a determinant of branchiomotor neuron identity. We showed that Hoxb1 and Hoxb2 can directly regulate the expression of Phox2b, via a consensus binding site for Hox proteins and their known cofactors embedded in a highly conserved Phox2b enhancer region, and that such regulation requires a de-repression mechanism mediated by the Nkx2. 2 homeodomain factor to allow Hox dependent activation of Phox2b. In a following study I focused on the implication of Hox factors during neuronal migration. Through the analysis of Hox paralogue group (PG) 2 mutant mice, I showed that Hoxa2 and Hoxb2 are required to maintain a normal migration behaviour of pontine neurons through the regulation of the Robo/Slit (receptor/ligand) signalling pathway.