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Human Molecular Genetics Advance Access published online on June 19, 2008
Human Molecular Genetics, doi:10.1093/hmg/ddn172
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© The Author 2008. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org

HMSN/ACC truncation mutations disrupt brain-type creatine kinase-dependant activation of K+/Cl cotransporter 3

Adèle Salin-Cantegrel1, Masoud Shekarabi1, Sébastien Holbert1, Patrick Dion1, Daniel Rochefort1, Janet Laganière1, Sandra Dacal2, Pascale Hince1, Liliane Karemera1, Claudia Gaspar1, Jean-Yves Lapointe2 and Guy A. Rouleau1,*

1 Centre of Excellence in Neuromics, CHUM Research Centre - Notre-Dame Hospital and University of Montreal, Montreal, H2L 4M1, Canada 2 Department of physics - University of Montreal, Montreal, H3C 3J7, Canada

* corresponding author Centre of Excellence in Neuromics, CHUM Research Centre - Notre-Dame Hospital and University of Montreal, Montreal, H2L 4M1, Canada. Fax: (514) 412-7602 Phone: (514) 890-8000 ext. 24699 e-mail: guy.rouleau{at}umontreal.ca

Received March 3, 2008; Revised May 7, 2008; Accepted June 10, 2008

The potassium-chloride cotransporter 3 (KCC3) is mutated in hereditary motor and sensory neuropathy with agenesis of the corpus callosum (HMSN/ACC); however, the molecular mechanisms of HMSN/ACC pathogenesis and the exact role of KCC3 in the development of the nervous system remain poorly understood. The functional regulation of this transporter by protein partners is also largely unknown. Using a yeast two-hybrid approach, we discovered that the C-terminal domain (CTD) of KCC3, which is lost in most HMSN/ACC-causing mutations, directly interacts with brain-specific creatine kinase (CK-B), an ATP-generating enzyme which is also a partner of KCC2. The interaction of KCC3 with CK-B was further confirmed by an in vitro glutathione S-transferase pull-down assay, followed by the sequencing of the pulled-down complexes. In transfected cultured cells, immunofluorescence labeling showed that CK-B colocalizes with wild-type KCC3, whereas the kinase fails to interact with the inactive truncated KCC3. Finally, CK-B's inhibition by DNFB results in reduction of activity of KCC3 in functional assays using Xenopus laevis oocytes. This physical and functional association between the cotransporter and CK-B is therefore the first protein-protein interaction identified to be potentially involved in the pathophysiology of HMSN/ACC.


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