The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not been elucidated. Peripheral glial cells differentiate from pluripotent neural crest cells. We show here that the transcription factor Sox10 is a key regulator in differentiation of peripheral glial cells. In mice that carry a spontaneous or a targeted mutation of Sox10, neuronal cells form in dorsal root ganglia, but Schwann cells or satellite cells are not generated. At later developmental stages, this lack of peripheral glial cells results in a severe degeneration of sensory and motor neurons. Moreover, we show that Sox10 controls expression of ErbB3 in neural crest cells. ErbB3 encodes a Neuregulin receptor, and down-regulation of ErbB3 acco...
International audienceThe mechanism that causes neural stem cells in the central nervous system to s...
The cochleo-vestibular ganglion contains neural crest-derived glial cells and sensory neurons that a...
AbstractSOX10, a new member of the SOX gene family, is a transcription factor defective in the Dom (...
The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not be...
Sox10 is a high-mobility-group transcriptional regulator in early neural crest. Without Sox10, no gl...
Mutations in the transcription factor SOX10 cause neurocristopathies, including Waardenburg-Hirschsp...
AbstractThe SOX10 transcription factor is a characteristic marker for migratory multipotent neural c...
AbstractThe Sox family of transcription factors has been implicated in the development of different ...
Hirschsprung disease (HSCR, MIM ♯142623) is a multigenic neuocristopathy (neural crest disorder) cha...
The Sox10 transcription factor is a central regulator of vertebrate neural crest and nervous system ...
Abstract Animal studies have indicated that SOX10 is one of the key transcription factors regulating...
The neural crest is a transient migratory population of stem cells derived from the dorsal neural fo...
The development of functional peripheral ganglia requires a balance of specification of both neurona...
The development of functional peripheral ganglia requires a balance of specification of both neurona...
The mechanisms that establish and maintain the multipotency of stem cells are poorly understood. In ...
International audienceThe mechanism that causes neural stem cells in the central nervous system to s...
The cochleo-vestibular ganglion contains neural crest-derived glial cells and sensory neurons that a...
AbstractSOX10, a new member of the SOX gene family, is a transcription factor defective in the Dom (...
The molecular mechanisms that determine glial cell fate in the vertebrate nervous system have not be...
Sox10 is a high-mobility-group transcriptional regulator in early neural crest. Without Sox10, no gl...
Mutations in the transcription factor SOX10 cause neurocristopathies, including Waardenburg-Hirschsp...
AbstractThe SOX10 transcription factor is a characteristic marker for migratory multipotent neural c...
AbstractThe Sox family of transcription factors has been implicated in the development of different ...
Hirschsprung disease (HSCR, MIM ♯142623) is a multigenic neuocristopathy (neural crest disorder) cha...
The Sox10 transcription factor is a central regulator of vertebrate neural crest and nervous system ...
Abstract Animal studies have indicated that SOX10 is one of the key transcription factors regulating...
The neural crest is a transient migratory population of stem cells derived from the dorsal neural fo...
The development of functional peripheral ganglia requires a balance of specification of both neurona...
The development of functional peripheral ganglia requires a balance of specification of both neurona...
The mechanisms that establish and maintain the multipotency of stem cells are poorly understood. In ...
International audienceThe mechanism that causes neural stem cells in the central nervous system to s...
The cochleo-vestibular ganglion contains neural crest-derived glial cells and sensory neurons that a...
AbstractSOX10, a new member of the SOX gene family, is a transcription factor defective in the Dom (...