Pathogenic MTOR somatic variant causing focal cortical dysplasia drives hyperexcitability via overactivation of neuronal GluN2C N‐methyl‐D‐aspartate receptors

Author:

Pineau Louison1,Buhler Emmanuelle1,Tarhini Sarah1,Bauer Sylvian1,Crepel Valérie1,Watrin Françoise1,Cardoso Carlos1,Represa Alfonso1,Szepetowski Pierre1ORCID,Burnashev Nail1ORCID

Affiliation:

1. Institut de Neurobiologie de la Méditerranée, Institut National de la Santé et de la Recherche Médicale Aix‐Marseille University Marseille France

Abstract

AbstractObjectiveGenetic variations in proteins of the mechanistic target of rapamycin (mTOR) pathway cause a spectrum of neurodevelopmental disorders often associated with brain malformations and with intractable epilepsy. The mTORopathies are characterized by hyperactive mTOR pathway and comprise tuberous sclerosis complex (TSC) and focal cortical dysplasia (FCD) type II. How hyperactive mTOR translates into abnormal neuronal activity and hypersynchronous network remains to be better understood. Previously, the role of upregulated GluN2C‐containing glutamate‐gated N‐methyl‐D‐aspartate receptors (NMDARs) has been demonstrated for germline defects in the TSC genes. Here, we questioned whether this mechanism would expand to other mTORopathies in the different context of a somatic genetic variation of the MTOR protein recurrently found in FCD type II.MethodsWe used a rat model of FCD created by in utero electroporation of neural progenitors of dorsal telencephalon with expression vectors encoding either the wild‐type or the pathogenic MTOR variant (p.S2215F). In this mosaic configuration, patch‐clamp whole‐cell recordings of the electroporated, spiny stellate neurons and extracellular recordings of the electroporated areas were performed in neocortical slices. Selective inhibitors were used to target mTOR activity and GluN2C‐mediated currents.ResultsNeurons expressing the mutant protein displayed an excessive activation of GluN2C NMDAR‐mediated spontaneous excitatory postsynaptic currents. GluN2C‐dependent increase in spontaneous spiking activity was detected in the area of electroporated neurons in the mutant condition and was restricted to a critical time window between postnatal days P9 and P20.SignificanceSomatic MTOR pathogenic variant recurrently found in FCD type II resulted in overactivation of GluN2C‐mediated neuronal NMDARs in neocortices of rat pups. The related and time‐restricted local hyperexcitability was sensitive to subunit GluN2C‐specific blockade. Our study suggests that GluN2C‐related pathomechanisms might be shared in common by mTOR‐related brain disorders.

Publisher

Wiley

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