Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features

Cristina Elena Niturad; Dorit Lev; Vera M Kalscheuer; Agnieszka Charzewska; Julian Schubert; Tally Lerman-Sagie; Hester Y. Kroes; Renske Oegema; Monica Traverso; Nicola Specchio; Maria Lassota; Jamel Chelly; Odeya Bennett-Back; Nirit Carmi; Tal Koffler-Brill; Michele Iacomino; Marina Trivisano; Giuseppe Capovilla; Pasquale Striano; Magdalena Nawara; Sylwia Rzoca; Ute Fischer; Melanie Bienek; Corinna Jensen; Hao Hu; Holger Thiele; Janine Altmüller; Roland Krause; Patrick May; Felicitas Becker; Rudi Balling; Saskia Biskup; Stefan A. Haas; Peter Nürnberg; Koen L.I. Van Gassen; Holger Lerche; Federico Zara; Snezana Maljevic; Esther Leshinsky-Silver

doi:10.1093/brain/awx236

Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features

Cristina Elena Niturad, Dorit Lev, Vera M Kalscheuer, Agnieszka Charzewska, Julian Schubert, Tally Lerman-Sagie, Hester Y. Kroes, Renske Oegema, Monica Traverso, Nicola Specchio, Maria Lassota, Jamel Chelly, Odeya Bennett-Back, Nirit Carmi, Tal Koffler-Brill, Michele Iacomino, Marina Trivisano, Giuseppe Capovilla, Pasquale Striano, Magdalena NawaraSylwia Rzoca, Ute Fischer, Melanie Bienek, Corinna Jensen, Hao Hu, Holger Thiele, Janine Altmüller, Roland Krause, Patrick May, Felicitas Becker, Rudi Balling, Saskia Biskup, Stefan A. Haas, Peter Nürnberg, Koen L.I. Van Gassen, Holger Lerche^*, Federico Zara, Snezana Maljevic, Esther Leshinsky-Silver

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Genetic epilepsies are caused by mutations in a range of different genes, many of them encoding ion channels, receptors or transporters. While the number of detected variants and genes increased dramatically in the recent years, pleiotropic effects have also been recognized, revealing that clinical syndromes with various degrees of severity arise from a single gene, a single mutation, or from different mutations showing similar functional defects. Accordingly, several genes coding for GABA A receptor subunits have been linked to a spectrum of benign to severe epileptic disorders and it was shown that a loss of function presents the major correlated pathomechanism. Here, we identified six variants in GABRA3 encoding the α 3 -subunit of the GABA A receptor. This gene is located on chromosome Xq28 and has not been previously associated with human disease. Five missense variants and one microduplication were detected in four families and two sporadic cases presenting with a range of epileptic seizure types, a varying degree of intellectual disability and developmental delay, sometimes with dysmorphic features or nystagmus. The variants co-segregated mostly but not completely with the phenotype in the families, indicating in some cases incomplete penetrance, involvement of other genes, or presence of phenocopies. Overall, males were more severely affected and there were three asymptomatic female mutation carriers compared to only one male without a clinical phenotype. X-chromosome inactivation studies could not explain the phenotypic variability in females. Three detected missense variants are localized in the extracellular GABA-binding NH 2 -terminus, one in the M2-M3 linker and one in the M4 transmembrane segment of the α 3 -subunit. Functional studies in Xenopus laevis oocytes revealed a variable but significant reduction of GABA-evoked anion currents for all mutants compared to wild-type receptors. The degree of current reduction correlated partially with the phenotype. The microduplication disrupted GABRA3 expression in fibroblasts of the affected patient. In summary, our results reveal that rare loss-of-function variants in GABRA3 increase the risk for a varying combination of epilepsy, intellectual disability/developmental delay and dysmorphic features, presenting in some pedigrees with an X-linked inheritance pattern.

Original language	English
Pages (from-to)	2879-2894
Number of pages	16
Journal	Brain
Volume	140
Issue number	11
DOIs	https://doi.org/10.1093/brain/awx236
Publication status	Published - 1 Nov 2017

Keywords

X-linked disease
epilepsy
intellectual disability
neuronal inhibition

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10.1093/brain/awx236

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Niturad, C. E., Lev, D., Kalscheuer, V. M., Charzewska, A., Schubert, J., Lerman-Sagie, T., Kroes, H. Y., Oegema, R., Traverso, M., Specchio, N., Lassota, M., Chelly, J., Bennett-Back, O., Carmi, N., Koffler-Brill, T., Iacomino, M., Trivisano, M., Capovilla, G., Striano, P., ... Leshinsky-Silver, E. (2017). Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features. Brain, 140(11), 2879-2894. https://doi.org/10.1093/brain/awx236

@article{36a2af164fef46258186d5c8bf98148f,

title = "Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features",

abstract = "Genetic epilepsies are caused by mutations in a range of different genes, many of them encoding ion channels, receptors or transporters. While the number of detected variants and genes increased dramatically in the recent years, pleiotropic effects have also been recognized, revealing that clinical syndromes with various degrees of severity arise from a single gene, a single mutation, or from different mutations showing similar functional defects. Accordingly, several genes coding for GABA A receptor subunits have been linked to a spectrum of benign to severe epileptic disorders and it was shown that a loss of function presents the major correlated pathomechanism. Here, we identified six variants in GABRA3 encoding the α 3 -subunit of the GABA A receptor. This gene is located on chromosome Xq28 and has not been previously associated with human disease. Five missense variants and one microduplication were detected in four families and two sporadic cases presenting with a range of epileptic seizure types, a varying degree of intellectual disability and developmental delay, sometimes with dysmorphic features or nystagmus. The variants co-segregated mostly but not completely with the phenotype in the families, indicating in some cases incomplete penetrance, involvement of other genes, or presence of phenocopies. Overall, males were more severely affected and there were three asymptomatic female mutation carriers compared to only one male without a clinical phenotype. X-chromosome inactivation studies could not explain the phenotypic variability in females. Three detected missense variants are localized in the extracellular GABA-binding NH 2 -terminus, one in the M2-M3 linker and one in the M4 transmembrane segment of the α 3 -subunit. Functional studies in Xenopus laevis oocytes revealed a variable but significant reduction of GABA-evoked anion currents for all mutants compared to wild-type receptors. The degree of current reduction correlated partially with the phenotype. The microduplication disrupted GABRA3 expression in fibroblasts of the affected patient. In summary, our results reveal that rare loss-of-function variants in GABRA3 increase the risk for a varying combination of epilepsy, intellectual disability/developmental delay and dysmorphic features, presenting in some pedigrees with an X-linked inheritance pattern.",

keywords = "X-linked disease, epilepsy, intellectual disability, neuronal inhibition",

author = "Niturad, {Cristina Elena} and Dorit Lev and Kalscheuer, {Vera M} and Agnieszka Charzewska and Julian Schubert and Tally Lerman-Sagie and Kroes, {Hester Y.} and Renske Oegema and Monica Traverso and Nicola Specchio and Maria Lassota and Jamel Chelly and Odeya Bennett-Back and Nirit Carmi and Tal Koffler-Brill and Michele Iacomino and Marina Trivisano and Giuseppe Capovilla and Pasquale Striano and Magdalena Nawara and Sylwia Rzoca and Ute Fischer and Melanie Bienek and Corinna Jensen and Hao Hu and Holger Thiele and Janine Altm{\"u}ller and Roland Krause and Patrick May and Felicitas Becker and Rudi Balling and Saskia Biskup and Haas, {Stefan A.} and Peter N{\"u}rnberg and {Van Gassen}, {Koen L.I.} and Holger Lerche and Federico Zara and Snezana Maljevic and Esther Leshinsky-Silver",

note = "Funding Information: Parts of this work were financed by the EU FP7 project GENCODYS, grant number 241995, by the Polish Ministry of Science and Higher Education, grant number 2014/15/D/NZ5/03426, by the Italian Ministry of Health (project RF-2010-2314356 to F.Z. and GR-2009-1473821 to P.S.), by the European Science Foundation Eurocores project EuroEPINOMICS (CoGIE) (DFG Le1030/11-1 to H.L. and S.M.), and by the Federal Ministry for Education and Research (BMBF, program on rare diseases, IonNeurONet: 01GM1105A, to S.M., H.L., S.B.). Publisher Copyright: {\textcopyright} The Author (2017).",

year = "2017",

month = nov,

day = "1",

doi = "10.1093/brain/awx236",

language = "English",

volume = "140",

pages = "2879--2894",

journal = "Brain",

issn = "0006-8950",

publisher = "Oxford University Press",

number = "11",

}

Niturad, CE, Lev, D, Kalscheuer, VM, Charzewska, A, Schubert, J, Lerman-Sagie, T, Kroes, HY, Oegema, R, Traverso, M, Specchio, N, Lassota, M, Chelly, J, Bennett-Back, O, Carmi, N, Koffler-Brill, T, Iacomino, M, Trivisano, M, Capovilla, G, Striano, P, Nawara, M, Rzoca, S, Fischer, U, Bienek, M, Jensen, C, Hu, H, Thiele, H, Altmüller, J, Krause, R, May, P, Becker, F, Balling, R, Biskup, S, Haas, SA, Nürnberg, P, Van Gassen, KLI, Lerche, H, Zara, F, Maljevic, S & Leshinsky-Silver, E 2017, 'Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features', Brain, vol. 140, no. 11, pp. 2879-2894. https://doi.org/10.1093/brain/awx236

TY - JOUR

T1 - Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features

AU - Niturad, Cristina Elena

AU - Lev, Dorit

AU - Kalscheuer, Vera M

AU - Charzewska, Agnieszka

AU - Schubert, Julian

AU - Lerman-Sagie, Tally

AU - Kroes, Hester Y.

AU - Oegema, Renske

AU - Traverso, Monica

AU - Specchio, Nicola

AU - Lassota, Maria

AU - Chelly, Jamel

AU - Bennett-Back, Odeya

AU - Carmi, Nirit

AU - Koffler-Brill, Tal

AU - Iacomino, Michele

AU - Trivisano, Marina

AU - Capovilla, Giuseppe

AU - Striano, Pasquale

AU - Nawara, Magdalena

AU - Rzoca, Sylwia

AU - Fischer, Ute

AU - Bienek, Melanie

AU - Jensen, Corinna

AU - Hu, Hao

AU - Thiele, Holger

AU - Altmüller, Janine

AU - Krause, Roland

AU - May, Patrick

AU - Becker, Felicitas

AU - Balling, Rudi

AU - Biskup, Saskia

AU - Haas, Stefan A.

AU - Nürnberg, Peter

AU - Van Gassen, Koen L.I.

AU - Lerche, Holger

AU - Zara, Federico

AU - Maljevic, Snezana

AU - Leshinsky-Silver, Esther

N1 - Funding Information: Parts of this work were financed by the EU FP7 project GENCODYS, grant number 241995, by the Polish Ministry of Science and Higher Education, grant number 2014/15/D/NZ5/03426, by the Italian Ministry of Health (project RF-2010-2314356 to F.Z. and GR-2009-1473821 to P.S.), by the European Science Foundation Eurocores project EuroEPINOMICS (CoGIE) (DFG Le1030/11-1 to H.L. and S.M.), and by the Federal Ministry for Education and Research (BMBF, program on rare diseases, IonNeurONet: 01GM1105A, to S.M., H.L., S.B.). Publisher Copyright: © The Author (2017).

PY - 2017/11/1

Y1 - 2017/11/1

N2 - Genetic epilepsies are caused by mutations in a range of different genes, many of them encoding ion channels, receptors or transporters. While the number of detected variants and genes increased dramatically in the recent years, pleiotropic effects have also been recognized, revealing that clinical syndromes with various degrees of severity arise from a single gene, a single mutation, or from different mutations showing similar functional defects. Accordingly, several genes coding for GABA A receptor subunits have been linked to a spectrum of benign to severe epileptic disorders and it was shown that a loss of function presents the major correlated pathomechanism. Here, we identified six variants in GABRA3 encoding the α 3 -subunit of the GABA A receptor. This gene is located on chromosome Xq28 and has not been previously associated with human disease. Five missense variants and one microduplication were detected in four families and two sporadic cases presenting with a range of epileptic seizure types, a varying degree of intellectual disability and developmental delay, sometimes with dysmorphic features or nystagmus. The variants co-segregated mostly but not completely with the phenotype in the families, indicating in some cases incomplete penetrance, involvement of other genes, or presence of phenocopies. Overall, males were more severely affected and there were three asymptomatic female mutation carriers compared to only one male without a clinical phenotype. X-chromosome inactivation studies could not explain the phenotypic variability in females. Three detected missense variants are localized in the extracellular GABA-binding NH 2 -terminus, one in the M2-M3 linker and one in the M4 transmembrane segment of the α 3 -subunit. Functional studies in Xenopus laevis oocytes revealed a variable but significant reduction of GABA-evoked anion currents for all mutants compared to wild-type receptors. The degree of current reduction correlated partially with the phenotype. The microduplication disrupted GABRA3 expression in fibroblasts of the affected patient. In summary, our results reveal that rare loss-of-function variants in GABRA3 increase the risk for a varying combination of epilepsy, intellectual disability/developmental delay and dysmorphic features, presenting in some pedigrees with an X-linked inheritance pattern.

AB - Genetic epilepsies are caused by mutations in a range of different genes, many of them encoding ion channels, receptors or transporters. While the number of detected variants and genes increased dramatically in the recent years, pleiotropic effects have also been recognized, revealing that clinical syndromes with various degrees of severity arise from a single gene, a single mutation, or from different mutations showing similar functional defects. Accordingly, several genes coding for GABA A receptor subunits have been linked to a spectrum of benign to severe epileptic disorders and it was shown that a loss of function presents the major correlated pathomechanism. Here, we identified six variants in GABRA3 encoding the α 3 -subunit of the GABA A receptor. This gene is located on chromosome Xq28 and has not been previously associated with human disease. Five missense variants and one microduplication were detected in four families and two sporadic cases presenting with a range of epileptic seizure types, a varying degree of intellectual disability and developmental delay, sometimes with dysmorphic features or nystagmus. The variants co-segregated mostly but not completely with the phenotype in the families, indicating in some cases incomplete penetrance, involvement of other genes, or presence of phenocopies. Overall, males were more severely affected and there were three asymptomatic female mutation carriers compared to only one male without a clinical phenotype. X-chromosome inactivation studies could not explain the phenotypic variability in females. Three detected missense variants are localized in the extracellular GABA-binding NH 2 -terminus, one in the M2-M3 linker and one in the M4 transmembrane segment of the α 3 -subunit. Functional studies in Xenopus laevis oocytes revealed a variable but significant reduction of GABA-evoked anion currents for all mutants compared to wild-type receptors. The degree of current reduction correlated partially with the phenotype. The microduplication disrupted GABRA3 expression in fibroblasts of the affected patient. In summary, our results reveal that rare loss-of-function variants in GABRA3 increase the risk for a varying combination of epilepsy, intellectual disability/developmental delay and dysmorphic features, presenting in some pedigrees with an X-linked inheritance pattern.

KW - X-linked disease

KW - epilepsy

KW - intellectual disability

KW - neuronal inhibition

UR - http://www.scopus.com/inward/record.url?scp=85032979189&partnerID=8YFLogxK

U2 - 10.1093/brain/awx236

DO - 10.1093/brain/awx236

M3 - Article

C2 - 29053855

AN - SCOPUS:85032979189

SN - 0006-8950

VL - 140

SP - 2879

EP - 2894

JO - Brain

JF - Brain

IS - 11

ER -

Rare GABRA3 variants are associated with epileptic seizures, encephalopathy and dysmorphic features

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