TY - JOUR
T1 - P53 coordinates cranial neural crest cell growth and epithelial-mesenchymal transition/delamination processes
AU - Rinon, Ariel
AU - Molchadsky, Alina
AU - Nathan, Elisha
AU - Yovel, Gili
AU - Rotter, Varda
AU - Sarig, Rachel
AU - Tzahor, Eldad
N1 - Helen and Martin Kimmel Institute for Stem Cell Research; Minerva Foundation; Association Francaise Contre les Myopathies; Israel Science Foundation; German-Israel Foundation (GIF); United States-Israel Binational Science FoundationWe thank Ayelet Jerafi for technical help and Prof. Lozano (MD Anderson Cancer Center, University of Texas) for insightful discussions and sharing data. E. T. is the incumbent of the Gertrude and Philip Nollman Career Development Chair. This work was supported by research grants to E. T. from the Helen and Martin Kimmel Institute for Stem Cell Research, the Minerva Foundation, the Association Francaise Contre les Myopathies, the Israel Science Foundation, the German-Israel Foundation (GIF) and the United States-Israel Binational Science Foundation.
PY - 2011/5
Y1 - 2011/5
N2 - Neural crest development involves epithelial-mesenchymal transition (EMT), during which epithelial cells are converted into individual migratory cells. Notably, the same signaling pathways regulate EMT function during both development and tumor metastasis. p53 plays multiple roles in the prevention of tumor development; however, its precise roles during embryogenesis are less clear. We have investigated the role of p53 in early cranial neural crest (CNC) development in chick and mouse embryos. In the mouse, p53 knockout embryos displayed broad craniofacial defects in skeletal, neuronal and muscle tissues. In the chick, p53 is expressed in CNC progenitors and its expression decreases with their delamination from the neural tube. Stabilization of p53 protein using a pharmacological inhibitor of its negative regulator, MDM2, resulted in reduced SNAIL2 (SLUG) and ETS1 expression, fewer migrating CNC cells and in craniofacial defects. By contrast, electroporation of a dominant-negative p53 construct increased PAX7+ SOX9+ CNC progenitors and EMT/delamination of CNC from the neural tube, although the migration of these cells to the periphery was impaired. Investigating the underlying molecular mechanisms revealed that p53 coordinates CNC cell growth and EMT/delamination processes by affecting cell cycle gene expression and proliferation at discrete developmental stages; disruption of these processes can lead to craniofacial defects.
AB - Neural crest development involves epithelial-mesenchymal transition (EMT), during which epithelial cells are converted into individual migratory cells. Notably, the same signaling pathways regulate EMT function during both development and tumor metastasis. p53 plays multiple roles in the prevention of tumor development; however, its precise roles during embryogenesis are less clear. We have investigated the role of p53 in early cranial neural crest (CNC) development in chick and mouse embryos. In the mouse, p53 knockout embryos displayed broad craniofacial defects in skeletal, neuronal and muscle tissues. In the chick, p53 is expressed in CNC progenitors and its expression decreases with their delamination from the neural tube. Stabilization of p53 protein using a pharmacological inhibitor of its negative regulator, MDM2, resulted in reduced SNAIL2 (SLUG) and ETS1 expression, fewer migrating CNC cells and in craniofacial defects. By contrast, electroporation of a dominant-negative p53 construct increased PAX7+ SOX9+ CNC progenitors and EMT/delamination of CNC from the neural tube, although the migration of these cells to the periphery was impaired. Investigating the underlying molecular mechanisms revealed that p53 coordinates CNC cell growth and EMT/delamination processes by affecting cell cycle gene expression and proliferation at discrete developmental stages; disruption of these processes can lead to craniofacial defects.
UR - http://www.scopus.com/inward/record.url?scp=79955428953&partnerID=8YFLogxK
U2 - https://doi.org/10.1242/dev.053645
DO - https://doi.org/10.1242/dev.053645
M3 - مقالة
SN - 0950-1991
VL - 138
SP - 1827
EP - 1838
JO - Development
JF - Development
IS - 9
ER -