TY - JOUR
T1 - Sox10 promotes the survival of cochlear progenitors during the establishment of the organ of Corti
AU - Breuskin, Ingrid
AU - Bodson, Morgan
AU - Thelen, Nicolas
AU - Thiry, Marc
AU - Borgs, Laurence
AU - Nguyen, Laurent
AU - Lefebvre, Philippe P.
AU - Malgrange, Brigitte
N1 - Funding Information:
This work was supported by the National Fund for Scientific Research (FNRS-Belgium), and the Fonds Leon Fredericq (Faculty of Medicine-University of Liege). We thank Prof. M. Wegner (University of Erlangen, Germany) for providing the Sox10 lacZ mouse line and Sox8 antibody and Prof. G. Moonen (University of Liege, Belgium) for helpful advice and comments. We acknowledge Prof. B. Boizet (CNRS Montpellier, France) for providing anti-Sox9 antibody, Prof. C. Birchmeier (Max Delbruck centrum, Germany) for the ErbB3 RNA probe and Prof. D. Rowitch (UCSF, CA, USA) for the Sox10 RNA probe. We also thank Prof. W.T. Pu (Harvard Medical School, Boston, MA, USA) and Prof. C.C.W. Hughes (University of California Irvine, USA) for providing ErbB3 and Jagged1 plasmids. We are also grateful to P. Ernst-Gengoux and A. Brose for their technical support and expertise. B.M. is a senior research associate of the FNRS, L.N. and I.B. are postdoctoral researchers of the FNRS.
PY - 2009/11/15
Y1 - 2009/11/15
N2 - Transcription factors of the SoxE family are critical players that underlie various embryological processes. However, little is known about their function during inner ear development. Here, we show that Sox10 is initially expressed throughout the otic vesicle epithelium and becomes later restricted to supporting cells as cell differentiation proceeds in the organ of Corti. Morphological analyses of Sox10 mutant mice reveal a significant shortening of the cochlear duct likely resulting from the progressive depletion of cochlear progenitors. While Sox10 appears dispensable for the differentiation and patterning of the inner ear prosensory progenitors, our data support a critical role for this transcription factor in the promotion of their survival. We provide genetic evidences that Sox10, in a concentration-dependant manner, could play a role in the regulation of Jagged1, a gene known to be important for inner ear prosensory development. Together, our results demonstrate that Sox10 regulates the biology of early cochlear progenitors during inner ear development, but, in contrast to neural crest-derived cells, this transcription factor is dispensable for their differentiation. Evidence also suggests that this effect occurs via the activation of the Jagged1 gene.
AB - Transcription factors of the SoxE family are critical players that underlie various embryological processes. However, little is known about their function during inner ear development. Here, we show that Sox10 is initially expressed throughout the otic vesicle epithelium and becomes later restricted to supporting cells as cell differentiation proceeds in the organ of Corti. Morphological analyses of Sox10 mutant mice reveal a significant shortening of the cochlear duct likely resulting from the progressive depletion of cochlear progenitors. While Sox10 appears dispensable for the differentiation and patterning of the inner ear prosensory progenitors, our data support a critical role for this transcription factor in the promotion of their survival. We provide genetic evidences that Sox10, in a concentration-dependant manner, could play a role in the regulation of Jagged1, a gene known to be important for inner ear prosensory development. Together, our results demonstrate that Sox10 regulates the biology of early cochlear progenitors during inner ear development, but, in contrast to neural crest-derived cells, this transcription factor is dispensable for their differentiation. Evidence also suggests that this effect occurs via the activation of the Jagged1 gene.
KW - Development
KW - Inner ear
KW - Prosensory cells
KW - SoxE genes
KW - Transcription factor
UR - http://www.scopus.com/inward/record.url?scp=70350247357&partnerID=8YFLogxK
U2 - 10.1016/j.ydbio.2009.09.007
DO - 10.1016/j.ydbio.2009.09.007
M3 - Article
C2 - 19748502
AN - SCOPUS:70350247357
SN - 0012-1606
VL - 335
SP - 327
EP - 339
JO - Developmental Biology
JF - Developmental Biology
IS - 2
ER -