Inhibitory neurosteroid reverses the dendritic spine disorder caused by gain-of-function GABAAR epilepsy variants

Abstract

AbstractGABAA receptors (GABAARs) are key orchestrators of neuronal activity and several GABAAR variants have been linked to genetic neurodevelopmental disorders (NDDs) and epilepsies. Here, we report two variants (Met263Lys, Leu267Ile) in the predominant GABAAR α1 subunit gene (GABRA1) that increase apparent receptor affinity for GABA and confer spontaneous receptor activity. These gain-of-function features are unusual because GABAAR variants are traditionally thought to cause seizures by reducing inhibitory neurotransmission. Both Met263Lys and Leu267Ile increased tonic and spontaneous GABAergic conductances in neurons revealed by competitive inhibition and channel block of GABAARs. Significantly, α1-subunit variant expression in hippocampal neurons also reduced dendritic spine density. Our results indicate that elevated GABAergic signalling can precipitate genetic epilepsies and NDDs. Furthermore, the mechanistic basis may involve the de-compartmentalisation of excitatory inputs due to the removal of dendritic spines. This aberrant structural plasticity can be reversed by the naturally-occurring, therapeutically-tractable, inhibitory neurosteroid, pregnenolone sulphate.