Abstract
First-in-line benzodiazepine treatment fails to terminate seizures in about 30% of epilepsy patients, highlighting a need for novel anti-seizure strategies. It is emerging that impaired K+/Cl- cotransporter 2 (KCC2) activity leads to deficits in GABAergic inhibition and increased seizure vulnerability in patients. In neurons, the with-no-lysine (WNK) kinase-STE20/SPS1-related proline/alanine-rich (SPAK) kinase signalling pathway inhibits KCC2 activity via T1007 phosphorylation. Here, we exploit the selective WNK kinase inhibitor WNK463 to test the effects of pharmacological WNK inhibition on KCC2 function, GABAergic inhibition, and epileptiform activity. Immunoprecipitation and western blotting analysis revealed that WNK463 reduces KCC2-T1007 phosphorylation in vitro and in vivo. Using patch-clamp recordings in primary rat neurons, we further observed that WNK463 hyperpolarized the Cl- reversal potential, and enhanced KCC2-mediated Cl- extrusion. In the 4-aminopyridine slice model of acute seizures, WNK463 administration reduced the frequency and number of seizure-like events. In vivo, C57BL/6 mice that received intrahippocampal WNK463 experienced delayed onset of kainic acid-induced status epilepticus, less epileptiform EEG activity, and did not develop pharmaco-resistance to diazepam. Our findings demonstrate that acute WNK463 treatment potentiates KCC2 activity in neurons and limits seizure burden in two well-established models of seizures and epilepsy. In summary, our work suggests that agents which act to increase KCC2 activity may be useful adjunct therapeutics to alleviate diazepam-resistant status epilepticus.
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