Supplementary Materials

Supplementary Materials for:

Inhibition of the kinase WNK1/HSN2 ameliorates neuropathic pain by restoring GABA inhibition

Kristopher T. Kahle,* Jean-François Schmouth, Valérie Lavastre, Alban Latremoliere, Jinwei Zhang, Nick Andrews, Takao Omura, Janet Laganière, Daniel Rochefort, Pascale Hince, Geneviève Castonguay, Rébecca Gaudet, Josiane C. S. Mapplebeck, Susana G. Sotocinal, JingJing Duan, Catherine Ward, Arjun R. Khanna, Jeffrey S. Mogil, Patrick A. Dion, Clifford J. Woolf, Perrine Inquimbert, Guy A. Rouleau*

*Corresponding author. E-mail: guy.rouleau{at}mcgill.ca (G.A.R.); kristopher.kahle{at}yale.edu (K.T.K.)

This PDF file includes:

  • Fig. S1. Strategy for making and validation of the Wnk1/Hsn2 knockout mice.
  • Table S1. Nerve size quantification summary of Wnk1+/+ and Wnk1ΔHsn2Hsn2 mice.
  • Table S2. PCR primers used.

[Download PDF]

Technical Details

Format: Adobe Acrobat PDF

Size: 741 KB


Citation: K. T. Kahle, J.-F. Schmouth, V. Lavastre, A. Latremoliere, J. Zhang, N. Andrews, T. Omura, J. Laganière, D. Rochefort, P. Hince, G. Castonguay, R. Gaudet, J. C. S. Mapplebeck, S. G. Sotocinal, J. Duan, C.Ward, A. R. Khanna, J. S. Mogil, P. A. Dion, C. J.Woolf, P. Inquimbert, G. A. Rouleau, Inhibition of the kinase WNK1/HSN2 ameliorates neuropathic pain by restoring GABA inhibition. Sci. Signal. 9, ra32 (2016).

© 2016 American Association for the Advancement of Science