PLoS Biology (Jan 2015)

HDAC1/2-Dependent P0 Expression Maintains Paranodal and Nodal Integrity Independently of Myelin Stability through Interactions with Neurofascins.

  • Valérie Brügger,
  • Stefanie Engler,
  • Jorge A Pereira,
  • Sophie Ruff,
  • Michael Horn,
  • Hans Welzl,
  • Emmanuelle Münger,
  • Adrien Vaquié,
  • Páris N M Sidiropoulos,
  • Boris Egger,
  • Peter Yotovski,
  • Luis Filgueira,
  • Christian Somandin,
  • Tessa C Lühmann,
  • Maurizio D'Antonio,
  • Teppei Yamaguchi,
  • Patrick Matthias,
  • Ueli Suter,
  • Claire Jacob

DOI
https://doi.org/10.1371/journal.pbio.1002258
Journal volume & issue
Vol. 13, no. 9
p. e1002258

Abstract

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The pathogenesis of peripheral neuropathies in adults is linked to maintenance mechanisms that are not well understood. Here, we elucidate a novel critical maintenance mechanism for Schwann cell (SC)-axon interaction. Using mouse genetics, ablation of the transcriptional regulators histone deacetylases 1 and 2 (HDAC1/2) in adult SCs severely affected paranodal and nodal integrity and led to demyelination/remyelination. Expression levels of the HDAC1/2 target gene myelin protein zero (P0) were reduced by half, accompanied by altered localization and stability of neurofascin (NFasc)155, NFasc186, and loss of Caspr and septate-like junctions. We identify P0 as a novel binding partner of NFasc155 and NFasc186, both in vivo and by in vitro adhesion assay. Furthermore, we demonstrate that HDAC1/2-dependent P0 expression is crucial for the maintenance of paranodal/nodal integrity and axonal function through interaction of P0 with neurofascins. In addition, we show that the latter mechanism is impaired by some P0 mutations that lead to late onset Charcot-Marie-Tooth disease.