NPRL3 loss alters neuronal morphology, mTOR localization, cortical lamination and seizure threshold

Author:

Iffland Philip H1,Everett Mariah E2,Cobb-Pitstick Katherine M3,Bowser Lauren E2,Barnes Allan E1,Babus Janice K1,Romanowski Andrea J1,Baybis Marianna1,Elziny Soad1,Puffenberger Erik G2,Gonzaga-Jauregui Claudia4,Poulopoulos Alexandros1,Carson Vincent J2,Crino Peter B1

Affiliation:

1. University of Maryland School of Medicine Departments of Neurology and Pharmacology , Baltimore, MD 21201 , USA

2. Clinic for Special Children , Strasburg, PA 17579 , USA

3. UPMC Children’s Hospital of Pittsburgh Department of Neurology , Pittsburgh, PA 15224 , USA

4. Regeneron Genetics Center, Regeneron Pharmaceuticals Inc. , Tarrytown, New York, 10591 , USA

Abstract

Abstract Mutations in nitrogen permease regulator-like 3 (NPRL3), a component of the GATOR1 complex within the mTOR pathway, are associated with epilepsy and malformations of cortical development. Little is known about the effects of NPRL3 loss on neuronal mTOR signalling and morphology, or cerebral cortical development and seizure susceptibility. We report the clinical phenotypic spectrum of a founder NPRL3 pedigree (c.349delG, p.Glu117LysFS; n = 133) among Old Order Mennonites dating to 1727. Next, as a strategy to define the role of NPRL3 in cortical development, CRISPR/Cas9 Nprl3 knockout in Neuro2a cells in vitro and in foetal mouse brain in vivo was used to assess the effects of Nprl3 knockout on mTOR activation, subcellular mTOR localization, nutrient signalling, cell morphology and aggregation, cerebral cortical cytoarchitecture and network integrity. The NPRL3 pedigree exhibited an epilepsy penetrance of 28% and heterogeneous clinical phenotypes with a range of epilepsy semiologies, i.e. focal or generalized onset, brain imaging abnormalities, i.e. polymicrogyria, focal cortical dysplasia or normal imaging, and EEG findings, e.g. focal, multi-focal or generalized spikes, focal or generalized slowing. Whole exome analysis comparing a seizure-free group (n = 37) to those with epilepsy (n = 24) to search for gene modifiers for epilepsy did not identify a unique genetic modifier that explained the variability in seizure penetrance in this cohort. Nprl3 knockout in vitro caused mTOR pathway hyperactivation, cell soma enlargement and the formation of cellular aggregates seen in time-lapse videos that were prevented with the mTOR inhibitors rapamycin or torin1. In Nprl3 knockout cells, mTOR remained localized on the lysosome in a constitutively active conformation, as evidenced by phosphorylation of ribosomal S6 and 4E-BP1 proteins, even under nutrient starvation (amino acid-free) conditions, demonstrating that Nprl3 loss decouples mTOR activation from neuronal metabolic state. To model human malformations of cortical development associated with NPRL3 variants, we created a focal Nprl3 knockout in foetal mouse cortex by in utero electroporation and found altered cortical lamination and white matter heterotopic neurons, effects which were prevented with rapamycin treatment. EEG recordings showed network hyperexcitability and reduced seizure threshold to pentylenetetrazol treatment. NPRL3 variants are linked to a highly variable clinical phenotype which we propose results from mTOR-dependent effects on cell structure, cortical development and network organization.

Funder

NIH

NINDS

Publisher

Oxford University Press (OUP)

Subject

Neurology (clinical)

Reference38 articles.

1. mTOR signaling in epilepsy: insights from malformations of cortical development;Crino;Cold Spring Harb Perspect Med,2015

2. Caveat mTOR: aberrant signaling disrupts corticogenesis;Osborne;J Clin Invest,2010

3. Focal cortical dysplasia: Gene mutations, cell signaling, and therapeutic implications;Iffland;Annu Rev Pathol,2017

4. mTOR signaling pathway genes in focal epilepsies;Baulac;Prog Brain Res,2016

5. GATOR1 complex: the common genetic actor in focal epilepsies;Baldassari;J Med Genet,2016

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