Further Corroboration of Distinct Functional Features in SCN2A Variants Causing Intellectual Disability or Epileptic Phenotypes

Overview

Journal Mol Med

Publisher Biomed Central

Specialties General Medicine
Molecular Biology

Date 2019 Mar 1

PMID 30813884

Citations 31

Authors

Anais Begemann

Mario A Acuna

Markus Zweier

Marie Vincent

Katharina Steindl

Ruxandra Bachmann-Gagescu

Annette Hackenberg

Lucia Abela

Barbara Plecko

Judith Kroell-Seger

Alessandra Baumer

Kazuhiro Yamakawa

Yushi Inoue

Reza Asadollahi

Heinrich Sticht

Hanns Ulrich Zeilhofer

Anita Rauch

Affiliations

Soon will be listed here.

Abstract

Background: Deleterious variants in the voltage-gated sodium channel type 2 (Na1.2) lead to a broad spectrum of phenotypes ranging from benign familial neonatal-infantile epilepsy (BFNIE), severe developmental and epileptic encephalopathy (DEE) and intellectual disability (ID) to autism spectrum disorders (ASD). Yet, the underlying mechanisms are still incompletely understood.

Methods: To further elucidate the genotype-phenotype correlation of SCN2A variants we investigated the functional effects of six variants representing the phenotypic spectrum by whole-cell patch-clamp studies in transfected HEK293T cells and in-silico structural modeling.

Results: The two variants p.L1342P and p.E1803G detected in patients with early onset epileptic encephalopathy (EE) showed profound and complex changes in channel gating, whereas the BFNIE variant p.L1563V exhibited only a small gain of channel function. The three variants identified in ID patients without seizures, p.R937C, p.L611Vfs*35 and p.W1716*, did not produce measurable currents. Homology modeling of the missense variants predicted structural impairments consistent with the electrophysiological findings.

Conclusions: Our findings support the hypothesis that complete loss-of-function variants lead to ID without seizures, small gain-of-function variants cause BFNIE and EE variants exhibit variable but profound Na1.2 gating changes. Moreover, structural modeling was able to predict the severity of the variant impact, supporting a potential role of structural modeling as a prognostic tool. Our study on the functional consequences of SCN2A variants causing the distinct phenotypes of EE, BFNIE and ID contributes to the elucidation of mechanisms underlying the broad phenotypic variability reported for SCN2A variants.

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