TY - JOUR
T1 - Glial but not neuronal development in the cochleo-vestibular ganglion requires Sox10
AU - Breuskin, Ingrid
AU - Bodson, Morgan
AU - Thelen, Nicolas
AU - Thiry, Marc
AU - Borgs, Laurence
AU - Nguyen, Laurent
AU - Stolt, Claus
AU - Wegner, Michael
AU - Lefebvre, Philippe P.
AU - Malgrange, Brigitte
PY - 2010/1/1
Y1 - 2010/1/1
N2 - The cochleo-vestibular ganglion contains neural crest-derived glial cells and sensory neurons that are derived from the neurogenic otic placode. Little is known about the molecular mechanisms that regulate the tightly orchestrated development of this structure. Here, we report that Sox10, a high-mobility group DNA-binding domain transcription factor that is required for the proper development of neural crest cell derivatives, is specifically expressed in post-migratory neural crest cells in the cochleo-vestibular ganglion. Using Sox10-deficient mice, we demonstrate that this transcription factor is essential for the survival, but not the generation, of the post-migratory neural crest cells within the inner ear. In the absence of these neural crest-derived cells, we have investigated the survival of the otocyst-derived auditory neurons. Surprisingly, auditory neuron differentiation, sensory target innervation and survival are conserved despite the absence of glial cells. Moreover, brain-derived neurotrophic factor expression is increased in the hair cells of Sox10-deficient mice, a compensatory mechanism that may prevent spiral ganglion neuronal cell death. Taken together, these data suggest that in the absence of neural crest-derived glial cells, an increase trophic support from hair cells promotes the survival of spiral ganglion neurons in Sox10 mutant mice.
AB - The cochleo-vestibular ganglion contains neural crest-derived glial cells and sensory neurons that are derived from the neurogenic otic placode. Little is known about the molecular mechanisms that regulate the tightly orchestrated development of this structure. Here, we report that Sox10, a high-mobility group DNA-binding domain transcription factor that is required for the proper development of neural crest cell derivatives, is specifically expressed in post-migratory neural crest cells in the cochleo-vestibular ganglion. Using Sox10-deficient mice, we demonstrate that this transcription factor is essential for the survival, but not the generation, of the post-migratory neural crest cells within the inner ear. In the absence of these neural crest-derived cells, we have investigated the survival of the otocyst-derived auditory neurons. Surprisingly, auditory neuron differentiation, sensory target innervation and survival are conserved despite the absence of glial cells. Moreover, brain-derived neurotrophic factor expression is increased in the hair cells of Sox10-deficient mice, a compensatory mechanism that may prevent spiral ganglion neuronal cell death. Taken together, these data suggest that in the absence of neural crest-derived glial cells, an increase trophic support from hair cells promotes the survival of spiral ganglion neurons in Sox10 mutant mice.
KW - Sox genes
KW - auditory neurons
KW - development
KW - glial cells
KW - inner ear
KW - neural crest cells
UR - http://www.scopus.com/inward/record.url?scp=77956329426&partnerID=8YFLogxK
U2 - 10.1111/j.1471-4159.2010.06897.x
DO - 10.1111/j.1471-4159.2010.06897.x
M3 - Article
C2 - 20626560
AN - SCOPUS:77956329426
SN - 0022-3042
VL - 114
SP - 1827
EP - 1839
JO - Journal of Neurochemistry
JF - Journal of Neurochemistry
IS - 6
ER -