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The KCC2 cotransporter establishes the low neuronal Cl(-) levels required for GABAA and glycine (Gly) receptor-mediated inhibition, and KCC2 deficiency in model organisms results in network hyperexcitability. However, no mutations in KCC2 have been documented in human disease. Here, we report two non-synonymous functional variants in human KCC2, R952H and R1049C, exhibiting clear statistical association with idiopathic generalized epilepsy (IGE). These variants reside in conserved residues in the KCC2 cytoplasmic C-terminus, exhibit significantly impaired Cl(-)-extrusion capacities resulting in less hyperpolarized Gly equilibrium potentials (EG ly), and impair KCC2 stimulatory phosphorylation at serine 940, a key regulatory site. These data describe a novel KCC2 variant significantly associated with a human disease and suggest genetically encoded impairment of KCC2 functional regulation may be a risk factor for the development of human IGE.

Original publication

DOI

10.15252/embr.201438840

Type

Journal article

Journal

EMBO reports

Publication Date

07/2014

Volume

15

Pages

766 - 774

Addresses

Department of Cardiology, Manton Center for Orphan Disease Research, Howard Hughes Medical Institute Boston Children's Hospital, Boston, MA, USA Department of Neurosurgery, Massachusetts General Hospital, Boston, MA, USA.

Keywords

Hippocampus, Pyramidal Cells, Cell Line, Animals, Humans, Rats, Epilepsy, Generalized, Chlorides, Symporters, Case-Control Studies, Protein Conformation, Phosphorylation, Action Potentials, Gene Frequency, Mutation, Alleles, Models, Molecular, Quebec, Protein Interaction Domains and Motifs, Genetic Variation, K Cl- Cotransporters