Your search keyword '"Reinthaler, Eva M."' showing total 11 results

1. Exome-wide analysis of mutational burden in patients with typical and atypical Rolandic epilepsy

Author

Bobbili, Dheeraj R., Lal, Dennis, May, Patrick, Reinthaler, Eva M., Jabbari, Kamel, Thiele, Holger, Nothnagel, Michael, Jurkowski, Wiktor, Feucht, Martha, Nürnberg, Peter, Lerche, Holger, Zimprich, Fritz, Krause, Roland, Neubauer, Bernd A., Reinthaler, Eva M., Zimprich, Fritz, Feucht, Martha, Steinböck, Hannelore, Neophytou, Birgit, Geldner, Julia, Gruber-Sedlmayr, Ursula, Haberlandt, Edda, Ronen, Gabriel M., Altmüller, Janine, Lal, Dennis, Nürnberg, Peter, Sander, Thomas, Thiele, Holger, Krause, Roland, May, Patrick, Balling, Rudi, Lerche, Holger, Neubauer, Bernd A., and EUROEPINOMICS COGIE Consortium

Published

2018

2. 16p11.2 600 kb Duplications confer risk for typical and atypical Rolandic epilepsy

Author

Reinthaler, Eva M., Lal, Dennis, Lebon, Sebastien, Hildebrand, Michael S., Dahl, Hans-Henrik M., Regan, Brigid M., Feucht, Martha, Steinböck, Hannelore, Neophytou, Birgit, Ronen, Gabriel M., Roche, Laurian, Gruber-Sedlmayr, Ursula, Geldner, Julia, Haberlandt, Edda, Hoffmann, Per, Herms, Stefan, Gieger, Christian, Waldenberger, Melanie, Franke, Andre, Wittig, Michael, Schoch, Susanne, Becker, Albert J., Hahn, Andreas, Männik, Katrin, Toliat, Mohammad R., Winterer, Georg, Lerche, Holger, Nürnberg, Peter, Mefford, Heather, Scheffer, Ingrid E., Berkovic, Samuel F., Beckmann, Jacques S., Sander, Thomas, Jacquemont, Sebastien, Reymond, Alexandre, Zimprich, Fritz, Neubauer, Bernd A., Reinthaler, Eva M., Zimprich, Fritz, Feucht, Martha, Steinböck, Hannelore, Neophytou, Birgit, Geldner, Julia, Gruber-Sedlmayr, Ursula, Haberlandt, Edda, Ronen, Gabriel M., Roche, Laurian, Lal, Dennis, Nürnberg, Peter, Sander, Thomas, Lerche, Holger, Neubauer, Bernd, Zimprich, Fritz, Mörzinger, Martina, Feucht, Martha, Suls, Arvid, Weckhuysen, Sarah, Claes, Lieve, Deprez, Liesbet, Smets, Katrien, Van Dyck, Tine, Deconinck, Tine, De Jonghe, Peter, Møller, Rikke S, Klitten, Laura L., Hjalgrim, Helle, Møller, Rikke S, Campus, Kiel, Helbig, Ingo, Muhle, Hiltrud, Ostertag, Philipp, von Spiczak, Sarah, Stephani, Ulrich, Nürnberg, Peter, Sander, Thomas, Trucks, Holger, Elger, Christian E., Kleefu-Lie, Ailing A., Kunz, Wolfram S., Surges, Rainer, Gaus, Verena, Janz, Dieter, Sander, Thomas, Schmitz, Bettina, Rosenow, Felix, Klein, Karl Martin, Reif, Philipp S., Oertel, Wolfgang H., Hamer, Hajo M., Becker, Felicitas, Weber, Yvonne, Lerche, Holger, Koeleman, Bobby P.C., de Kovel, Carolien, Lindhout, Dick, Lindhout, Dick, Ameil, Agnès, Andrieux, Joris, Bouquillon, Sonia, Boute, Odile, de Flandre, Jeanne, Cuisset, Jean Marie, Cuvellier, Jean-Christophe, Salengro, Roger, David, Albert, de Vries, Bert, Delrue, Marie-Ange, Doco-Fenzy, Martine, Fernandez, Bridget A., Heron, Delphine, Keren, Boris, Lebel, Robert, Leheup, Bruno, Lewis, Suzanne, Mencarelli, Maria Antonietta, Mignot, Cyril, Minet, Jean-Claude, Moerman, Alexandre, Morice-Picard, Fanny, Mucciolo, Mafalda, Ounap, Katrin, Pasquier, Laurent, Petit, Florence, Ragona, Francesca, Rajcan-Separovic, Evica, Renieri, Alessandra, Rieubland, Claudine, Sanlaville, Damien, Sarrazin, Elisabeth, Shen, Yiping, van Haelst, Mieke, and Silfhout, Anneke Vulto-van

Published

2014

3. Rare variants in γ-aminobutyric acid type A receptor genes in rolandic epilepsy and related syndromes

Author

Reinthaler, Eva M., Dejanovic, Borislav, Lal, Dennis, Semtner, Marcus, Merkler, Yvonne, Reinhold, Annika, Pittrich, Dorothea A., Hotzy, Christoph, Feucht, Martha, Steinböck, Hannelore, Gruber-Sedlmayr, Ursula, Ronen, Gabriel M., Neophytou, Birgit, Geldner, Julia, Haberlandt, Edda, Muhle, Hiltrud, Ikram, Arfan M., van Duijn, Cornelia M., Uitterlinden, Andre G., Hofman, Albert, Altmüller, Janine, Kawalia, Amit, Toliat, Mohammad R., Nürnberg, Peter, Lerche, Holger, Nothnagel, Michael, Thiele, Holger, Sander, Thomas, Meier, Jochen C., Schwarz, Günter, Neubauer, Bernd A., and Zimprich, Fritz

Published

2015

4. Analysis of ELP4, SRPX2, and interacting genes in typical and atypical rolandic epilepsy

Author

Reinthaler, Eva M., Lal, Dennis, Jurkowski, Wiktor, Feucht, Martha, Steinböck, Hannelore, Gruber-Sedlmayr, Ursula, Ronen, Gabriel M., Geldner, Julia, Haberlandt, Edda, Neophytou, Birgit, Hahn, Andreas, Altmüller, Janine, Thiele, Holger, Toliat, Mohammad R., Lerche, Holger, Nürnberg, Peter, Sander, Thomas, Neubauer, Bernd A., and Zimprich, Fritz

Published

2014

5. DEPDC5 mutations in genetic focal epilepsies of childhood

Author

Lal, Dennis, Reinthaler, Eva M., Schubert, Julian, Muhle, Hiltrud, Riesch, Erik, Kluger, Gerhard, Jabbari, Kamel, Kawalia, Amit, Bäumel, Christine, Holthausen, Hans, Hahn, Andreas, Feucht, Martha, Neophytou, Birgit, Haberlandt, Edda, Becker, Felicitas, Altmüller, Janine, Thiele, Holger, Lemke, Johannes R., Lerche, Holger, Nürnberg, Peter, Sander, Thomas, Weber, Yvonne, Zimprich, Fritz, and Neubauer, Bernd A.

Published

2014

6. Epilepsy, hippocampal sclerosis and febrile seizures linked by common genetic variation around SCN1A

Author

Kasperavičiūtė, Dalia, Catarino, Claudia B., Matarin, Mar, Leu, Costin, Novy, Jan, Tostevin, Anna, Leal, Bárbara, Hessel, Ellen V. S., Hallmann, Kerstin, Hildebrand, Michael S., Dahl, Hans-Henrik M., Ryten, Mina, Trabzuni, Daniah, Ramasamy, Adaikalavan, Alhusaini, Saud, Doherty, Colin P., Dorn, Thomas, Hansen, Jörg, Krämer, Günter, Steinhoff, Bernhard J., Zumsteg, Dominik, Duncan, Susan, Kälviäinen, Reetta K., Eriksson, Kai J., Kantanen, Anne-Mari, Pandolfo, Massimo, Gruber-Sedlmayr, Ursula, Schlachter, Kurt, Reinthaler, Eva M., Stogmann, Elisabeth, Zimprich, Fritz, Théâtre, Emilie, Smith, Colin, O’Brien, Terence J., Meng Tan, K., Petrovski, Slave, Robbiano, Angela, Paravidino, Roberta, Zara, Federico, Striano, Pasquale, Sperling, Michael R., Buono, Russell J., Hakonarson, Hakon, Chaves, João, Costa, Paulo P., Silva, Berta M., da Silva, António M., de Graan, Pierre N. E., Koeleman, Bobby P. C., Becker, Albert, Schoch, Susanne, von Lehe, Marec, Reif, Philipp S., Rosenow, Felix, Becker, Felicitas, Weber, Yvonne, Lerche, Holger, Rössler, Karl, Buchfelder, Michael, Hamer, Hajo M., Kobow, Katja, Coras, Roland, Blumcke, Ingmar, Scheffer, Ingrid E., Berkovic, Samuel F., Weale, Michael E., Delanty, Norman, Depondt, Chantal, Cavalleri, Gianpiero L., Kunz, Wolfram S., and Sisodiya, Sanjay M.

Published

2013

7. Exome sequencing in multiple sclerosis families identifies 12 candidate genes and nominates biological pathways for the genesis of disease.

Author

Vilariño-Güell, Carles, Zimprich, Alexander, Martinelli-Boneschi, Filippo, Herculano, Bruno, Wang, Zhe, Matesanz, Fuencisla, Urcelay, Elena, Vandenbroeck, Koen, Leyva, Laura, Gris, Denis, Massaad, Charbel, Quandt, Jacqueline A., Traboulsee, Anthony L., Encarnacion, Mary, Bernales, Cecily Q., Follett, Jordan, Yee, Irene M., Criscuoli, Maria G., Deutschländer, Angela, and Reinthaler, Eva M.

Subjects

MULTIPLE sclerosis, MYELIN, NUCLEAR receptors (Biochemistry), CLINICAL immunology, FIBRINOLYSIS, INFLAMMASOMES

Abstract

Multiple sclerosis (MS) is an inflammatory disease of the central nervous system characterized by myelin loss and neuronal dysfunction. Although the majority of patients do not present familial aggregation, Mendelian forms have been described. We performed whole-exome sequencing analysis in 132 patients from 34 multi-incident families, which nominated likely pathogenic variants for MS in 12 genes of the innate immune system that regulate the transcription and activation of inflammatory mediators. Rare missense or nonsense variants were identified in genes of the fibrinolysis and complement pathways (PLAU, MASP1, C2), inflammasome assembly (NLRP12), Wnt signaling (UBR2, CTNNA3, NFATC2, RNF213), nuclear receptor complexes (NCOA3), and cation channels and exchangers (KCNG4, SLC24A6, SLC8B1). These genes suggest a disruption of interconnected immunological and pro-inflammatory pathways as the initial event in the pathophysiology of familial MS, and provide the molecular and biological rationale for the chronic inflammation, demyelination and neurodegeneration observed in MS patients. [ABSTRACT FROM AUTHOR]

Published

2019

8. Rare gene deletions in genetic generalized and Rolandic epilepsies.

Author

Jabbari, Kamel, Bobbili, Dheeraj R., Lal, Dennis, Reinthaler, Eva M., Schubert, Julian, Wolking, Stefan, Sinha, Vishal, Motameny, Susanne, Thiele, Holger, Kawalia, Amit, Altmüller, Janine, Toliat, Mohammad Reza, Kraaij, Robert, van Rooij, Jeroen, Uitterlinden, André G., Ikram, M. Arfan, null, null, Zara, Federico, Lehesjoki, Anna-Elina, and Krause, Roland

Subjects

GENETICS of epilepsy, DNA copy number variations, AUTISM, GENETIC mutation, PROTEIN-protein interactions

Abstract

Genetic Generalized Epilepsy (GGE) and benign epilepsy with centro-temporal spikes or Rolandic Epilepsy (RE) are common forms of genetic epilepsies. Rare copy number variants have been recognized as important risk factors in brain disorders. We performed a systematic survey of rare deletions affecting protein-coding genes derived from exome data of patients with common forms of genetic epilepsies. We analysed exomes from 390 European patients (196 GGE and 194 RE) and 572 population controls to identify low-frequency genic deletions. We found that 75 (32 GGE and 43 RE) patients out of 390, i.e. ~19%, carried rare genic deletions. In particular, large deletions (>400 kb) represent a higher burden in both GGE and RE syndromes as compared to controls. The detected low-frequency deletions (1) share genes with brain-expressed exons that are under negative selection, (2) overlap with known autism and epilepsy-associated candidate genes, (3) are enriched for CNV intolerant genes recorded by the Exome Aggregation Consortium (ExAC) and (4) coincide with likely disruptive de novo mutations from the NPdenovo database. Employing several knowledge databases, we discuss the most prominent epilepsy candidate genes and their protein-protein networks for GGE and RE. [ABSTRACT FROM AUTHOR]

Published

2018

9. Evaluation of Presumably Disease Causing SCN1A Variants in a Cohort of Common Epilepsy Syndromes.

Author

Lal, Dennis, Reinthaler, Eva M., Dejanovic, Borislav, May, Patrick, Thiele, Holger, Lehesjoki, Anna-Elina, Schwarz, Günter, Riesch, Erik, Ikram, M. Arfan, Duijn, Cornelia M. van, Uitterlinden, Andre G., Hofman, Albert, Steinböck, Hannelore, Gruber-Sedlmayr, Ursula, Neophytou, Birgit, Zara, Federico, Hahn, Andreas, null, null, Gormley, Padhraig, and Becker, Felicitas

Subjects

*NUCLEOTIDE sequencing, *SODIUM channels, *PEOPLE with epilepsy, *GENETIC mutation, *MICROBIAL virulence, *GENE frequency, *COHORT analysis

Abstract

Objective: The SCN1A gene, coding for the voltage-gated Na+ channel alpha subunit NaV1.1, is the clinically most relevant epilepsy gene. With the advent of high-throughput next-generation sequencing, clinical laboratories are generating an ever-increasing catalogue of SCN1A variants. Variants are more likely to be classified as pathogenic if they have already been identified previously in a patient with epilepsy. Here, we critically re-evaluate the pathogenicity of this class of variants in a cohort of patients with common epilepsy syndromes and subsequently ask whether a significant fraction of benign variants have been misclassified as pathogenic. Methods: We screened a discovery cohort of 448 patients with a broad range of common genetic epilepsies and 734 controls for previously reported SCN1A mutations that were assumed to be disease causing. We re-evaluated the evidence for pathogenicity of the identified variants using in silico predictions, segregation, original reports, available functional data and assessment of allele frequencies in healthy individuals as well as in a follow up cohort of 777 patients. Results and Interpretation: We identified 8 known missense mutations, previously reported as pathogenic, in a total of 17 unrelated epilepsy patients (17/448; 3.80%). Our re-evaluation indicates that 7 out of these 8 variants (p.R27T; p.R28C; p.R542Q; p.R604H; p.T1250M; p.E1308D; p.R1928G; NP_001159435.1) are not pathogenic. Only the p.T1174S mutation may be considered as a genetic risk factor for epilepsy of small effect size based on the enrichment in patients (P = 6.60 x 10−4; OR = 0.32, fishers exact test), previous functional studies but incomplete penetrance. Thus, incorporation of previous studies in genetic counseling of SCN1A sequencing results is challenging and may produce incorrect conclusions. [ABSTRACT FROM AUTHOR]

Published

2016

10. RBFOX1 and RBFOX3 Mutations in Rolandic Epilepsy.

Author

Lal, Dennis, Reinthaler, Eva M., Altmüller, Janine, Toliat, Mohammad R., Thiele, Holger, Nürnberg, Peter, Lerche, Holger, Hahn, Andreas, Møller, Rikke S., Muhle, Hiltrud, Sander, Thomas, Zimprich, Fritz, and Neubauer, Bernd A.

Subjects

*TREATMENT of epilepsy, *DNA-binding proteins, *GENETIC mutation, *GENETIC engineering, *GENETIC code, *SINGLE nucleotide polymorphisms, *BIOLOGICAL assay

Abstract

Partial deletions of the gene encoding the neuronal splicing regulator RBFOX1 have been reported in a range of neurodevelopmental diseases, including idiopathic generalized epilepsy. The RBFOX1 protein and its homologues (RBFOX2 and RBFOX3) regulate alternative splicing of many neuronal transcripts involved in the homeostatic control of neuronal excitability. In this study, we explored if structural microdeletions and exonic sequence variations in RBFOX1, RBFOX2, RBFOX3 confer susceptibility to rolandic epilepsy (RE), a common idiopathic focal childhood epilepsy. By high-density SNP array screening of 289 unrelated RE patients, we identified two hemizygous deletions, a 365 kb deletion affecting two untranslated 5′-terminal exons of RBFOX1 and a 43 kb deletion spanning exon 3 of RBFOX3. Exome sequencing of 242 RE patients revealed two novel probably deleterious variants in RBFOX1, a frameshift mutation (p.A233Vfs*74) and a hexanucleotide deletion (p.A299_A300del), and a novel nonsense mutation in RBFOX3 (p.Y287*). Although the three variants were inherited from unaffected parents, they were present in all family members exhibiting the RE trait clinically or electroencephalographically with only one exception. In contrast, no deleterious mutations of RBFOX1 and RBFOX3 were found in the exomes of 6503 non-RE subjects deposited in the Exome Variant Server database. The observed RBFOX3 exon 3 deletion and nonsense mutation suggest that RBFOX3 represents a novel risk factor for RE, indicating that exon deletions and truncating mutations of RBFOX1 and RBFOX3 contribute to the genetic variance of partial and generalized idiopathic epilepsy syndromes. [ABSTRACT FROM AUTHOR]

Published

2013

11. Mutations in GRIN2A cause idiopathic focal epilepsy with rolandic spikes.

Author

Lemke, Johannes R, Lal, Dennis, Reinthaler, Eva M, Steiner, Isabelle, Nothnagel, Michael, Alber, Michael, Geider, Kirsten, Laube, Bodo, Schwake, Michael, Finsterwalder, Katrin, Franke, Andre, Schilhabel, Markus, Jähn, Johanna A, Muhle, Hiltrud, Boor, Rainer, Van Paesschen, Wim, Caraballo, Roberto, Fejerman, Natalio, Weckhuysen, Sarah, and De Jonghe, Peter

Subjects

GENETICS of epilepsy, CHILDHOOD epilepsy, GENETIC mutation, DELETION mutation, MEDICAL statistics, GENETIC code, METHYL aspartate receptors

Abstract

Idiopathic focal epilepsy (IFE) with rolandic spikes is the most common childhood epilepsy, comprising a phenotypic spectrum from rolandic epilepsy (also benign epilepsy with centrotemporal spikes, BECTS) to atypical benign partial epilepsy (ABPE), Landau-Kleffner syndrome (LKS) and epileptic encephalopathy with continuous spike and waves during slow-wave sleep (CSWS). The genetic basis is largely unknown. We detected new heterozygous mutations in GRIN2A in 27 of 359 affected individuals from 2 independent cohorts with IFE (7.5%; P = 4.83 × 10−18, Fisher's exact test). Mutations occurred significantly more frequently in the more severe phenotypes, with mutation detection rates ranging from 12/245 (4.9%) in individuals with BECTS to 9/51 (17.6%) in individuals with CSWS (P = 0.009, Cochran-Armitage test for trend). In addition, exon-disrupting microdeletions were found in 3 of 286 individuals (1.0%; P = 0.004, Fisher's exact test). These results establish alterations of the gene encoding the NMDA receptor NR2A subunit as a major genetic risk factor for IFE. [ABSTRACT FROM AUTHOR]

Published

2013