BK channel properties correlate with neurobehavioral severity in three KCNMA1-linked channelopathy mouse models

Author:

Park Su Mi,Roache Cooper E.ORCID,Iffland Philip H.ORCID,Moldenhauer Hans J.ORCID,Matychak Katia K.ORCID,Plante Amber E.ORCID,Lieberman Abby G.,Crino Peter B.ORCID,Meredith Andrea L.ORCID

Abstract

ABSTRACTKCNMA1 forms the pore of BK K+ channels, which regulate neuronal and muscle excitability. Recently, genetic screening identified heterozygous KCNMA1 variants in a subset of patients with debilitating paroxysmal non-kinesigenic dyskinesia, presenting with or without epilepsy (PNKD3). However, the relevance of KCNMA1 mutations and the basis for clinical heterogeneity in PNKD3 has not been established. Here we evaluate the relative severity of three KCNMA1 patient variants in BK channels, neurons, and mice. In heterologous cells, BKN999S and BKD434G channels displayed gain-of-function (GOF) properties, whereas BKH444Q channels showed loss-of-function (LOF) properties. The relative degree of channel activity was BKN999S > BKD434G > WT > BKH444Q. BK currents and action potential firing were increased, and seizure thresholds decreased, in Kcnma1N999S/WT and Kcnma1D434G/WT transgenic mice but not Kcnma1H444Q/WT mice. In a novel behavioral test for paroxysmal dyskinesia, the more severely affected Kcnma1N999S/WT mice became immobile after stress, consistent with stress-induced immobility episodes observed in PNKD3-affected individuals. Homozygous Kcnma1D434G/D434G mice showed similar immobility, but in contrast, homozygous Kcnma1H444Q/H444Q mice displayed hyperkinetic behavior. These data establish the relative pathogenic potential of patient alleles as N999S > D434G > H444Q and validate Kcnma1N999S/WT mice as a model for PNKD3 with increased seizure propensity.

Publisher

Cold Spring Harbor Laboratory

Cited by 1 articles. 订阅此论文施引文献 订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献

1. Neuronal mechanism of a BK channelopathy in absence epilepsy and dyskinesia;Proceedings of the National Academy of Sciences;2022-03-14

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