Neuronal network dysfunction in a model for Kleefstra syndrome mediated by enhanced NMDAR signaling

Frega, Monica; Linda, Katrin; Keller, Jason M.; Gümüş-Akay, Güvem; Mossink, Britt; Rhijn, Jon Ruben Van; Negwer, Moritz; Gunnewiek, Teun Klein; Foreman, Katharina; Kompier, Nine; Schoenmaker, Chantal; Akker, Willem van den; Werf, Ilse van der; Oudakker, Astrid R.; Zhou, Huiqing; Kleefstra, Tjitske; Schubert, Dirk W.; Bokhoven, Hans van; Kasri, Nael Nadif

doi:10.1038/s41467-019-12947-3

Cited by 121 publications

(190 citation statements)

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“…These differences are similar to changes in network bursts observed following the administration of chemoconvulsants such as bicuculline, pentylentetrazole, and 4aminopyridine (Odawara et al, 2016). A recent publication investigating Kleefstra syndrome using iNeurons on MEAs identified disease specific alterations using similar outcomes measures, including burst duration, % of spikes out of bursts, and inter-burst-interval coefficient of variation (Frega et al, 2019). Importantly, EIEE13 patient cultures demonstrated "burst of bursts" events with high-frequency network bursting that did not occur in controls.…”

Section: Discussionsupporting

confidence: 58%

Variant-specific changes in persistent or resurgent Na⁺current inSCN8A-EIEE13 iPSC-derived neurons

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Yuan

et al. 2020

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Missense variants in the voltage-gated sodium channel (VGSC) gene, SCN8A, are linked to earlyinfantile epileptic encephalopathy type 13 (EIEE13). EIEE13 patients exhibit a wide spectrum of intractable seizure types, severe developmental delay, movement disorders, and elevated risk of sudden unexpected death in epilepsy (SUDEP). The mechanisms by which SCN8A variants lead to epilepsy are poorly understood, although heterologous expression systems and mouse models have demonstrated altered sodium current (INa) properties. To investigate these mechanisms using a patient-specific model system, we generated induced pluripotent stem cells (iPSCs) from three patients with missense variants in SCN8A: p.R1872>L (P1); p.V1592>L (P2); and p.N1759>S (P3). Using small molecule differentiation into excitatory neurons, iPSC-derived neurons from all three patients displayed altered INa. P1 and P2 had elevated persistent INa, while P3 had increased resurgent INa compared to controls. Further analyses focused on one of the patients with increased persistent INa (P1) and the patient with increased resurgent INa (P3). Excitatory cortical neurons from both patients had prolonged action potential (AP) repolarization and shorter axon initial segment lengths compared to controls, the latter analyzed by immunostaining for ankyrin-G. Using doxycycline-inducible expression of the neuronal transcription factors Neurogenin 1 and 2 to synchronize differentiation of induced excitatory cortical-like neurons (iNeurons), we investigated network activity and response to pharmacotherapies. Both patient neurons and iNeurons displayed similar abnormalities in AP repolarization. Patient iNeurons showed increased burstiness that was sensitive to phenytoin, currently a standard treatment for EIEE patients, or riluzole, an FDAapproved drug used in amyotrophic lateral sclerosis and known to block persistent and resurgentINa, at pharmacologically relevant concentrations. Patch-clamp recordings showed that riluzole suppressed spontaneous firing and increased the AP firing threshold of patient-derived neurons to more depolarized potentials. Our results indicate that patient-specific neurons are useful for modeling EIEE13 and demonstrate SCN8A variant-specific mechanisms. Moreover, these findings suggest that patient-specific iPSC neuronal disease modeling offers a useful platform for discovering precision epilepsy therapies. Table 1. Patient information. Information for patients and controls from which the iPSC lines were derived are presented including, age at biopsy, sex, SCN8A de novo variant, seizure type, medications, and other findings.

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Section: Discussionsupporting

confidence: 58%

Variant-specific changes in persistent or resurgent Na⁺current inSCN8A-EIEE13 iPSC-derived neurons

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Yuan

et al. 2020

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“…All recordings were performed using the 24-well MEA system (Multichannel Systems, MCS GmbH, Reutlingen, Germany) as described before 75,77 . Spontaneous electrophysiological activity of E/I networks was recorded for 10 min at 37°C and constant flow of humidified gas (5% CO2 and 95% O2).…”

Section: Micro-electrode Array Recordings and Data Analysismentioning

confidence: 99%

“…All Oct4, Sox2, Klf4, and cMyc. Generated clones (at least two per patient line) were selected and tested for pluripotency and genomic integrity based on single nucleotide polymorphism (SNP) arrays 75 . HiPSCs were cultured on Matrigel (Corning, #356237) in E8 flex (Thermo Fisher Scientific) supplemented with primocin (0.1 µg/ml, Invivogen) and low puromycin (0.5 µg/ml, to select for rtTA positive cells) and G418 concentrations (50 µg/ml, to select for Ngn2 or Ascl1 positive cells) at 37˚C/5% CO2.…”

Section: Cell Line Information and Hipsc Generationmentioning

confidence: 99%

“…The rodent astrocytes presented in this study were harvested embryonic (E18) rat brains (Wistar Wu) as previously described 75,77,86 . All experiments on animals were carried out in accordance with the approved animal care and use guidelines of the Animal Care Committee, Radboud University Medical Centre, the Netherlands, (RU-DEC-2011-021, protocol number: 77073).…”

Section: Animalsmentioning

confidence: 99%

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Cadherin-13 is a critical regulator of GABAergic modulation in human stem cell derived neuronal networks

Mossink

Rhijn

Wang

et al. 2020

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Activity in the healthy brain relies on concerted interplay of excitation (E) and inhibition (I) via balanced synaptic communication between glutamatergic and GABAergic neurons. A growing number of studies imply that disruption of this E/I balance is a commonality in many brain disorders, however, obtaining mechanistic insight into these disruptions, with translational value for the human patient, has typically been hampered by methodological limitations.Cadherin-13 (CDH13) has strongly been associated to attention-deficit/hyperactivity disorder and comorbid disorders such as autism and schizophrenia. CDH13 localises at inhibitory presynapses, specifically of parvalbumin (PV) and somatostatin (SST) expressing GABAergic neurons. However, the mechanism by which CDH13 regulates the function of inhibitory synapses in human neurons remains unknown. Starting from human induced pluripotent stem cells, we established a robust method to generate a homogenous population of SST and PV expressing GABAergic neurons (iGABA) in vitro, and co-cultured these with glutamatergic neurons at defined E/I ratios on micro-electrode arrays. We identified functional network parameters that are most reliably affected by GABAergic modulation as such, and through alterations of E/I balance by reduced expression of CDH13 in iGABAs. We found that CDH13deficiency in iGABAs decreased E/I balance by means of increased inhibition. Moreover, CDH13 interacts with Integrin-β1 and Integrin-β3, which play opposite roles in the regulation of inhibitory synaptic strength via this interaction. Taken together, this model allows for standardized investigation of the E/I balance in a human neuronal background and can be deployed to dissect the cell-type specific contribution of disease genes to the E/I balance. IntroductionNeuronal network activity is controlled by a tightly regulated interplay between excitation (E) and inhibition (I). In the healthy brain, this interplay maintains a certain E/I ratio via balanced synaptic communication between glutamatergic and GABAergic neurons 1, 2 , resulting in the so called 'E/I balance'. A growing number of studies imply that the E/I balance is disrupted in many neurodevelopmental disorders (NDDs) 3, 4 , including monogenic disorders, where the causative mutations are typically related to altered neuronal excitability and/or synaptic communication 5-7 , as well as polygenic disorders, such as autism spectrum disorders (ASD), attention deficit hyperactivity disorder (ADHD) and schizophrenia 4,8 . Mutations in Cadherin-13 (CDH13, also known as T-Cadherin or H-Cadherin) 9 have been associated with ADHD [10][11][12] and comorbid disorders such as ASD, schizophrenia, alcohol dependence and violent behaviour [13][14][15][16] . CDH13 is a special member of the cadherin superfamily since it lacks a transmembrane-and intracellular domain, and in contrast to other Cadherins, is anchored to the membrane via a glycosylphosphatidylinositol (GPI) anchor 17,18 . Because of this relatively weak connection to the outer membrane 19 , ...

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“…Our approach of allocating genes to network groups is based on integration of multiple literature sources, each limited by existing functional data. Boundaries between networks are difficult to define; for example, chromatin-associated genes will have downstream effects on synaptogenesis, neurotransmission and plasticity by regulating expression of synaptic-relevant targets (27)(28)(29). We included components of the Wnt signalling pathway (DDX3X and CTNNB1) in the "Synaptic" group, because of emerging evidence that Wnt signalling directly "tunes" neurotransmitter release and modulates synaptic plasticity (30).…”

Section: Limitationsmentioning

confidence: 99%

Gene functional networks and autism spectrum characteristics in young people with intellectual disability

Brkić

Ng‐Cordell

O’Brien

et al. 2020

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BackgroundGenes associated with Intellectual disability (ID) can be grouped into networks according to gene function. This study asked whether individuals with ID show differences in autism spectrum characteristics (ASC), depending on the functional network membership of their rare, pathogenic de novo genetic variants. MethodsChildren and young people with ID of known genetic origin were allocated to two broad functional network groups: synaptic physiology (n=29) or chromatin regulation (n=23). We applied principle components analysis to the Social Responsiveness Scale to map the structure of ASC in this population, and identified three components -Inflexibility, Social Understanding and Social Motivation. We then used Akaike Information Criterion (AIC) to test the best fitting models for predicting ASC components, including demographic factors (age, gender), non-ASC behavioural factors (global adaptive function, anxiety, hyperactivity, inattention) and gene functional networks. ResultsWe found that, when other factors are accounted for, the chromatin regulation group showed higher levels of Inflexibility. We also observed contrasting predictors of ASC within each network group.Within the chromatin regulation group, Social Understanding was associated with inattention, and Social Motivation was predicted by hyperactivity. Within the synaptic group, Social Understanding was associated with hyperactivity, and Social Motivation was linked to anxiety. ConclusionWe report that gene functional networks can predict Inflexibility, but not other ASC dimensions.Contrasting behavioural associations within each group suggests network-specific developmental pathways from genomic variation to autism. Simple classification of neurodevelopmental disorder genes as high risk or low risk for autism is unlikely to be valid or useful.Affiliations:

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Neuronal network dysfunction in a model for Kleefstra syndrome mediated by enhanced NMDAR signaling

Cited by 121 publications

References 62 publications

Variant-specific changes in persistent or resurgent Na⁺current inSCN8A-EIEE13 iPSC-derived neurons

Variant-specific changes in persistent or resurgent Na⁺current inSCN8A-EIEE13 iPSC-derived neurons

Cadherin-13 is a critical regulator of GABAergic modulation in human stem cell derived neuronal networks

Gene functional networks and autism spectrum characteristics in young people with intellectual disability

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Neuronal network dysfunction in a model for Kleefstra syndrome mediated by enhanced NMDAR signaling

Cited by 121 publications

References 62 publications

Variant-specific changes in persistent or resurgent Na+current inSCN8A-EIEE13 iPSC-derived neurons

Variant-specific changes in persistent or resurgent Na+current inSCN8A-EIEE13 iPSC-derived neurons

Cadherin-13 is a critical regulator of GABAergic modulation in human stem cell derived neuronal networks

Gene functional networks and autism spectrum characteristics in young people with intellectual disability

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Product

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Variant-specific changes in persistent or resurgent Na⁺current inSCN8A-EIEE13 iPSC-derived neurons

Variant-specific changes in persistent or resurgent Na⁺current inSCN8A-EIEE13 iPSC-derived neurons