Enteric neural crest cells regulate vertebrate stomach patterning and differentiation

0 avis

Enteric neural crest cells regulate vertebrate stomach patterning and differentiation

Archive ouverte

Faure, Sandrine | Mckey, J. | Sagnol, S. | de Santa Barbara, Pascal

Edité par CCSD ; Company of Biologists -

International audience. In vertebrates, the digestive tract develops from a uniform structure where reciprocal epithelial-mesenchymal interactions pattern this complex organ into regions with specific morphologies and functions. Concomitant with these early patterning events, the primitive GI tract is colonized by the vagal enteric neural crest cells (vENCCs), a population of cells that will give rise to the enteric nervous system (ENS), the intrinsic innervation of the GI tract. The influence of vENCCs on early patterning and differentiation of the GI tract has never been evaluated. In this study, we report that a crucial number of vENCCs is required for proper chick stomach development, patterning and differentiation. We show that reducing the number of vENCCs by performing vENCC ablations induces sustained activation of the BMP and Notch pathways in the stomach mesenchyme and impairs smooth muscle development.

Langue: en

Consulter en ligne

Consulter le document

Suggestions

Du même auteur

Expression pattern of the homeotic gene Bapx1 during early chick gastrointestinal tract development

Archive ouverte | Faure, Sandrine | CCSD

International audience. Regulation of the Bone Morphogenetic Protein (BMP) signaling pathway is essential for the normal development of vertebrate gastrointestinal (GI) tract, but also for the differentiation of the...

LIX1-mediated changes in mitochondrial metabolism control the fate of digestive mesenchyme-derived cells

Archive ouverte | Guérin, Amandine | CCSD

International audience. YAP1 and TAZ are transcriptional co-activator proteins that play fundamental roles in many biological processes, from cell proliferation and cell lineage fate determination to tumorigenesis. ...

Shifting into high gear: how Interstitial Cells of Cajal change the motility pattern of the developing intestine

Archive ouverte | Chevalier, Nicolas Rémy | CCSD

International audience. The first contractile waves in the developing embryonic gut are purely myogenic; they only involve smooth muscle. Here, we provide evidence for a transition from smooth muscle to interstitial...

Chargement des enrichissements...