Notch controls embryonic Schwann cell differentiation, postnatal myelination and adult plasticity.

Ashwin Woodhoo, Maria B.Duran Alonso, Anna Droggiti, Mark Turmaine, Maurizio D'Antonio, David B. Parkinson, Daniel K. Wilton, Raya Al-Shawi, Paul Simons, Jie Shen, Francois Guillemot, Freddy Radtke, Dies Meijer, M. Laura Feltri, Lawrence Wrabetz, Rhona Mirsky, Kristján R. Jessen

Research output: Contribution to journalArticlepeer-review

Abstract

Notch signaling is central to vertebrate development, and analysis of Notch has provided important insights into pathogenetic mechanisms in the CNS and many other tissues. However, surprisingly little is known about the role of Notch in the development and pathology of Schwann cells and peripheral nerves. Using transgenic mice and cell cultures, we found that Notch has complex and extensive regulatory functions in Schwann cells. Notch promoted the generation of Schwann cells from Schwann cell precursors and regulated the size of the Schwann cell pool by controlling proliferation. Notch inhibited myelination, establishing that myelination is subject to negative transcriptional regulation that opposes forward drives such as Krox20. Notably, in the adult, Notch dysregulation resulted in demyelination; this finding identifies a signaling pathway that induces myelin breakdown in vivo. These findings are relevant for understanding the molecular mechanisms that control Schwann cell plasticity and underlie nerve pathology, including demyelinating neuropathies and tumorigenesis.
Original languageEnglish
Pages (from-to)839-847
Number of pages0
JournalNat Neurosci
Volume12
Issue number7
DOIs
Publication statusPublished - Jul 2009

Keywords

  • Animals
  • Cell Differentiation
  • Cell Proliferation
  • Cells
  • Cultured
  • Coculture Techniques
  • Demyelinating Diseases
  • Early Growth Response Protein 2
  • Glycoproteins
  • Immunoglobulin J Recombination Signal Sequence-Binding Protein
  • Mice
  • Transgenic
  • Myelin Sheath
  • Nerve Tissue Proteins
  • Neural Crest
  • Neuregulin-1
  • Peripheral Nerve Injuries
  • Peripheral Nerves
  • Rats
  • Receptor
  • ErbB-2
  • Receptors
  • Notch
  • Schwann Cells
  • Signal Transduction
  • Time Factors

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