PLoS ONE (Jan 2014)

CaMKK-CaMK1a, a new post-traumatic signalling pathway induced in mouse somatosensory neurons.

  • Lucie Elzière,
  • Chamroeun Sar,
  • Stéphanie Ventéo,
  • Steeve Bourane,
  • Sylvie Puech,
  • Corinne Sonrier,
  • Hassan Boukhadaoui,
  • Agnès Fichard,
  • Alexandre Pattyn,
  • Jean Valmier,
  • Patrick Carroll,
  • Ilana Méchaly

DOI
https://doi.org/10.1371/journal.pone.0097736
Journal volume & issue
Vol. 9, no. 5
p. e97736

Abstract

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Neurons innervating peripheral tissues display complex responses to peripheral nerve injury. These include the activation and suppression of a variety of signalling pathways that together influence regenerative growth and result in more or less successful functional recovery. However, these responses can be offset by pathological consequences including neuropathic pain. Calcium signalling plays a major role in the different steps occurring after nerve damage. As part of our studies to unravel the roles of injury-induced molecular changes in dorsal root ganglia (DRG) neurons during their regeneration, we show that the calcium calmodulin kinase CaMK1a is markedly induced in mouse DRG neurons in several models of mechanical peripheral nerve injury, but not by inflammation. Intrathecal injection of NRTN or GDNF significantly prevents the post-traumatic induction of CaMK1a suggesting that interruption of target derived factors might be a starter signal in this de novo induction. Inhibition of CaMK signalling in injured DRG neurons by pharmacological means or treatment with CaMK1a siRNA resulted in decreased velocity of neurite growth in vitro. Altogether, the results suggest that CaMK1a induction is part of the intrinsic regenerative response of DRG neurons to peripheral nerve injury, and is thus a potential target for therapeutic intervention to improve peripheral nerve regeneration.