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2. A Solve-RD ClinVar-based reanalysis of 1522 index cases from ERN-ITHACA reveals common pitfalls and misinterpretations in exome sequencing

Author

Denomme-Pichon A. -S., Bruel A. -L., Duffourd Y., Safraou H., Thauvin-Robinet C., Tran Mau-Them F., Philippe C., Vitobello A., Jean-Marcais N., Moutton S., Thevenon J., Faivre L., Matalonga L., de Boer E., Gilissen C., Hoischen A., Kleefstra T., Pfundt R., de Vries B. B. A., Willemsen M. H., Vissers L. E. L. M., Jackson A., Banka S., Clayton-Smith J., Benetti E., Fallerini C., Renieri A., Ciolfi A., Dallapiccola B., Pizzi S., Radio F. C., Tartaglia M., Ellwanger K., Graessner H., Haack T. B., Zurek B., Havlovicova M., Macek M., Ryba L., Schwarz M., Votypka P., Lopez-Martin E., Posada M., Mencarelli M. A., Rooryck C., Trimouille A., Verloes A., Abbott K. M., Kerstjens M., Martin E. L., Maystadt I., Morleo M., Nigro V., Pinelli M., Riess O., Agathe J. -M. D. S., Santen G. W. E., Thauvin C., Torella A., Vissers L., Zguro K., Boer E. D., Cohen E., Danis D., Gao F., Horvath R., Johari M., Johanson L., Li S., Morsy H., Nelson I., Paramonov I., te Paske I. B. A. W., Robinson P., Savarese M., Steyaert W., Topf A., van der Velde J. K., Vandrovcova J., Ossowski S., Demidov G., Sturm M., Schulze-Hentrich J. M., Schule R., Xu J., Kessler C., Wayand M., Synofzik M., Wilke C., Traschutz A., Schols L., Hengel H., Lerche H., Kegele J., Heutink P., Brunner H., Scheffer H., Hoogerbrugge N., 't Hoen P. A. C., Sablauskas K., de Voer R. M., Kamsteeg E. -J., van de Warrenburg B., van Os N., Paske I. T., Janssen E., Steehouwer M., Yaldiz B., Brookes A. J., Veal C., Gibson S., Maddi V., Mehtarizadeh M., Riaz U., Warren G., Dizjikan F. Y., Shorter T., Straub V., Bettolo C. M., Manera J. D., Hambleton S., Engelhardt K., Alexander E., Peyron C., Pelissier A., Beltran S., Gut I. G., Laurie S., Piscia D., Papakonstantinou A., Bullich G., Corvo A., Fernandez-Callejo M., Hernandez C., Pico D., Lochmuller H., Gumus G., Bros-Facer V., Rath A., Hanauer M., Lagorce D., Hongnat O., Chahdil M., Lebreton E., Stevanin G., Durr A., Davoine C. -S., Guillot-Noel L., Heinzmann A., Coarelli G., Bonne G., Evangelista T., Allamand V., Ben Yaou R., Metay C., Eymard B., Atalaia A., Stojkovic T., Turnovec M., Thomasova D., Kremlikova R. P., Frankova V., Liskova P., Dolezalova P., Parkinson H., Keane T., Freeberg M., Thomas C., Spalding D., Robert G., Costa A., Patch C., Hanna M., Houlden H., Reilly M., Efthymiou S., Cali E., Magrinelli F., Sisodiya S. M., Rohrer J., Muntoni F., Zaharieva I., Sarkozy A., Timmerman V., Baets J., de Vries G., De Winter J., Beijer D., de Jonghe P., Van de Vondel L., De Ridder W., Weckhuysen S., Mutarelli M., Varavallo A., Banfi S., Musacchia F., Piluso G., Ferlini A., Selvatici R., Gualandi F., Bigoni S., Rossi R., Neri M., Aretz S., Spier I., Sommer A. K., Peters S., Oliveira C., Pelaez J. G., Matos A. R., Jose C. S., Ferreira M., Gullo I., Fernandes S., Garrido L., Ferreira P., Carneiro F., Swertz M. A., Johansson L., van der Vries G., Neerincx P. B., Ruvolo D., Kerstjens Frederikse W. S., Zonneveld-Huijssoon E., Roelofs-Prins D., van Gijn M., Kohler S., Metcalfe A., Drunat S., Heron D., Mignot C., Keren B., Lacombe D., Capella G., Valle L., Holinski-Feder E., Laner A., Steinke-Lange V., Cilio M. -R., Carpancea E., Depondt C., Lederer D., Sznajer Y., Duerinckx S., Mary S., Macaya A., Cazurro-Gutierrez A., Perez-Duenas B., Munell F., Jarava C. F., Maso L. B., Marce-Grau A., Colobran R., Hackman P., Udd B., Hemelsoet D., Dermaut B., Schuermans N., Poppe B., Verdin H., Osorio A. N., Depienne C., Roos A., Cordts I., Deschauer M., Striano P., Zara F., Riva A., Iacomino M., Uva P., Scala M., Scudieri P., Basak A. N., Claeys K., Boztug K., Haimel M., W. E G., Ruivenkamp C. A. L., Natera de Benito D., Thompson R., Polavarapu K., Grimbacher B., Zaganas I., Kokosali E., Lambros M., Evangeliou A., Spilioti M., Kapaki E., Bourbouli M., Balicza P., Molnar M. J., De la Paz M. P., Sanchez E. B., Delgado B. M., Alonso Garcia de la Rosa F. J., Schrock E., Rump A., Mei D., Vetro A., Balestrini S., Guerrini R., Chinnery P. F., Ratnaike T., Schon K., Maver A., Peterlin B., Munchau A., Lohmann K., Herzog R., Pauly M., May P., Beeson D., Cossins J., Furini S., Afenjar A., Goldenberg A., Masurel A., Phan A., Dieux-Coeslier A., Fargeot A., Guerrot A. -M., Toutain A., Molin A., Sorlin A., Putoux A., Jouret B., Laudier B., Demeer B., Doray B., Bonniaud B., Isidor B., Gilbert-Dussardier B., Leheup B., Reversade B., Paul C., Vincent-Delorme C., Neiva C., Poirsier C., Quelin C., Chiaverini C., Coubes C., Francannet C., Colson C., Desplantes C., Wells C., Goizet C., Sanlaville D., Amram D., Lehalle D., Genevieve D., Gaillard D., Zivi E., Sarrazin E., Steichen E., Schaefer E., Lacaze E., Jacquemin E., Bongers E., Kilic E., Colin E., Giuliano F., Prieur F., Laffargue F., Morice-Picard F., Petit F., Cartault F., Feillet F., Baujat G., Morin G., Diene G., Journel H., Perthus I., Lespinasse J., Alessandri J. -L., Amiel J., Martinovic J., Delanne J., Albuisson J., Lambert L., Perrin L., Ousager L. B., Van Maldergem L., Pinson L., Ruaud L., Samimi M., Bournez M., Bonnet-Dupeyron M. N., Vincent M., Jacquemont M. -L., Cordier-Alex M. -P., Gerard-Blanluet M., Willems M., Spodenkiewicz M., Doco-Fenzy M., Rossi M., Renaud M., Fradin M., Mathieu M., Holder-Espinasse M. H., Houcinat N., Hanna N., Leperrier N., Chassaing N., Philip N., Boute O., Van Kien P. K., Parent P., Bitoun P., Sarda P., Vabres P., Jouk P. -S., Touraine R., El Chehadeh S., Whalen S., Marlin S., Passemard S., Grotto S., Bellanger S. A., Blesson S., Nambot S., Naudion S., Lyonnet S., Odent S., Attie-Bitach T., Busa T., Drouin-Garraud V., Layet V., Bizaoui V., Cusin V., Capri Y., Alembik Y., Unión Europea. Comisión Europea. H2020, Unión Europea. Comisión Europea. 7 Programa Marco, Instituto de Salud Carlos III, Instituto Nacional de Bioinformatica (España), Ministry of Health (República Checa), Ministry of Education, Youth and Sports (República Checa), Denomme-Pichon, A. -S., Bruel, A. -L., Duffourd, Y., Safraou, H., Thauvin-Robinet, C., Tran Mau-Them, F., Philippe, C., Vitobello, A., Jean-Marcais, N., Moutton, S., Thevenon, J., Faivre, L., Matalonga, L., de Boer, E., Gilissen, C., Hoischen, A., Kleefstra, T., Pfundt, R., de Vries, B. B. A., Willemsen, M. H., Vissers, L. E. L. M., Jackson, A., Banka, S., Clayton-Smith, J., Benetti, E., Fallerini, C., Renieri, A., Ciolfi, A., Dallapiccola, B., Pizzi, S., Radio, F. C., Tartaglia, M., Ellwanger, K., Graessner, H., Haack, T. B., Zurek, B., Havlovicova, M., Macek, M., Ryba, L., Schwarz, M., Votypka, P., Lopez-Martin, E., Posada, M., Mencarelli, M. A., Rooryck, C., Trimouille, A., Verloes, A., Abbott, K. M., Kerstjens, M., Martin, E. L., Maystadt, I., Morleo, M., Nigro, V., Pinelli, M., Riess, O., Agathe, J. -M. D. S., Santen, G. W. E., Thauvin, C., Torella, A., Vissers, L., Zguro, K., Boer, E. D., Cohen, E., Danis, D., Gao, F., Horvath, R., Johari, M., Johanson, L., Li, S., Morsy, H., Nelson, I., Paramonov, I., te Paske, I. B. A. W., Robinson, P., Savarese, M., Steyaert, W., Topf, A., van der Velde, J. K., Vandrovcova, J., Ossowski, S., Demidov, G., Sturm, M., Schulze-Hentrich, J. M., Schule, R., Xu, J., Kessler, C., Wayand, M., Synofzik, M., Wilke, C., Traschutz, A., Schols, L., Hengel, H., Lerche, H., Kegele, J., Heutink, P., Brunner, H., Scheffer, H., Hoogerbrugge, N., 't Hoen, P. A. C., Sablauskas, K., de Voer, R. M., Kamsteeg, E. -J., van de Warrenburg, B., van Os, N., Paske, I. T., Janssen, E., Steehouwer, M., Yaldiz, B., Brookes, A. J., Veal, C., Gibson, S., Maddi, V., Mehtarizadeh, M., Riaz, U., Warren, G., Dizjikan, F. Y., Shorter, T., Straub, V., Bettolo, C. M., Manera, J. D., Hambleton, S., Engelhardt, K., Alexander, E., Peyron, C., Pelissier, A., Beltran, S., Gut, I. G., Laurie, S., Piscia, D., Papakonstantinou, A., Bullich, G., Corvo, A., Fernandez-Callejo, M., Hernandez, C., Pico, D., Lochmuller, H., Gumus, G., Bros-Facer, V., Rath, A., Hanauer, M., Lagorce, D., Hongnat, O., Chahdil, M., Lebreton, E., Stevanin, G., Durr, A., Davoine, C. -S., Guillot-Noel, L., Heinzmann, A., Coarelli, G., Bonne, G., Evangelista, T., Allamand, V., Ben Yaou, R., Metay, C., Eymard, B., Atalaia, A., Stojkovic, T., Turnovec, M., Thomasova, D., Kremlikova, R. P., Frankova, V., Liskova, P., Dolezalova, P., Parkinson, H., Keane, T., Freeberg, M., Thomas, C., Spalding, D., Robert, G., Costa, A., Patch, C., Hanna, M., Houlden, H., Reilly, M., Efthymiou, S., Cali, E., Magrinelli, F., Sisodiya, S. M., Rohrer, J., Muntoni, F., Zaharieva, I., Sarkozy, A., Timmerman, V., Baets, J., de Vries, G., De Winter, J., Beijer, D., de Jonghe, P., Van de Vondel, L., De Ridder, W., Weckhuysen, S., Mutarelli, M., Varavallo, A., Banfi, S., Musacchia, F., Piluso, G., Ferlini, A., Selvatici, R., Gualandi, F., Bigoni, S., Rossi, R., Neri, M., Aretz, S., Spier, I., Sommer, A. K., Peters, S., Oliveira, C., Pelaez, J. G., Matos, A. R., Jose, C. S., Ferreira, M., Gullo, I., Fernandes, S., Garrido, L., Ferreira, P., Carneiro, F., Swertz, M. A., Johansson, L., van der Vries, G., Neerincx, P. B., Ruvolo, D., Kerstjens Frederikse, W. S., Zonneveld-Huijssoon, E., Roelofs-Prins, D., van Gijn, M., Kohler, S., Metcalfe, A., Drunat, S., Heron, D., Mignot, C., Keren, B., Lacombe, D., Capella, G., Valle, L., Holinski-Feder, E., Laner, A., Steinke-Lange, V., Cilio, M. -R., Carpancea, E., Depondt, C., Lederer, D., Sznajer, Y., Duerinckx, S., Mary, S., Macaya, A., Cazurro-Gutierrez, A., Perez-Duenas, B., Munell, F., Jarava, C. F., Maso, L. B., Marce-Grau, A., Colobran, R., Hackman, P., Udd, B., Hemelsoet, D., Dermaut, B., Schuermans, N., Poppe, B., Verdin, H., Osorio, A. N., Depienne, C., Roos, A., Cordts, I., Deschauer, M., Striano, P., Zara, F., Riva, A., Iacomino, M., Uva, P., Scala, M., Scudieri, P., Basak, A. N., Claeys, K., Boztug, K., Haimel, M., W. E, G., Ruivenkamp, C. A. L., Natera de Benito, D., Thompson, R., Polavarapu, K., Grimbacher, B., Zaganas, I., Kokosali, E., Lambros, M., Evangeliou, A., Spilioti, M., Kapaki, E., Bourbouli, M., Balicza, P., Molnar, M. J., De la Paz, M. P., Sanchez, E. B., Delgado, B. M., Alonso Garcia de la Rosa, F. J., Schrock, E., Rump, A., Mei, D., Vetro, A., Balestrini, S., Guerrini, R., Chinnery, P. F., Ratnaike, T., Schon, K., Maver, A., Peterlin, B., Munchau, A., Lohmann, K., Herzog, R., Pauly, M., May, P., Beeson, D., Cossins, J., Furini, S., Afenjar, A., Goldenberg, A., Masurel, A., Phan, A., Dieux-Coeslier, A., Fargeot, A., Guerrot, A. -M., Toutain, A., Molin, A., Sorlin, A., Putoux, A., Jouret, B., Laudier, B., Demeer, B., Doray, B., Bonniaud, B., Isidor, B., Gilbert-Dussardier, B., Leheup, B., Reversade, B., Paul, C., Vincent-Delorme, C., Neiva, C., Poirsier, C., Quelin, C., Chiaverini, C., Coubes, C., Francannet, C., Colson, C., Desplantes, C., Wells, C., Goizet, C., Sanlaville, D., Amram, D., Lehalle, D., Genevieve, D., Gaillard, D., Zivi, E., Sarrazin, E., Steichen, E., Schaefer, E., Lacaze, E., Jacquemin, E., Bongers, E., Kilic, E., Colin, E., Giuliano, F., Prieur, F., Laffargue, F., Morice-Picard, F., Petit, F., Cartault, F., Feillet, F., Baujat, G., Morin, G., Diene, G., Journel, H., Perthus, I., Lespinasse, J., Alessandri, J. -L., Amiel, J., Martinovic, J., Delanne, J., Albuisson, J., Lambert, L., Perrin, L., Ousager, L. B., Van Maldergem, L., Pinson, L., Ruaud, L., Samimi, M., Bournez, M., Bonnet-Dupeyron, M. N., Vincent, M., Jacquemont, M. -L., Cordier-Alex, M. -P., Gerard-Blanluet, M., Willems, M., Spodenkiewicz, M., Doco-Fenzy, M., Rossi, M., Renaud, M., Fradin, M., Mathieu, M., Holder-Espinasse, M. H., Houcinat, N., Hanna, N., Leperrier, N., Chassaing, N., Philip, N., Boute, O., Van Kien, P. K., Parent, P., Bitoun, P., Sarda, P., Vabres, P., Jouk, P. -S., Touraine, R., El Chehadeh, S., Whalen, S., Marlin, S., Passemard, S., Grotto, S., Bellanger, S. A., Blesson, S., Nambot, S., Naudion, S., Lyonnet, S., Odent, S., Attie-Bitach, T., Busa, T., Drouin-Garraud, V., Layet, V., Bizaoui, V., Cusin, V., Capri, Y., Alembik, Y., and Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center]

Subjects
Exome reanalysis, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Multidisciplinaire, généralités & autres [D99] [Sciences de la santé humaine], Developmental disorder, lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Biology and Life Sciences, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], ClinVar, Rare diseases, All institutes and research themes of the Radboud University Medical Center, Medicine and Health Sciences, Genetics & genetic processes [F10] [Life sciences], Génétique & processus génétiques [F10] [Sciences du vivant], Multidisciplinary, general & others [D99] [Human health sciences], Exome reanalysi, Genetics (clinical)
Abstract

Purpose: Within the Solve-RD project (https://solve-rd.eu/), the European Reference Network for Intellectual disability, TeleHealth, Autism and Congenital Anomalies aimed to investigate whether a reanalysis of exomes from unsolved cases based on ClinVar annotations could establish additional diagnoses. We present the results of the "ClinVar low-hanging fruit" reanalysis, reasons for the failure of previous analyses, and lessons learned. Methods: Data from the first 3576 exomes (1522 probands and 2054 relatives) collected from European Reference Network for Intellectual disability, TeleHealth, Autism and Congenital Anomalies was reanalyzed by the Solve-RD consortium by evaluating for the presence of single-nucleotide variant, and small insertions and deletions already reported as (likely) pathogenic in ClinVar. Variants were filtered according to frequency, genotype, and mode of inheritance and reinterpreted. Results: We identified causal variants in 59 cases (3.9%), 50 of them also raised by other approaches and 9 leading to new diagnoses, highlighting interpretation challenges: variants in genes not known to be involved in human disease at the time of the first analysis, misleading genotypes, or variants undetected by local pipelines (variants in off-target regions, low quality filters, low allelic balance, or high frequency). Conclusion: The "ClinVar low-hanging fruit" analysis represents an effective, fast, and easy approach to recover causal variants from exome sequencing data, herewith contributing to the reduction of the diagnostic deadlock. The Solve-RD project has received funding from the European Union’s Horizon 2020 research and innovation program under grant agreement number 779257. Data were analyzed using the RD-Connect Genome-Phenome Analysis Platform, which received funding from the EU projects RD-Connect, Solve-RD, and European Joint Programme on Rare Diseases (grant numbers FP7 305444, H2020 779257, H2020 825575), Instituto de Salud Carlos III (grant numbers PT13/0001/0044, PT17/0009/0019; Instituto Nacional de Bioinformática), and ELIXIR Implementation Studies. The collaborations in this study were facilitated by the European Reference Network for Intellectual disability, TeleHealth, Autism and Congenital Anomalies, one of the 24 European Reference Networks approved by the European Reference Network Board of Member States, cofunded by the European Commission. This project was supported by the Czech Ministry of Health (number 00064203) and by the Czech Ministry of Education, Youth and Sports (number - LM2018132) to M.M. Sí

Published
2023

3. Sequential Seizures in Neonates: Videos as a Diagnostic Tool for Diagnosis of KCNQ2-Related Self-Limiting Familial Neonatal Epilepsy?

Author

Leppmeier, V., Weckhuysen, S., Pringsheim, M., Berweck, S., and Kluger, G.

Subjects
*SINGLE-parent families, *EPILEPSY, *SEIZURES (Medicine), *NEWBORN infants, *FAMILY history (Sociology), *DIAGNOSIS
Abstract

This article, published in the journal Neuropediatrics, discusses the use of videos taken by parents as a diagnostic tool for the diagnosis of KCNQ2-related self-limiting familial neonatal epilepsy (SLFNE). The study analyzed videos taken by parents of three affected families, which showed neonates experiencing seizures with focal onset and changing manifestation throughout the seizure. The family history of each affected neonate was conclusive, as one parent in each family had also experienced seizures in the same timeframe after birth. Genetic testing confirmed a mutation in the KCNQ2 gene in the affected children and at least one parent in all three families. The authors suggest that analyzing these videos, along with the positive family history, can aid in the diagnosis of SLFNE and promote early genetic testing and treatment initiation. [Extracted from the article]

Published
2023
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4. Additional file 1 of Increased prime edit rates in KCNQ2 and SCN1A via single nicking all-in-one plasmids

Author

Dirkx, N., Weuring, Wout J., De Vriendt, E., Smal, N., van de Vondervoort, J., van ’t Slot, Ruben, Koetsier, M., Zonnekein, N., De Pooter, Tim, Weckhuysen, S., and Koeleman, B. P. C.

Abstract

Additional file 1: Fig. S1. Graphical overview on protospacer-adjacent motif removal and the four possible outcome scenarios. Fig. S2. Integrative Genomics Viewer output file from WES data generated for the KCNQ2 R201H-P knock-in experiment in HEK293T cells. Fig. S3. Representative sanger sequencing files for KCNQ2 R201H-P knock-in in HEK293T using PE2max, PE4max and PE3. Fig. S4. Lentiviral vector and integrase-deficient lentiviral vector titering, expression in time, and edit rates. Fig. S5. pAIO-PE4max based removal of R201C in hiPSC over time. Fig. S6. Quality Control 1, Multiplex amplicon quantification for chromosome 20 duplication in hiPSC. Fig. S7. Quality Control 2, RT-qPCR based expression analysis of pluripotency markers in hiPSC. Fig. S8. Primers, pegRNAs and gBlocks used in study. Fig. S9. Visual representation of pegRNAs and their interacting sequences used in this study.

Published
2023
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5. Association of ultra-rare coding variants with genetic generalized epilepsy: A case–control whole exome sequencing study

Author

Koko, M., Motelow, J. E., Stanley, K. E., Bobbili, D. R., Dhindsa, R. S., May, P., Alldredge, B. K., Allen, A. S., Altmuller, J., Amrom, D., Andermann, E., Auce, P., Avbersek, A., Baulac, S., Bautista, J. F., Becker, F., Bellows, S. T., Berghuis, B., Berkovic, S. F., Bluvstein, J., Boro, A., Bridgers, J., Burgess, R., Caglayan, H., Cascino, G. D., Cavalleri, G. L., Chung, S. -K., Cieuta-Walti, C., Cloutier, V., Consalvo, D., Cossette, P., Crumrine, P., Delanty, N., Depondt, C., Desbiens, R., Devinsky, O., Dlugos, D., Epstein, M. P., Everett, K., Fiol, M., Fountain, N. B., Francis, B., French, J., Freyer, C., Friedman, D., Gambardella, A., Geller, E. B., Girard, S., Glauser, T., Glynn, S., Goldstein, D. B., Gravel, M., Haas, K., Haut, S. R., Heinzen, E. L., Helbig, I., Hildebrand, M. S., Johnson, M. R., Jorgensen, A., Joshi, S., Kanner, A., Kirsch, H. E., Klein, K. M., Knowlton, R. C., Koeleman, B. P. C., Kossoff, E. H., Krause, R., Krenn, M., Kunz, W. S., Kuzniecky, R., Langley, S. R., Leguern, E., Lehesjoki, A. -E., Lerche, H., Leu, C., Lortie, A., Lowenstein, D. H., Marson, A. G., Mebane, C., Mefford, H. C., Meloche, C., Moreau, C., Motika, P. V., Muhle, H., Moller, R. S., Nabbout, R., Nguyen, D. K., Nikanorova, M., Novotny, E. J., Nurnberg, P., Ottman, R., O'Brien, T. J., Paolicchi, J. M., Parent, J. M., Park, K., Peter, S., Petrou, S., Petrovski, S., Pickrell, W. O., Poduri, A., Radtke, R. A., Rees, M. I., Regan, B. M., Ren, Z., Sadleir, L. G., Sander, J. W., Sander, T., Scheffer, I. E., Schubert, J., Shellhaas, R. A., Sherr, E. H., Shih, J. J., Shinnar, S., Sills, G. J., Singh, R. K., Siren, A., Sirven, J., Sisodiya, S. M., Smith, M. C., Sonsma, A. C. M., Striano, P., Sullivan, J., Thio, L. L., Thomas, R. H., Venkat, A., Vining, E. P. G., Von Allmen, G. K., Wang, Q., Weber, Y. G., Weckhuysen, S., Weisenberg, J. L., Widdess-Walsh, P., Winawer, M. R., Wolking, S., Zara, F., Zimprich, F., Canadian Epilepsy Network, Epi4K Consortium, Epilepsy Phenome/Genome Project, EpiPGX Consortium, EuroEPINOMICS-CoGIE Consortium, Department of Medical and Clinical Genetics, Medicum, Fonds National de la Recherche - FnR [sponsor], Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center], Peter, Sarah, Petrou, Steven, Petrovski, Slavé, Pickrell, William O., Poduri, Annapurna, Radtke, Rodney A., Rees, Mark I., Regan, Brigid M., Ren, Zhong, Sadleir, Lynette G., Alldredge, Brian K., Sander, Josemir W., Sander, Thomas, Scheffer, Ingrid E., Schubert, Julian, Shellhaas, Renée A., Sherr, Elliott H., Shih, Jerry J., Shinnar, Shlomo, Sills, Graeme J., Singh, Rani K., Allen, Andrew S., Siren, Auli, Sirven, Joseph, Sisodiya, Sanjay M., Smith, Michael C., Sonsma, Anja C. M., Striano, Pasquale, Sullivan, Joseph, Thio, Liu Lin, Thomas, Rhys H., Venkat, Anu, Altmüller, Janine, Vining, Eileen P. G., Von Allmen, Gretchen K., Wang, Quanli, Weber, Yvonne G., Weckhuysen, Sarah, Weisenberg, Judith L., Widdess-Walsh, Peter, Winawer, Melodie R., Wolking, Stefan, Zara, Federico, Amrom, Dina, Zimprich, Fritz, Andermann, Eva, Auce, Pauls, Avbersek, Andreja, Baulac, Stéphanie, Bautista, Jocelyn F., Becker, Felicitas, Bellows, Susannah T., Berghuis, Bianca, Berkovic, Samuel F., Bluvstein, Judith, Boro, Alex, Bridgers, Joshua, Burgess, Rosemary, Caglayan, Hande, Cascino, Gregory D., Cavalleri, Gianpiero L., Chung, Seo-Kyung, Cieuta-Walti, Cécile, Cloutier, Véronique, Consalvo, Damian, Cossette, Patrick, Crumrine, Patricia, Delanty, Norman, Depondt, Chantal, Desbiens, Richard, Devinsky, Orrin, Dlugos, Dennis, Epstein, Michael P., Everett, Kate, Fiol, Miguel, Fountain, Nathan B., Francis, Ben, French, Jacqueline, Freyer, Catharine, Friedman, Daniel, Gambardella, Antonio, Geller, Eric B., Girard, Simon, Glauser, Tracy, Glynn, Simon, Goldstein, David B., Gravel, Micheline, Haas, Kevin, Haut, Sheryl R., Heinzen, Erin L., Helbig, Ingo, Hildebrand, Michael S., Johnson, Michael R., Jorgensen, Andrea, Joshi, Sucheta, Kanner, Andres, Kirsch, Heidi E., Klein, Karl M., Knowlton, Robert C., Koeleman, Bobby P. C., Kossoff, Eric H., Krause, Roland, Krenn, Martin, Kunz, Wolfram S., Kuzniecky, Ruben, Langley, Sarah R., LeGuern, Eric, Lehesjoki, Anna-Elina, Lerche, Holger, Leu, Costin, Lortie, Anne, Lowenstein, Daniel H., Marson, Anthony G., Mebane, Caroline, Mefford, Heather C., Meloche, Caroline, Moreau, Claudia, Motika, Paul V., Muhle, Hiltrud, Møller, Rikke S., Nabbout, Rima, Nguyen, Dang K., Nikanorova, Marina, Novotny, Edward J., Nürnberg, Peter, Ottman, Ruth, O'Brien, Terence J., Paolicchi, Juliann M., Parent, Jack M., and Park, Kristen

Subjects
GABA receptors, Neurology [D14] [Human health sciences], Clinical Sciences, GABA(A) receptors, GABRG2, familial epilepsy, Article, Clinical Research, Receptors, Exome Sequencing, Genetics, 2.1 Biological and endogenous factors, Humans, GGE, Genetic Predisposition to Disease, sporadic epilepsy, EpiPGX Consortium, Aetiology, gamma-Aminobutyric Acid, GABAA receptors, Epi4K Consortium, Epilepsy, Neurology & Neurosurgery, Neurologie [D14] [Sciences de la santé humaine], Generalized, GABA-A, Prevention, Human Genome, Neurosciences, 1184 Genetics, developmental biology, physiology, 3112 Neurosciences, Receptors, GABA-A, EuroEPINOMICS-CoGIE Consortium, Neurology, Case-Control Studies, Epilepsy, Generalized, Canadian Epilepsy Network, Neurology (clinical), Genetics & genetic processes [F10] [Life sciences], 3111 Biomedicine, Human medicine, Génétique & processus génétiques [F10] [Sciences du vivant], Epilepsy Phenome/Genome Project
Abstract

ObjectiveWe aimed to identify genes associated with genetic generalized epilepsy (GGE) by combining large cohorts enriched with individuals with a positive family history. Secondarily, we set out to compare the association of genes independently with familial and sporadic GGE.MethodsWe performed a case-control whole exome sequencing study in unrelated individuals of European descent diagnosed with GGE (previously recruited and sequenced through multiple international collaborations) and ancestry-matched controls. The association of ultra-rare variants (URVs; in 18834 protein-coding genes) with epilepsy was examined in 1928 individuals with GGE (vs. 8578 controls), then separately in 945 individuals with familial GGE (vs. 8626 controls), and finally in 1005 individuals with sporadic GGE (vs. 8621 controls). We additionally examined the association of URVs with familial and sporadic GGE in two gene sets important for inhibitory signaling (19genes encoding γ-aminobutyric acid type A [GABAA ] receptors, 113genes representing the GABAergic pathway).ResultsGABRG2 was associated with GGE (p=1.8×10-5 ), approaching study-wide significance in familial GGE (p=3.0×10-6 ), whereas no gene approached a significant association with sporadic GGE. Deleterious URVs in the most intolerant subgenic regions in genes encoding GABAA receptors were associated with familial GGE (odds ratio [OR]=3.9, 95% confidence interval [CI]=1.9-7.8, false discovery rate [FDR]-adjusted p=.0024), whereas their association with sporadic GGE had marginally lower odds (OR=3.1, 95% CI=1.3-6.7, FDR-adjusted p=.022). URVs in GABAergic pathway genes were associated with familial GGE (OR=1.8, 95% CI=1.3-2.5, FDR-adjusted p=.0024) but not with sporadic GGE (OR=1.3, 95% CI=.9-1.9, FDR-adjusted p=.19).SignificanceURVs in GABRG2 are likely an important risk factor for familial GGE. The association of gene sets of GABAergic signaling with familial GGE is more prominent than with sporadic GGE.

Published
2022

6. LifeTime and improving European healthcare through cell-based interceptive medicine

Author

Rajewsky, N., Almouzni, G., Gorski, S., Aerts, S., Amit, I., Bertero, M., Bock, C., Bredenoord, A., Cavalli, G., Chiocca, S., Clevers, H., Strooper, B., Eggert, A., Ellenberg, J., Fernández, X., Figlerowicz, M., Gasser, S., Hubner, N., Kjems, J., Knoblich, J., Krabbe, G., Lichter, P., Linnarsson, S., Marine, J., Marioni, J., Marti-Renom, M., Netea, M., Nickel, D., Nollmann, M., Novak, H., Parkinson, H., Piccolo, S., Pinheiro, I., Pombo, A., Popp, C., Reik, W., Roman-Roman, S., Rosenstiel, P., Schultze, J., Stegle, O., Tanay, A., Testa, G., Thanos, D., Theis, F., Torres-Padilla, M., Valencia, A., Vallot, C., van Oudenaarden, A., Vidal, M., Voet, T., Alberi, L., Alexander, S., Alexandrov, T., Arenas, E., Bagni, C., Balderas, R., Bandelli, A., Becher, B., Becker, M., Beerenwinkel, N., Benkirame, M., Beyer, M., Bickmore, W., Biessen, E., Blomberg, N., Blumcke, I., Bodenmiller, B., Borroni, B., Boumpas, D., Bourgeron, T., Bowers, S., Braeken, D., Brooksbank, C., Brose, N., Bruining, H., Bury, J., Caporale, N., Cattoretti, G., Chabane, N., Chneiweiss, H., Cook, S., Curatolo, P., de Jonge, M., Deplancke, B., de Witte, P., Dimmeler, S., Draganski, B., Drews, A., Dumbrava, C., Engelhardt, S., Gasser, T., Giamarellos-Bourboulis, E., Graff, C., Grün, D., Gut, I., Hansson, O., Henshall, D., Herland, A., Heutink, P., Heymans, S., Heyn, H., Huch, M., Huitinga, I., Jackowiak, P., Jongsma, K., Journot, L., Junker, J., Katz, S., Kehren, J., Kempa, S., Kirchhof, P., Klein, C., Koralewska, N., Korbel, J., Kühnemund, M., Lamond, A., Lauwers, E., Le Ber, I., Leinonen, V., Tobon, A., Lundberg, E., Lunkes, A., Maatz, H., Mann, M., Marelli, L., Matser, V., Matthews, P., Mechta-Grigoriou, F., Menon, R., Nielsen, A., Pagani, M., Pasterkamp, R., Pitkänen, A., Popescu, V., Pottier, C., Puisieux, A., Rademakers, R., Reiling, D., Reiner, O., Remondini, D., Ritchie, C., Rohrer, J., Saliba, A., Sanchez-Valle, R., Santosuosso, A., Sauter, A., Scheltema, R., Scheltens, P., Schiller, H., Schneider, A., Seibler, P., Sheehan-Rooney, K., Shields, D., Sleegers, K., Smit, A., Smith, K., Smolders, I., Synofzik, M., Tam, W., Teichmann, S., Thom, M., Turco, M., van Beusekom, H., Vandenberghe, R., den Hoecke, S., de Poel, I., van der Ven, A., van der Zee, J., van Lunzen, J., van Minnebruggen, G., Paesschen, W., van Swieten, J., van Vught, R., Verhage, M., Verstreken, P., Villa, C., Vogel, J., von Kalle, C., Walter, J., Weckhuysen, S., Weichert, W., Wood, L., Ziegler, A., Zipp, F., HZI,Helmholtz-Zentrum für Infektionsforschung GmbH, Inhoffenstr. 7,38124 Braunschweig, Germany., Medical Research Council (MRC), UK DRI Ltd, TWINCORE, Zentrum für experimentelle und klinische Infektionsforschung GmbH,Feodor-Lynen Str. 7, 30625 Hannover, Germany., Barcelona Supercomputing Center, LifeTime Community Working Groups, Cardiology, Neurology, Institut de génétique humaine (IGH), Université de Montpellier (UM)-Centre National de la Recherche Scientifique (CNRS), Amsterdam Neuroscience - Cellular & Molecular Mechanisms, Human genetics, Rajewsky N., Almouzni G., Gorski S.A., Aerts S., Amit I., Bertero M.G., Bock C., Bredenoord A.L., Cavalli G., Chiocca S., Clevers H., De Strooper B., Eggert A., Ellenberg J., Fernandez X.M., Figlerowicz M., Gasser S.M., Hubner N., Kjems J., Knoblich J.A., Krabbe G., Lichter P., Linnarsson S., Marine J.-C., Marioni J.C., Marti-Renom M.A., Netea M.G., Nickel D., Nollmann M., Novak H.R., Parkinson H., Piccolo S., Pinheiro I., Pombo A., Popp C., Reik W., Roman-Roman S., Rosenstiel P., Schultze J.L., Stegle O., Tanay A., Testa G., Thanos D., Theis F.J., Torres-Padilla M.-E., Valencia A., Vallot C., van Oudenaarden A., Vidal M., Voet T., Alberi L., Alexander S., Alexandrov T., Arenas E., Bagni C., Balderas R., Bandelli A., Becher B., Becker M., Beerenwinkel N., Benkirame M., Beyer M., Bickmore W., Biessen E.E.A.L., Blomberg N., Blumcke I., Bodenmiller B., Borroni B., Boumpas D.T., Bourgeron T., Bowers S., Braeken D., Brooksbank C., Brose N., Bruining H., Bury J., Caporale N., Cattoretti G., Chabane N., Chneiweiss H., Cook S.A., Curatolo P., de Jonge M.I., Deplancke B., de Witte P., Dimmeler S., Draganski B., Drews A., Dumbrava C., Engelhardt S., Gasser T., Giamarellos-Bourboulis E.J., Graff C., Grun D., Gut I., Hansson O., Henshall D.C., Herland A., Heutink P., Heymans S.R.B., Heyn H., Huch M., Huitinga I., Jackowiak P., Jongsma K.R., Journot L., Junker J.P., Katz S., Kehren J., Kempa S., Kirchhof P., Klein C., Koralewska N., Korbel J.O., Kuhnemund M., Lamond A.I., Lauwers E., Le Ber I., Leinonen V., Tobon A.L., Lundberg E., Lunkes A., Maatz H., Mann M., Marelli L., Matser V., Matthews P.M., Mechta-Grigoriou F., Menon R., Nielsen A.F., Pagani M., Pasterkamp R.J., Pitkanen A., Popescu V., Pottier C., Puisieux A., Rademakers R., Reiling D., Reiner O., Remondini D., Ritchie C., Rohrer J.D., Saliba A.-E., Sanchez-Valle R., Santosuosso A., Sauter A., Scheltema R.A., Scheltens P., Schiller H.B., Schneider A., Seibler P., Sheehan-Rooney K., Shields D., Sleegers K., Smit A.B., Smith K.G.C., Smolders I., Synofzik M., Tam W.L., Teichmann S., Thom M., Turco M.Y., van Beusekom H.M.M., Vandenberghe R., Van den Hoecke S., Van de Poel I., van der Ven A., van der Zee J., van Lunzen J., van Minnebruggen G., Van Paesschen W., van Swieten J., van Vught R., Verhage M., Verstreken P., Villa C.E., Vogel J., von Kalle C., Walter J., Weckhuysen S., Weichert W., Wood L., Ziegler A.-G., Zipp F., Center for Neurogenomics and Cognitive Research, Functional Genomics, Rajewsky, N, Almouzni, G, Gorski, S, Aerts, S, Amit, I, Bertero, M, Bock, C, Bredenoord, A, Cavalli, G, Chiocca, S, Clevers, H, De Strooper, B, Eggert, A, Ellenberg, J, Fernández, X, Figlerowicz, M, Gasser, S, Hubner, N, Kjems, J, Knoblich, J, Krabbe, G, Lichter, P, Linnarsson, S, Marine, J, Marioni, J, Marti-Renom, M, Netea, M, Nickel, D, Nollmann, M, Novak, H, Parkinson, H, Piccolo, S, Pinheiro, I, Pombo, A, Popp, C, Reik, W, Roman-Roman, S, Rosenstiel, P, Schultze, J, Stegle, O, Tanay, A, Testa, G, Thanos, D, Theis, F, Torres-Padilla, M, Valencia, A, Vallot, C, van Oudenaarden, A, Vidal, M, Voet, T, Cattoretti, G, Alliance for Modulation in Epilepsy, Pharmaceutical and Pharmacological Sciences, Experimental Pharmacology, RS: Carim - H02 Cardiomyopathy, MUMC+: MA Med Staf Spec Cardiologie (9), and Cardiologie

Subjects
0301 basic medicine, Male, Artificial intelligence, Legislation, Medical, [SDV]Life Sciences [q-bio], Molecular datasets, lnfectious Diseases and Global Health Radboud Institute for Molecular Life Sciences [Radboudumc 4], Cell- and Tissue-Based Therapy, Diseases, LifeTime Community Working Groups, Disease, Biomarkers, Systems biology, Health data, Pharmacology, Toxicology and Pharmaceutics(all), 0302 clinical medicine, Conjunts de dades, ethics [Delivery of Health Care], Health care, Pathology, Medicine, European healthcare, BRAIN, Single-cell multi-omics, GENE-EXPRESSION, Multidisciplinary, methods [Medicine], Education, Medical, Settore BIO/13, Intel.ligència artificial, 3. Good health, ALZHEIMERS-DISEASE, Europe, Health, Management system, Perspective, Female, ddc:500, Single-Cell Analysis, Biomarkers, Diseases, Systems biology, Complex diseases, Informàtica::Aplicacions de la informàtica::Bioinformàtica [Àrees temàtiques de la UPC], medicine.medical_specialty, General Science & Technology, Cells, MEDLINE, cell-based interceptive medicine, LifeTime Initiative, 03 medical and health sciences, SDG 3 - Good Health and Well-being, Clinical datasets, Artificial Intelligence, REVEALS, LifeTime Community, standards [Medicine], Humans, OMICS, RECONSTRUCTION, Intensive care medicine, trends [Medicine], trends [Delivery of Health Care], business.industry, Disease progression, standards [Delivery of Health Care], methods [Delivery of Health Care], 030104 developmental biology, lnfectious Diseases and Global Health Radboud Institute for Health Sciences [Radboudumc 4], single cell, personalized therapy, machine learning, bioinformatics, systems biology, disease, cell-based interceptive medicine, Early Diagnosis, Cardiovascular and Metabolic Diseases, Human medicine, business, Delivery of Health Care, 030217 neurology & neurosurgery, Cell based
Abstract

Here we describe the LifeTime Initiative, which aims to track, understand and target human cells during the onset and progression of complex diseases, and to analyse their response to therapy at single-cell resolution. This mission will be implemented through the development, integration and application of single-cell multi-omics and imaging, artificial intelligence and patient-derived experimental disease models during the progression from health to disease. The analysis of large molecular and clinical datasets will identify molecular mechanisms, create predictive computational models of disease progression, and reveal new drug targets and therapies. The timely detection and interception of disease embedded in an ethical and patient-centred vision will be achieved through interactions across academia, hospitals, patient associations, health data management systems and industry. The application of this strategy to key medical challenges in cancer, neurological and neuropsychiatric disorders, and infectious, chronic inflammatory and cardiovascular diseases at the single-cell level will usher in cell-based interceptive medicine in Europe over the next decade., The LifeTime initiative is an ambitious, multidisciplinary programme that aims to improve healthcare by tracking individual human cells during disease processes and responses to treatment in order to develop and implement cell-based interceptive medicine in Europe.

Published
2020

7. Assessing the role of rare genetic variants in drug-resistant, non-lesional focal epilepsy

Author

Wolking, S., Moreau, C., Mccormack, M., Krause, R., Krenn, M., Berkovic, S., Cavalleri, G. L., Delanty, N., Depondt, C., Johnson, M. R., Koeleman, B. P. C., Kunz, W. S., Lerche, H., Marson, A. G., O'Brien, T. J., Petrovski, S., Sander, J. W., Sills, G. J., Striano, P., Zara, F., Zimprich, F., Sisodiya, S. M., Girard, S. L., Cossette, P., Avbersek, A., Leu, C., Heggeli, K., Demurtas, R., Willis, J., Speed, D., Sargsyan, N., Chinthapalli, K., Borghei, M., Coppola, A., Gambardella, A., Becker, F., Rau, S., Hengsbach, C., Weber, Y. G., Berghuis, B., Campbell, E., Gudmundsson, L. J., Ingason, A., Stefansson, K., Schneider, R., Balling, R., Auce, P., Francis, B., Jorgensen, A., Morris, A., Langley, S., Srivastava, P., Brodie, M., Todaro, M., Hutton, J., Muhle, H., Klein, K. M., Moller, R. S., Nikanorova, M., Weckhuysen, S., Rener-Primec, Z., Craig, J., and Stefansson, H.

Subjects
0301 basic medicine, Male, Candidate gene, Drug Resistant Epilepsy, Neurology [D14] [Human health sciences], Neurosciences. Biological psychiatry. Neuropsychiatry, Drug resistance, Bioinformatics, Polymorphism, Single Nucleotide, Whole Exome Sequencing, Cohort Studies, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Exome Sequencing, medicine, Humans, Polymorphism, RC346-429, Gene, Exome sequencing, Research Articles, Genetic Association Studies, Neurologie [D14] [Sciences de la santé humaine], business.industry, General Neuroscience, Genetic variants, Genetic Variation, Single Nucleotide, medicine.disease, DEPDC5, Female, 030104 developmental biology, Cohort, Neurology (clinical), Neurology. Diseases of the nervous system, business, 030217 neurology & neurosurgery, RC321-571, Research Article
Abstract

Annals of Clinical and Translational Neurology 8(7), 1376-1387 (2021). doi:10.1002/acn3.51374, Published by Wiley, Chichester [u.a.]

Published
2021

8. Publisher Correction: LifeTime and improving European healthcare through cell-based interceptive medicine (Nature, (2020), 587, 7834, (377-386), 10.1038/s41586-020-2715-9)

Author

Rajewsky, N. Almouzni, G. Gorski, S.A. Aerts, S. Amit, I. Bertero, M.G. Bock, C. Bredenoord, A.L. Cavalli, G. Chiocca, S. Clevers, H. De Strooper, B. Eggert, A. Ellenberg, J. Fernández, X.M. Figlerowicz, M. Gasser, S.M. Hubner, N. Kjems, J. Knoblich, J.A. Krabbe, G. Lichter, P. Linnarsson, S. Marine, J.-C. Marioni, J.C. Marti-Renom, M.A. Netea, M.G. Nickel, D. Nollmann, M. Novak, H.R. Parkinson, H. Piccolo, S. Pinheiro, I. Pombo, A. Popp, C. Reik, W. Roman-Roman, S. Rosenstiel, P. Schultze, J.L. Stegle, O. Tanay, A. Testa, G. Thanos, D. Theis, F.J. Torres-Padilla, M.-E. Valencia, A. Vallot, C. van Oudenaarden, A. Vidal, M. Voet, T. Alberi, L. Alexander, S. Alexandrov, T. Arenas, E. Bagni, C. Balderas, R. Bandelli, A. Becher, B. Becker, M. Beerenwinkel, N. Benkirane, M. Beyer, M. Bickmore, W.A. Biessen, E.E.A.L. Blomberg, N. Blumcke, I. Bodenmiller, B. Borroni, B. Boumpas, D.T. Bourgeron, T. Bowers, S. Braeken, D. Brooksbank, C. Brose, N. Bruining, H. Bury, J. Caporale, N. Cattoretti, G. Chabane, N. Chneiweiss, H. Cook, S.A. Curatolo, P. de Jonge, M.I. Deplancke, B. de Witte, P. Dimmeler, S. Draganski, B. Drews, A. Dumbrava, C. Engelhardt, S. Gasser, T. Giamarellos-Bourboulis, E.J. Graff, C. Grün, D. Gut, I.G. Hansson, O. Henshall, D.C. Herland, A. Heutink, P. Heymans, S.R.B. Heyn, H. Huch, M. Huitinga, I. Jackowiak, P. Jongsma, K.R. Journot, L. Junker, J.P. Katz, S. Kehren, J. Kempa, S. Kirchhof, P. Klein, C. Koralewska, N. Korbel, J.O. Kühnemund, M. Lamond, A.I. Lauwers, E. Le Ber, I. Leinonen, V. López-Tobón, A. Lundberg, E. Lunkes, A. Maatz, H. Mann, M. Marelli, L. Matser, V. Matthews, P.M. Mechta-Grigoriou, F. Menon, R. Nielsen, A.F. Pagani, M. Pasterkamp, R.J. Pitkänen, A. Popescu, V. Pottier, C. Puisieux, A. Rademakers, R. Reiling, D. Reiner, O. Remondini, D. Ritchie, C. Rohrer, J.D. Saliba, A.-E. Sanchez-Valle, R. Santosuosso, A. Sauter, A. Scheltema, R.A. Scheltens, P. Schiller, H.B. Schneider, A. Seibler, P. Sheehan-Rooney, K. Shields, D.J. Sleegers, K. Smit, A.B. Smith, K.G.C. Smolders, I. Synofzik, M. Tam, W.L. Teichmann, S.A. Thom, M. Turco, M.Y. van Beusekom, H.M.M. Vandenberghe, R. Van den Hoecke, S. van de Poel, I. van der Ven, A. van der Zee, J. van Lunzen, J. van Minnebruggen, G. van Oudenaarden, A. Van Paesschen, W. van Swieten, J.C. van Vught, R. Verhage, M. Verstreken, P. Villa, C.E. Vogel, J. von Kalle, C. Walter, J. Weckhuysen, S. Weichert, W. Wood, L. Ziegler, A.-G. Zipp, F. LifeTime Community Working Groups

Subjects
ComputingMethodologies_DOCUMENTANDTEXTPROCESSING
Abstract

In this Perspective, owing to an error in the HTML, the surname of author Alejandro López-Tobón of the LifeTime Community Working Groups consortium was indexed as ‘Tobon’ rather than ‘López-Tobón’ and the accents were missing. The HTML version of the original Perspective has been corrected; the PDF and print versions were always correct. © 2021, The Author(s).

Published
2021

9. Clinical and genetic aspects of PCDH19-related epilepsy syndromes and the possible role of PCDH19 mutations in males with autism spectrum disorders

Author

van Harssel, J. J. T., Weckhuysen, S., van Kempen, M. J. A., Hardies, K., Verbeek, N. E., de Kovel, C. G. F., Gunning, W. B., van Daalen, E., de Jonge, M. V., Jansen, A. C., Vermeulen, R. J., Arts, W. F. M., Verhelst, H., Fogarasi, A., de Rijk-van Andel, J. F., Kelemen, A., Lindhout, D., De Jonghe, P., Koeleman, B. P. C., Suls, A., and Brilstra, E. H.

Published
2013
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10. Progressive myoclonic epilepsy as an adult-onset manifestation of Leigh syndrome due to m.14487T>C

Author

Dermaut, B., Seneca, S., Dom, L., Smets, K., Ceulemans, L., Smet, J., De Paepe, B., Tousseyn, S., Weckhuysen, S., Gewillig, M., Pals, P., Parizel, P., De Bleecker, J.L., Boon, P., De Meirleir, L., De Jonghe, P., Van Coster, R., Van Paesschen, W., and Santens, P.

Subjects
Leigh disease -- Genetic aspects, Leigh disease -- Research, Myoclonic epilepsy -- Genetic aspects, Myoclonic epilepsy -- Research, Mitochondrial DNA -- Research, Gene mutations -- Research, Health, Psychology and mental health
Published
2010

11. Polygenic burden in focal and generalized epilepsies

Author

Leu C., Stevelink R., Smith A. W., Goleva S. B., Kanai M., Ferguson L., Campbell C., Kamatani Y., Okada Y., Sisodiya S. M., Cavalleri G. L., Koeleman B. P. C., Lerche H., Jehi L., Davis L. K., Najm I. M., Palotie A., Daly M. J., Busch R. M., Lal D., Feng Y. -C. A., Howrigan D. P., Abbott L. E., Tashman K., Cerrato F., Churchhouse C., Gupta N., Neale B. M., Berkovic S. F., Goldstein D. B., Lowenstein D. H., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Hakonarson H., Heinzen E. L., Helbig I., Kwan P., Marson A. G., Petrovski S., Kamalakaran S., Stewart R., Weckhuysen S., Depondt C., Dlugos D. J., Scheffer I. E., Striano P., Freyer C., Krause R., May P., McKenna K., Regan B. M., Bellows S. T., Bennett C. A., Johns E. M. C., Macdonald A., Shilling H., Burgess R., Weckhuysen D., Bahlo M., O'Brien T. J., Todaro M., Stamberger H., Andrade D. M., Sadoway T. R., Mo K., Krestel H., Gallati S., Papacostas S. S., Kousiappa I., Tanteles G. A., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K. M., Rosenow F., Reif P. S., Knake S., Kunz W. S., Zsurka G., Elger C. E., Bauer J., Rademacher M., Pendziwiat M., Muhle H., Rademacher A., Van Baalen A., Von Spiczak S., Stephani U., Afawi Z., Korczyn A. D., Kanaan M., Canavati C., Kurlemann G., Muller-Schluter K., Kluger G., Hausler M., Blatt I., Lemke J. R., Krey I., Weber Y. G., Wolking S., Becker F., Hengsbach C., Rau S., Maisch A. F., Steinhoff B. J., Schulze-Bonhage A., Schubert-Bast S., Schreiber H., Borggrafe I., Schankin C. J., Mayer T., Korinthenberg R., Brockmann K., Dennig D., Madeleyn R., Kalviainen R., Auvinen P., Saarela A., Linnankivi T., Lehesjoki A. -E., Rees M. I., Chung S. -K., Pickrell W. O., Powell R., Schneider N., Balestrini S., Zagaglia S., Braatz V., Johnson M. R., Auce P., Sills G. J., Baum L. W., Sham P. C., Cherny S. S., Lui C. H. T., Barisic N., Delanty N., Doherty C. P., Shukralla A., McCormack M., El-Naggar H., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Zara F., Iacomino M., Madia F., Vari M. S., Mancardi M. M., Salpietro V., Bisulli F., Tinuper P., Licchetta L., Pippucci T., Stipa C., Muccioli L., Minardi R., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Marini C., Suzuki T., Inoue Y., Yamakawa K., Birute T., Ruta M., Algirdas U., Ruta P., Jurgita G., Ruta S., Sadleir L. G., King C., Mountier E., Caglayan S. H., Arslan M., Yapici Z., Yis U., Topaloglu P., Kara B., Turkdogan D., Gundogdu-Eken A., Bebek N., Ugur-Iseri S., Baykan B., Salman B., Haryanyan G., Yucesan E., Kesim Y., Ozkara C., Sheidley B. R., Shain C., Poduri A., Buono R. J., Ferraro T. N., Sperling M. R., Lo W., Privitera M., French J. A., Schachter S., Kuzniecky R. I., Devinsky O., Hegde M., Khankhanian P., Helbig K. L., Ellis C. A., Spalletta G., Piras F., Gili T., Ciullo V., Leu C., Stevelink R., Smith A.W., Goleva S.B., Kanai M., Ferguson L., Campbell C., Kamatani Y., Okada Y., Sisodiya S.M., Cavalleri G.L., Koeleman B.P.C., Lerche H., Jehi L., Davis L.K., Najm I.M., Palotie A., Daly M.J., Busch R.M., Lal D., Feng Y.-C.A., Howrigan D.P., Abbott L.E., Tashman K., Cerrato F., Churchhouse C., Gupta N., Neale B.M., Berkovic S.F., Goldstein D.B., Lowenstein D.H., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Hakonarson H., Heinzen E.L., Helbig I., Kwan P., Marson A.G., Petrovski S., Kamalakaran S., Stewart R., Weckhuysen S., Depondt C., Dlugos D.J., Scheffer I.E., Striano P., Freyer C., Krause R., May P., McKenna K., Regan B.M., Bellows S.T., Bennett C.A., Johns E.M.C., Macdonald A., Shilling H., Burgess R., Weckhuysen D., Bahlo M., O'Brien T.J., Todaro M., Stamberger H., Andrade D.M., Sadoway T.R., Mo K., Krestel H., Gallati S., Papacostas S.S., Kousiappa I., Tanteles G.A., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K.M., Rosenow F., Reif P.S., Knake S., Kunz W.S., Zsurka G., Elger C.E., Bauer J., Rademacher M., Pendziwiat M., Muhle H., Rademacher A., Van Baalen A., Von Spiczak S., Stephani U., Afawi Z., Korczyn A.D., Kanaan M., Canavati C., Kurlemann G., Muller-Schluter K., Kluger G., Hausler M., Blatt I., Lemke J.R., Krey I., Weber Y.G., Wolking S., Becker F., Hengsbach C., Rau S., Maisch A.F., Steinhoff B.J., Schulze-Bonhage A., Schubert-Bast S., Schreiber H., Borggrafe I., Schankin C.J., Mayer T., Korinthenberg R., Brockmann K., Dennig D., Madeleyn R., Kalviainen R., Auvinen P., Saarela A., Linnankivi T., Lehesjoki A.-E., Rees M.I., Chung S.-K., Pickrell W.O., Powell R., Schneider N., Balestrini S., Zagaglia S., Braatz V., Johnson M.R., Auce P., Sills G.J., Baum L.W., Sham P.C., Cherny S.S., Lui C.H.T., Barisic N., Delanty N., Doherty C.P., Shukralla A., McCormack M., El-Naggar H., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Zara F., Iacomino M., Madia F., Vari M.S., Mancardi M.M., Salpietro V., Bisulli F., Tinuper P., Licchetta L., Pippucci T., Stipa C., Muccioli L., Minardi R., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Marini C., Suzuki T., Inoue Y., Yamakawa K., Birute T., Ruta M., Algirdas U., Ruta P., Jurgita G., Ruta S., Sadleir L.G., King C., Mountier E., Caglayan S.H., Arslan M., Yapici Z., Yis U., Topaloglu P., Kara B., Turkdogan D., Gundogdu-Eken A., Bebek N., Ugur-Iseri S., Baykan B., Salman B., Haryanyan G., Yucesan E., Kesim Y., Ozkara C., Sheidley B.R., Shain C., Poduri A., Buono R.J., Ferraro T.N., Sperling M.R., Lo W., Privitera M., French J.A., Schachter S., Kuzniecky R.I., Devinsky O., Hegde M., Khankhanian P., Helbig K.L., Ellis C.A., Spalletta G., Piras F., Gili T., Ciullo V., Commission of the European Communities, Medical Research Council (MRC), Tumienė, Birutė, Mameniškienė, Rūta, Utkus, Algirdas, Praninskienė, Rūta, Grikinienė, Jurgita, Samaitienė-Aleknienė, Rūta, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Genomics of Neurological and Neuropsychiatric Disorders, University of Helsinki, Helsinki Institute of Life Science HiLIFE, and Department of Medical and Clinical Genetics

Subjects
0301 basic medicine, Male, Multifactorial Inheritance, Epi25 Consortium, Databases, Factual, FEATURES, Genome-wide association study, Epilepsies, 3124 Neurology and psychiatry, Cohort Studies, Epilepsy, 0302 clinical medicine, Cost of Illness, 1ST SEIZURE, HISTORY, genetics, POPULATION, 11 Medical and Health Sciences, education.field_of_study, medicine.diagnostic_test, SCORES, Single Nucleotide, Biobank, 3. Good health, 17 Psychology and Cognitive Sciences, Genetic generalized epilepsy, Epilepsy, Generalized, Female, Partial, Cohort study, Human, medicine.medical_specialty, Population, European Continental Ancestry Group, Clinical Neurology, BIOBANK, Polymorphism, Single Nucleotide, epilepsy, genetic generalized epilepsy, common variant risk, Databases, 03 medical and health sciences, Genetic, Internal medicine, medicine, Journal Article, Genetics, Humans, Genetic Predisposition to Disease, Polymorphism, GENOME-WIDE ASSOCIATION, Generalized epilepsy, education, SEIZURE RECURRENCE, Factual, METAANALYSIS, Genetic testing, Neurology & Neurosurgery, RISK PREDICTION, Generalized, business.industry, 3112 Neurosciences, Common variant risk, Genetic Variation, Original Articles, medicine.disease, Comorbidity, Cost of Illne, Epilepsies, Partial, Genome-Wide Association Study, 030104 developmental biology, Neurology (clinical), Cohort Studie, business, 030217 neurology & neurosurgery
Abstract

See Hansen and Møller (doi:10.1093/brain/awz318) for a scientific commentary on this article. Using polygenic risk scores from a genome-wide association study in generalized and focal epilepsy, Leu et al. reveal a significantly higher genetic burden for epilepsy in multiple cohorts of people with epilepsy compared to population controls. Quantification of common variant burden may be valuable for epilepsy prognosis and treatment., Rare genetic variants can cause epilepsy, and genetic testing has been widely adopted for severe, paediatric-onset epilepsies. The phenotypic consequences of common genetic risk burden for epilepsies and their potential future clinical applications have not yet been determined. Using polygenic risk scores (PRS) from a European-ancestry genome-wide association study in generalized and focal epilepsy, we quantified common genetic burden in patients with generalized epilepsy (GE-PRS) or focal epilepsy (FE-PRS) from two independent non-Finnish European cohorts (Epi25 Consortium, n = 5705; Cleveland Clinic Epilepsy Center, n = 620; both compared to 20 435 controls). One Finnish-ancestry population isolate (Finnish-ancestry Epi25, n = 449; compared to 1559 controls), two European-ancestry biobanks (UK Biobank, n = 383 656; Vanderbilt biorepository, n = 49 494), and one Japanese-ancestry biobank (BioBank Japan, n = 168 680) were used for additional replications. Across 8386 patients with epilepsy and 622 212 population controls, we found and replicated significantly higher GE-PRS in patients with generalized epilepsy of European-ancestry compared to patients with focal epilepsy (Epi25: P = 1.64×10−15; Cleveland: P = 2.85×10−4; Finnish-ancestry Epi25: P = 1.80×10−4) or population controls (Epi25: P = 2.35×10−70; Cleveland: P = 1.43×10−7; Finnish-ancestry Epi25: P = 3.11×10−4; UK Biobank and Vanderbilt biorepository meta-analysis: P = 7.99×10−4). FE-PRS were significantly higher in patients with focal epilepsy compared to controls in the non-Finnish, non-biobank cohorts (Epi25: P = 5.74×10−19; Cleveland: P = 1.69×10−6). European ancestry-derived PRS did not predict generalized epilepsy or focal epilepsy in Japanese-ancestry individuals. Finally, we observed a significant 4.6-fold and a 4.5-fold enrichment of patients with generalized epilepsy compared to controls in the top 0.5% highest GE-PRS of the two non-Finnish European cohorts (Epi25: P = 2.60×10−15; Cleveland: P = 1.39×10−2). We conclude that common variant risk associated with epilepsy is significantly enriched in multiple cohorts of patients with epilepsy compared to controls—in particular for generalized epilepsy. As sample sizes and PRS accuracy continue to increase with further common variant discovery, PRS could complement established clinical biomarkers and augment genetic testing for patient classification, comorbidity research, and potentially targeted treatment.

Published
2019

12. Bi-allelic GAD1 variants cause a neonatal onset syndromic developmental and epileptic encephalopathy

Author

Chatron, N, Becker, F, Morsy, H, Schmidts, M, Hardies, K, Tuysuz, B, Roselli, S, Najafi, M, Alkaya, DU, Ashrafzadeh, F, Nabil, A, Omar, T, Maroofian, R, Karimiani, EG, Hussien, H, Kok, F, Ramos, L, Gunes, N, Bilguvar, K, Labalme, A, Alix, E, Sanlaville, D, de Bellescize, J, Poulat, A-L, EuroEpinomics-RES consortium AR working group, Moslemi, A-R, Lerche, H, May, P, Lesca, G, Weckhuysen, S, Tajsharghi, H, Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center], and University of Luxembourg: High Performance Computing - ULHPC [research center]

Subjects
cleft palate, Epilepsy, Hypsarrhythmia, omphalocele, GAD1, Suppression-burs, Developmental Syndrome, Genetics & genetic processes [F10] [Life sciences], Génétique & processus génétiques [F10] [Sciences du vivant], arthrogryposis
Abstract

Developmental and Epileptic Encephalopathies are a heterogeneous group of early-onset epilepsy syndromes dramatically impairing neurodevelopment. Modern genomic technologies have revealed a number of monogenic origins and opened the door to therapeutic hopes. Here we describe a new syndromic developmental and epileptic encephalopathies caused by bi-allelic loss of function variants in GAD1, as presented by eleven patients from 6 independent consanguineous families. Seizure onset occurred in the two first months of life in all patients. All 10 patients from whom early disease history was available, presented seizure onset in the first month of life, mainly consisting of epileptic spasms or myoclonic seizures. Early electroencephalography showed suppression-burst or pattern of burst attenuation or hypsarrhythmia if only recorded in the post-neonatal period. Eight patients had joint contractures and/or pes equinovarus. Seven patients presented a cleft palate and two also had an omphalocele, reproducing the phenotype of the knockout Gad1-/- mouse model. Four patients died before four years of age. GAD1 encodes the glutamate decarboxylase enzyme GAD67, a critical actor of the γ-aminobutyric acid (GABA) metabolism as it catalyzes the decarboxylation of glutamic acid to form GABA. Our findings evoke a novel syndrome related to GAD67 deficiency, characterized by the unique association of developmental and epileptic encephalopathies, cleft palate, joint contractures and/or omphalocele.

Published
2020

13. Gene family information facilitates variant interpretation and identification of disease-associated genes in neurodevelopmental disorders

Author

Lal, D., May, P., Perez-Palma, E., Samocha, K. E., Kosmicki, J. A., Robinson, E. B., Moller, R. S., Krause, R., Nurnberg, P., Weckhuysen, S., De Jonghe, P., Guerrini, R., Niestroj, L. M., Du, J., Marini, C., Balling, R., Barisic, N., Baulac, S., Caglayan, H., Craiu, D. C., Depienne, C., Helbig, I., Hjalgrim, H., Hoffman-Zacharska, D., Jahn, J., Klein, K. M., Koeleman, B. P. C., Komarek, V., Leguern, E., Lehesjoki, A. -E., Lemke, J. R., Lerche, H., Linnankivi, T., Muhle, H., Pal, D. K., Palotie, A., Rosenow, F., Schubert-Bast, S., Selmer, K., Serratosa, J. M., Stephani, U., Sterbova, K., Striano, P., Suls, A., Talvik, T., Von Spiczak, S., Weber, Y. G., Zara, F., Ware, J. S., Kurki, M., Gormley, P., Tang, S., Wu, S., Biskup, S., Poduri, A., Neubauer, B. A., Helbig, K. L., Majithia, A. R., Daly, M. J., EuroEPINOMICS-RES Consortium, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Genomics of Neurological and Neuropsychiatric Disorders, University of Helsinki, Department of Medical and Clinical Genetics, Medicum, HUS Helsinki and Uusimaa Hospital District, and Wellcome Trust

Subjects
Candidate gene, lcsh:QH426-470, Developmental Disabilities, Mutation, Missense, Sequence Homology, lcsh:Medicine, ORTHOLOGS, Computational biology, Conservation, Gene family, Missense variants, Neurodevelopmental disorders, Paralogs, Biology, 03 medical and health sciences, MULTIPLE SEQUENCE ALIGNMENT, PHYLOGENETIC TREES, Genetics, Missense mutation, Ensembl, Molecular Biology, Gene, Genetics (clinical), Phylogeny, 030304 developmental biology, 0303 health sciences, 0604 Genetics, Phylogenetic tree, Research, 030305 genetics & heredity, lcsh:R, 1184 Genetics, developmental biology, physiology, 1103 Clinical Sciences, EuroEPINOMICS-RES Consortium, Human genetics, lcsh:Genetics, Genetic Loci, DE-NOVO MUTATIONS, Multigene Family, Molecular Medicine, Human medicine, Orthologous Gene, Genome-Wide Association Study
Abstract

Background Classifying pathogenicity of missense variants represents a major challenge in clinical practice during the diagnoses of rare and genetic heterogeneous neurodevelopmental disorders (NDDs). While orthologous gene conservation is commonly employed in variant annotation, approximately 80% of known disease-associated genes belong to gene families. The use of gene family information for disease gene discovery and variant interpretation has not yet been investigated on a genome-wide scale. We empirically evaluate whether paralog-conserved or non-conserved sites in human gene families are important in NDDs. Methods Gene family information was collected from Ensembl. Paralog-conserved sites were defined based on paralog sequence alignments; 10,068 NDD patients and 2078 controls were statistically evaluated for de novo variant burden in gene families. Results We demonstrate that disease-associated missense variants are enriched at paralog-conserved sites across all disease groups and inheritance models tested. We developed a gene family de novo enrichment framework that identified 43 exome-wide enriched gene families including 98 de novo variant carrying genes in NDD patients of which 28 represent novel candidate genes for NDD which are brain expressed and under evolutionary constraint. Conclusion This study represents the first method to incorporate gene family information into a statistical framework to interpret variant data for NDDs and to discover new NDD-associated genes.

Published
2020

14. Antiepileptic Drug Teratogenicity and De Novo Genetic Variation Load

Author

Perucca, P., Anderson, A., Jazayeri, D., Hitchcock, A., Graham, J., Todaro, M., Tomson, T., Battino, D., Perucca, E., Ferri, M. M., Rochtus, A., Lagae, L., Canevini, M. P., Zambrelli, E., Campbell, E., Koeleman, B. P. C., Scheffer, I. E., Berkovic, S. F., Kwan, P., Sisodiya, S. M., Goldstein, D. B., Petrovski, S., Craig, J., Vajda, F. J. E., O'Brien, T. J., Leu, C., Wolking, S., Peter, S., Weber, Y. G., Weckhuysen, S., Moller, R. S., Nikanorova, M., Muhle, H., Avbersek, A., Heggeli, K., Striano, P., Gambardella, A., Langley, S. R., Krenn, M., Klein, K. M., Mccormack, M., Borghei, M., Willis, J., Berghuis, B., Jorgensen, A., Auce, P., Francis, B., Srivastava, P., Sonsma, A. C. M., Sander, Jw., Zimprich, F., Depondt, C., Johnson, M. M., Marson, A. G., Sills, G. J., Kunz, W. S., Cavalleri, G. L., Delanty, N., Zara, F., Krause, R., Lerche, H., Andrade, D., Sen, A., Bazil, C. W., Boland, M., Cavalleri, G., Choi, H., Colombo, S., Costello, D., Devinsky, O., Doherty, C. P., Dugan, P., Frankel, W., Heinzen, E., Johnson, M., Marson, T., Mikati, M., Ottman, R., Pandolfo, M., Radtke, R., Rees, M., Sadoway, T., Valley, N., Walley, N., Wood, N., and Zuberi, S.

Subjects
Adult, Male, 0301 basic medicine, Pediatrics, medicine.medical_specialty, DNA Copy Number Variations, Polymorphism, Single Nucleotide, Paternal Age, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, Pregnancy, Polymorphism (computer science), medicine, Humans, Exome, Copy-number variation, Indel, business.industry, Confounding, Infant, Newborn, Abnormalities, Drug-Induced, Genetic Variation, DNA, medicine.disease, Genetic load, Exact test, Teratogens, 030104 developmental biology, Neurology, Anticonvulsants, Female, Neurology (clinical), Genetic Load, business, 030217 neurology & neurosurgery
Abstract

OBJECTIVE: The mechanisms by which antiepileptic drugs (AEDs) cause birth defects (BDs) are unknown. Data suggest that AED-induced BDs may result from a genome-wide increase of de novo variants in the embryo, a mechanism which we investigated. METHODS: Whole-exome sequencing data from child-parent trios were interrogated for de novo single-nucleotide variants/indels (dnSNVs/indels) and copy number variants (dnCNVs). Generalized linear models were applied to assess de novo variant burdens in: children exposed prenatally to AEDs (AED-exposed children) vs children without BDs not exposed prenatally to AEDs (AED-unexposed unaffected children), and AED-exposed children with BDs vs those without BDs, adjusting for confounders. Fisher's exact test was used to compare categorical data. RESULTS: 67 child-parent trios were included: 10 with AED-exposed children with BDs; 46 with AED-exposed unaffected children; 11 with AED-unexposed unaffected children. The dnSNV/indel burden did not differ between AED-exposed children and AED-unexposed unaffected children [median dnSNV/indel number/child (range): 3 (0-7) vs 3 (1-5), p = 0.50]. Among AED-exposed children, there were no significant differences between those with BDs and those unaffected. Likely deleterious dnSNVs/indels were detected in 9/67 (13%) children, none of whom had BDs. The proportion of cases harbouring likely deleterious dnSNVs/indels did not differ significantly between AED-unexposed and AED-exposed children. The dnCNV burden was not associated with AED exposure or birth outcome. INTERPRETATION: Our study indicates that prenatal AED exposure does not increase the burden of de novo variants, and that this mechanism is not a major contributor to AED-induced BDs. These results can be incorporated in routine patient counselling. This article is protected by copyright. All rights reserved.

Published
2020

15. De novo variants in neurodevelopmental disorders with epilepsy

Author

Heyne, H. O., Singh, T., Stamberger, H., Abou Jamra, R., Caglayan, H., Craiu, D., De Jonghe, P., Guerrini, R., Helbig, K. L., Koeleman, B. P. C., Kosmicki, J. A., Linnankivi, T., May, P., Muhle, H., Moller, R. S., Neubauer, B. A., Palotie, A., Pendziwiat, M., Striano, P., Tang, S., Wu, S., Afawi, Z., De Kovel, C., Dimova, P., Djemie, T., Endziniene, M., Hoffman-Zacharska, D., Jahn, J., Korff, C., Lehesjoki, A. -E., Marini, C., Muller, S. H., Pal, D., Schwarz, N., Selmer, K., Serratosa, J., Stephani, U., Sterbova, K., Suls, A., Syrbe, S., Talvik, I., Von Spiczak, S., Zara, F., Poduri, A., Weber, Y. G., Weckhuysen, S., Sisodiya, S. M., Daly, M. J., Helbig, I., Lal, D., Lemke, J. R., Children's Hospital, Lastenneurologian yksikkö, Clinicum, University of Helsinki, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Research Programme for Molecular Neurology, Neuroscience Center, HUS Children and Adolescents, Genomics of Neurological and Neuropsychiatric Disorders, Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center], University of Luxembourg: High Performance Computing - ULHPC [research center], Korff, Christian, and EuroEPINOMICS RES Consortium

Subjects
Exome/genetics, Male, 0301 basic medicine, ILAE COMMISSION, Joint analysis, Neurodevelopmental Disorders/genetics, Bioinformatics, Epilepsy/genetics, Epilepsy, 0302 clinical medicine, Intellectual disability, SEQUENCE VARIANTS, Missense mutation, Epilepsy is a frequent feature, Exome, TERMINOLOGY, Disease gene, 0303 health sciences, ddc:618, medicine.diagnostic_test, Genetic Predisposition to Disease/genetics, Neurodevelopmental disorders, 1184 Genetics, developmental biology, physiology, HUMAN-DISEASE, PREVALENCE, 3. Good health, Genetic Variation/genetics, De novo variants, Female, Genetics & genetic processes [F10] [Life sciences], Génétique & processus génétiques [F10] [Sciences du vivant], Genetic Testing/methods, Disease Association, Biology, CLASSIFICATION, 03 medical and health sciences, Intellectual Disability, Genetics, medicine, Humans, Genetic Predisposition to Disease, Genetic Testing, Limited evidence, 030304 developmental biology, Genetic testing, business.industry, MUTATIONS, AUTISM SPECTRUM DISORDER, Genetic Variation, medicine.disease, Intellectual Disability/genetics, 030104 developmental biology, Neurodevelopmental Disorders, epilepsy, KCNQ2 ENCEPHALOPATHY, Human medicine, 3111 Biomedicine, business, Genetic diagnosis, 030217 neurology & neurosurgery
Abstract

Epilepsy is a frequent feature of neurodevelopmental disorders (NDD) but little is known about genetic differences between NDD with and without epilepsy. We analyzed de novo variants (DNV) in 6753 parent-offspring trios ascertained for different NDD. In the subset of 1942 individuals with NDD with epilepsy, we identified 33 genes with a significant excess of DNV, of which SNAP25 and GABRB2 had previously only limited evidence for disease association. Joint analysis of all individuals with NDD also implicated CACNA1E as a novel disease gene. Comparing NDD with and without epilepsy, we found missense DNV, DNV in specific genes, age of recruitment and severity of intellectual disability to be associated with epilepsy. We further demonstrate to what extent our results impact current genetic testing as well as treatment, emphasizing the benefit of accurate genetic diagnosis in NDD with epilepsy.

Published
2018

18. The landscape of epilepsy-related GATOR1 variants (vol 21, pg 398, 2019)

Author

Baldassari, S., Picard, F., Verbeek, N.E., Kempen, M. van, Brilstra, E.H., Lesca, G., Conti, V., Guerrini, R., Bisulli, F., Licchetta, L., Pippucci, T., Tinuper, P., Hirsch, E., Saint Martin, A. de, Chelly, J., Rudolf, G., Chipaux, M., Ferrand-Sorbets, S., Dorfmuller, G., Sisodiya, S., Balestrini, S., Schoeler, N., Hernandez-Hernandez, L., Krithika, S., Oegema, R., Hagebeuk, E., Gunning, B., Deckers, C., Berghuis, B., Wegner, I., Niks, E.H., Jansen, F.E., Braun, K., Jong, D. de, Rubboli, G., Talvik, I., Sander, V., Uldall, P., Jacquemont, M.L., Nava, C., Leguern, E., Julia, S., Gambardella, A., d'Orsi, G., Crichiutti, G., Faivre, L., Darmency, V., Benova, B., Krsek, P., Biraben, A., Lebre, A.S., Jennesson, M., Sattar, S., Marchal, C., Nordli, D.R., Lindstrom, K., Striano, P., Lomax, L.B., Kiss, C., Bartolomei, F., Lepine, A.F., Schoonjans, A.S., Stouffs, K., Jansen, A., Panagiotakaki, E., Ricard-Mousnier, B., Thevenon, J., Bellescize, J. de, Catenoix, H., Dorn, T., Zenker, M., Muller-Schluter, K., Brandt, C., Krey, I., Polster, T., Wolff, M., Balci, M., Rostasy, K., Achaz, G., Zacher, P., Becher, T., Cloppenborg, T., Yuskaitis, C.J., Weckhuysen, S., Poduri, A., Lemke, J.R., Moller, R.S., and Baulac, S.

Published
2019

19. Clinical spectrum of STX1B-related epileptic disorders

Author

Wolking, S, May, P, Mei, D, Møller, RS, Balestrini, S, Helbig, KL, Altuzarra, CD, Chatron, N, Kaiwar, C, Stöhr, K, Widdess-Walsh, P, Mendelsohn, BA, Numis, A, Cilio, MR, Van Paesschen, W, Svendsen, LL, Oates, S, Hughes, E, Goyal, S, Brown, K, Saenz, M, Dorn, T, Muhle, H, Pagnamenta, AT, Vavoulis, DV, Knight, SJL, Taylor, JC, Canevini, MP, Darra, F, Gavrilova, RH, Powis, Z, Tang, S, Marquetand, J, Armstrong, M, McHale, D, Klee, EW, Kluger, GJ, Lowenstein, DH, Weckhuysen, S, Pal, DK, Helbig, I, Guerrini, R, Thomas, RH, Rees, MI, Lesca, G, Sisodiya, SM, Weber, YG, Lal, D, Marini, C, Lerche, H, and Schubert, J

Subjects
Male, Drug Resistant Epilepsy, Adolescent, Developmental Disabilities, Mutation, Missense, Clinical Neurology, FEBRILE SEIZURES PLUS, GENERALIZED EPILEPSY, Syntaxin 1, PROTEIN, Article, Seizures, Febrile, Young Adult, Loss of Function Mutation, Humans, HETEROGENEITY, SCN1A, Child, Epilepstic disorders, Science & Technology, Learning Disabilities, Infant, Newborn, High-Throughput Nucleotide Sequencing, Infant, GENETIC-VARIATION, Electroencephalography, Sequence Analysis, DNA, SODIUM-CHANNEL, Epilepstic disorders, STX1B, Phenotype, DE-NOVO MUTATIONS, Child, Preschool, ONSET, STXBP1, STX1B, Anticonvulsants, Female, Human medicine, Epilepsies, Partial, Neurosciences & Neurology, Epileptic Syndromes, Life Sciences & Biomedicine
Abstract

OBJECTIVE: The aim of this study was to expand the spectrum of epilepsy syndromes related to STX1B, encoding the presynaptic protein syntaxin-1B, and establish genotype-phenotype correlations by identifying further disease-related variants. METHODS: We used next-generation sequencing in the framework of research projects and diagnostic testing. Clinical data and EEGs were reviewed, including already published cases. To estimate the pathogenicity of the variants, we used established and newly developed in silico prediction tools. RESULTS: We describe 17 new variants in STX1B, which are distributed across the whole gene. We discerned 4 different phenotypic groups across the newly identified and previously published patients (49 patients in 23 families): (1) 6 sporadic patients or families (31 affected individuals) with febrile and afebrile seizures with a benign course, generally good drug response, normal development, and without permanent neurologic deficits; (2) 2 patients with genetic generalized epilepsy without febrile seizures and cognitive deficits; (3) 13 patients or families with intractable seizures, developmental regression after seizure onset and additional neuropsychiatric symptoms; (4) 2 patients with focal epilepsy. More often, we found loss-of-function mutations in benign syndromes, whereas missense variants in the SNARE motif of syntaxin-1B were associated with more severe phenotypes. CONCLUSION: These data expand the genetic and phenotypic spectrum of STX1B-related epilepsies to a diverse range of epilepsies that span the International League Against Epilepsy classification. Variants in STX1B are protean and contribute to many different epilepsy phenotypes, similar to SCN1A, the most important gene associated with fever-associated epilepsies. ispartof: NEUROLOGY vol:92 issue:11 pages:E1238-E1249 ispartof: location:United States status: published

Published
2019

20. Diagnostic implications of genetic copy number variation in epilepsy plus

Author

Coppola, A., Cellini, E., Stamberger, H., Saarentaus, E., Cetica, V., Lal, D., Djemie, T., Bartnik-Glaska, M., Ceulemans, B., Helen Cross, J., Deconinck, T., Masi, S. D., Dorn, T., Guerrini, R., Hoffman-Zacharska, D., Kooy, F., Lagae, L., Lench, N., Lemke, J. R., Lucenteforte, E., Madia, F., Mefford, H. C., Morrogh, D., Nuernberg, P., Palotie, A., Schoonjans, A. -S., Striano, P., Szczepanik, E., Tostevin, A., Vermeesch, J. R., Van Esch, H., Van Paesschen, W., Waters, J. J., Weckhuysen, S., Zara, F., Jonghe, P. D., Sisodiya, S. M., Marini, C., Lehesjioki, A. -E., Craiu, D., Talvik, T., Caglayan, H., Serratosa, J., Sterbova, K., Moller, R. S., Hjalgrim, H., Lerche, H., Weber, Y., Helbig, I., von Spiczak, S., Barba, C., Bogaerts, A., Boni, A., Galizia, E. C., Chiari, S., Di Gacomo, G., Ferrari, A., Guarducci, S., Giglio, S., Holmgren, P., Leu, C., Melani, F., Novara, F., Pantaleo, M., Peeters, E., Pisano, T., Rosati, A., Sander, J., Schoeler, N., Stankiewicz, P., Striano, S., Suls, A., Traverso, M., Vandeweyer, G., Van Dijck, A., Zuffardi, O., Coppola, Antonietta, Cellini, Elena, Stamberger, Hannah, Saarentaus, Elmo, Cetica, Valentina, Lal, Denni, Djémié, Tania, Bartnik-Glaska, Magdalena, Ceulemans, Berten, Helen Cross, J., Deconinck, Tine, Masi, Salvatore De, Dorn, Thoma, Guerrini, Renzo, Hoffman-Zacharska, Dorotha, Kooy, Frank, Lagae, Lieven, Lench, Nichola, Lemke, Johannes R., Lucenteforte, Ersilia, Madia, Francesca, Mefford, Heather C., Morrogh, Deborah, Nuernberg, Peter, Palotie, Aarno, Schoonjans, An-Sofie, Striano, Pasquale, Szczepanik, Elzbieta, Tostevin, Anna, Vermeesch, Joris R., Van Esch, Hilde, Van Paesschen, Wim, Waters, Jonathan J, Weckhuysen, Sarah, Zara, Federico, Jonghe, Peter De, Sisodiya, Sanjay M., Marini, Carla, Lehesjioki, Anna-Elina, Craiu, Dana, Talvik, Tiina, Caglayan, Hande, Serratosa, Jose, Sterbova, Katalin, Møller, Rikke S., Hjalgrim, Helle, Lerche, Holger, Weber, Yvonne, Helbig, Ingo, von Spiczak, Sarah, Barba, Carmen, Bogaerts, Anneleen, Boni, Antonella, Galizia, Elisabeth Caruana, Chiari, Sara, Di Gacomo, Gianpiero, Ferrari, Annarita, Guarducci, Silvia, Giglio, Sabrina, Holmgren, Philip, Leu, Costin, Melani, Federico, Novara, Francesca, Pantaleo, Marilena, Peeters, Elke, Pisano, Tiziana, Rosati, Anna, Sander, Josemir, Schoeler, Natasha, Stankiewicz, Pawel, Striano, Salvatore, Suls, Arvid, Traverso, Monica, Vandeweyer, Geert, Van Dijck, Anke, and Zuffardi, Orsetta

Subjects
epilepsy gene, Epilepsy, DNA Copy Number Variations, Genotype, Comorbidity, array CGH, copy number variants, epilepsy genes, SNP array, Phenotype, Neurology, mental disorders, Full‐length Original Research, Humans, copy number variant, Genetic Predisposition to Disease, Neurology (clinical)
Abstract

Summary Objective Copy number variations (CNVs) represent a significant genetic risk for several neurodevelopmental disorders including epilepsy. As knowledge increases, reanalysis of existing data is essential. Reliable estimates of the contribution of CNVs to epilepsies from sizeable populations are not available. Methods We assembled a cohort of 1255 patients with preexisting array comparative genomic hybridization or single nucleotide polymorphism array based CNV data. All patients had “epilepsy plus,” defined as epilepsy with comorbid features, including intellectual disability, psychiatric symptoms, and other neurological and nonneurological features. CNV classification was conducted using a systematic filtering workflow adapted to epilepsy. Results Of 1097 patients remaining after genetic data quality control, 120 individuals (10.9%) carried at least one autosomal CNV classified as pathogenic; 19 individuals (1.7%) carried at least one autosomal CNV classified as possibly pathogenic. Eleven patients (1%) carried more than one (possibly) pathogenic CNV. We identified CNVs covering recently reported (HNRNPU) or emerging (RORB) epilepsy genes, and further delineated the phenotype associated with mutations of these genes. Additional novel epilepsy candidate genes emerge from our study. Comparing phenotypic features of pathogenic CNV carriers to those of noncarriers of pathogenic CNVs, we show that patients with nonneurological comorbidities, especially dysmorphism, were more likely to carry pathogenic CNVs (odds ratio = 4.09, confidence interval = 2.51‐6.68; P = 2.34 × 10−9). Meta‐analysis including data from published control groups showed that the presence or absence of epilepsy did not affect the detected frequency of CNVs. Significance The use of a specifically adapted workflow enabled identification of pathogenic autosomal CNVs in 10.9% of patients with epilepsy plus, which rose to 12.7% when we also considered possibly pathogenic CNVs. Our data indicate that epilepsy with comorbid features should be considered an indication for patients to be selected for a diagnostic algorithm including CNV detection. Collaborative large‐scale CNV reanalysis leads to novel declaration of pathogenicity in unexplained cases and can promote discovery of promising candidate epilepsy genes.

Published
2019

21. A genome-wide association study of sodium levels and drug metabolism in an epilepsy cohort treated with carbamazepine and oxcarbazepine

Author

Berghuis, B., Stapleton, C., Sonsma, A. C. M., Hulst, J., de Haan, G. -J., Lindhout, D., Demurtas, R., Krause, R., Depondt, C., Kunz, W. S., Zara, F., Striano, P., Craig, J., Auce, P., Marson, A. G., Stefansson, H., O'Brien, T. J., Johnson, M. R., Sills, G. J., Wolking, S., Lerche, H., Sisodiya, S. M., Sander, J. W., Cavalleri, G. L., Koeleman, B. P. C., Mccormack, M., Avbersek, A., Leu, C., Heggeli, K., Willis, J., Speed, D., Sargsyan, N., Chinthapalli, K., Borghei, M., Coppola, A., Gambardella, A., Becker, F., Rau, S., Hengsbach, C., Weber, Y. G., Delanty, N., Campbell, E., Gudmundsson, L. J., Ingason, A., Stefansson, K., Schneider, R., Balling, R., Francis, B., Jorgensen, A., Morris, A., Langley, S., Srivastava, P., Brodie, M., Todaro, M., Petrovski, S., Hutton, J., Zimprich, F., Krenn, M., Muhle, H., Martin Klein, K., Moller, R., Nikanorova, M., Weckhuysen, S., Rener-Primec, Z., Berghuis, Bianca, Stapleton, Caragh, Sonsma, Anja C. M., Hulst, Janic, de Haan, Gerrit-Jan, Lindhout, Dick, Demurtas, Rita, Krause, Roland, Depondt, Chantal, Kunz, Wolfram S., Zara, Federico, Striano, Pasquale, Craig, John, Auce, Paul, Marson, Anthony G., Stefansson, Hreinn, O'Brien, Terence J., Johnson, Michael R., Sills, Graeme J., Wolking, Stefan, Lerche, Holger, Sisodiya, Sanjay M., Sander, Josemir W., Cavalleri, Gianpiero L., Koeleman, Bobby P. C., Mccormack, Mark, Weckhuysen, Sarah, EpiPGX Consortium, Imperial College Healthcare NHS Trust- BRC Funding, and Commission of the European Communities

Subjects
medicine.medical_specialty, hyponatremia, Clinical Neurology, Gastroenterology, 03 medical and health sciences, Epilepsy, 0302 clinical medicine, adverse effects, antiepileptic drugs, EpiPGX Consortium, GWAS, antiepileptic drug, Internal medicine, adverse effect, medicine, Oxcarbazepine, Adverse effect, 030304 developmental biology, 0303 health sciences, business.industry, Généralités, Carbamazepine, medicine.disease, 3. Good health, Neurology, Cohort, Full‐length Original Research, Phenobarbital, Human medicine, Neurology (clinical), Hyponatremia, business, 030217 neurology & neurosurgery, Drug metabolism, medicine.drug
Abstract

Objective: To ascertain the clinical and genetic factors contributing to carbamazepine- and oxcarbazepine-induced hyponatremia (COIH), and to carbamazepine (CBZ) metabolism, in a retrospectively collected, cross-sectional cohort of people with epilepsy. Methods: We collected data on serum sodium levels and antiepileptic drug levels in people with epilepsy attending a tertiary epilepsy center while on treatment with CBZ or OXC. We defined hyponatremia as Na+ ≤134 mEq/L. We estimated the CBZ metabolic ratio defined as the log transformation of the ratio of metabolite CBZ-diol to unchanged drug precursor substrate as measured in serum. Results: Clinical and genetic data relating to carbamazepine and oxcarbazepine trials were collected in 1141 patients. We did not observe any genome-wide significant associations with sodium level in a linear trend or hyponatremia as a dichotomous trait. Age, sex, number of comedications, phenytoin use, phenobarbital use, and sodium valproate use were significant predictors of CBZ metabolic ratio. No genome-wide significant associations with CBZ metabolic ratio were found. Significance: Although we did not detect a genetic predictor of hyponatremia or CBZ metabolism in our cohort, our findings suggest that the determinants of CBZ metabolism are multifactorial., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2019

22. Exon-disrupting deletions ofNRXN1in idiopathic generalized epilepsy

Author

Møller, R.S., Weber, Y.G., Klitten, L.L., Trucks, H., Muhle, H., Kunz, W.S., Mefford, H.C., Franke, A., Kautza, M., Wolf, P., Dennig, D., Schreiber, S., Rückert, I.M., Wichmann, H.E., Ernst, J.P., Schurmann, C., Grabe, H.J., Tommerup, N., Stephani, U., Lerche, H., Hjalgrim, H., Helbig, I., Sander, T., Zimprich, F., Mörzinger, M., Feucht, M., Suls, A., Weckhuysen, S., Claes, L., Deprez, L., Smets, K., Van Dyck, T., Deconinck, T., De Jonghe, P., Velizarova, R., Dimova, P., Radionova, M., Tournev, I., Kancheva, D., Kaneva, R., Jordanova, A., Kjelgaard, D.B., Lehesjoki, A.E., Siren, A., Baulac, S., Leguern, E., Von Spiczak, S., Ostertag, P., Leber, M., Leu, C., Toliat, M.R., Nürnberg, P., Hempelmann, A., Rüschendorf, F., Elger, C.E., Kleefuß Lie, A.A., Surges, R., Gaus, V., Janz, D., Schmitz, B., Klein, K.M., Reif, P.S., Oertel, W.H., Hamer, H.M., Rosenow, F., Becker, F., Marini, C., Guerrini, R., Mei, D., Norci, V., Zara, F., Striano, P., Robbiano, A., Pezzella, M., Bianchi, A., Gambardella, A., Tinuper, P., La Neve, A., Capovilla, G., Vigliano, P., Crichiutti, G., Vanadia, F., Vignoli, A., Coppola, A., Striano, S., Giallonardo, M.T., Franceschetti, S., Belcastro, V., Benna, P., Coppola, G., De Palo, A., Ferlazzo, E., Vecchi, M., Martinelli, V., Bisulli, F., Beccaria, F., Del Giudice, E., Mancardi, M., Stranci, G., Scabar, A., Gobbi, G., Giordano, I., Koeleman, B.P.C., De Kovel, C., Lindhout, D., De Haan, G.J., Ozbeck, U., Bebek, N., Baykan, B., Ozdemir, O., Ugur, S., Kocasoy Orhan, E., Yücesan, E., Cine, N., Gokyigit, A., Gurses, C., Gul, G., Yapici, Z., Ozkara, C., Caglayan, H., Yalcin, O., Yalcin, D., Turkdogan, D., Dizdarer, G., Agan, K., R. S. Møller, Y. G. Weber, L. L. Klitten, H. Truck, H. Muhle, W. S. Kunz, H. C. Mefford, A. Franke, M. Kautza, P. Wolf, D. Dennig, S. Schreiber, I. Rückert, H. Wichmann, J. P. Ernst, C. Schurmann, H. J. Grabe, N. Tommerup, U. Stephani, H. Lerche, H. Hjalgrim, I. Helbig, T. Sander, P. Tinuper, F. Bisulli, EPICURE Consortium, Suls, Arvid, Weckhuysen, Sarah, Claes, Godelieve, Deprez, Liesbet, Smets, Katrien, Van Dyck, Tine, Deconinck, Tine, De Jonghe, Peter, Jordanova, Albena, Møller, R, Weber, Yg, Klitten, Ll, Trucks, H, Muhle, H, Kunz, W, Mefford, Hc, Franke, A, Kautza, M, Wolf, P, Dennig, D, Schreiber, S, Rückert, Im, Wichmann, He, Ernst, Jp, Schurmann, C, Grabe, Hj, Tommerup, N, Stephani, U, Lerche, H, Hjalgrim, H, Helbig, I, Sander, T, Epicure, Consortium, DEL GIUDICE, Ennio, Coppola, Antonietta, and YÜCESAN, EMRAH

Subjects
Male, Idiopathic generalized epilepsy, Neuronal, Idiopathic Generalized Epilepsy, 1q21, 1 Microdeletion, Two-hit Hypothesis, Nrxn1, Neuropsychological Tests, Immunoglobulin E, Cell Adhesion Molecules, Neuronal/genetics, Adult, Age of Onset, Anticonvulsant, Exon, 1q21.1 microdeletion, Exons/genetics, Odds Ratio, Nerve Tissue Proteins/genetics, Copy-number variation, Valproic Acid/therapeutic use, Age of Onset, Neural Cell Adhesion Molecules, genetics, DNA Copy Number Variations, Electroencephalography, Epilepsy, Genetics, biology, Triazines, Anticonvulsants/therapeutic use, Electroencephalography, genetics, Family, Female, Fructose, Exons, Middle Aged, Settore MED/39 - Neuropsichiatria Infantile, Pedigree, therapeutic use, Valproic Acid, Neurology, Settore MED/26 - Neurologia, Anticonvulsants, Epilepsy, Generalized, Female, Adult, Case-Control Studies, Cell Adhesion Molecules, Neuronal, DNA Copy Number Variations, Family, Fructose, Gene Deletion, Genotype, Humans, Infant, Microarray Analysis, Nerve Tissue Proteins, Valproic Acid, analogs /&/ derivatives/therapeutic use, Gene Deletion, Genotype, Humans, Infant, Male, Microarray Analysis, Middle Aged, Nerve Tissue Protein, therapeutic use, Case-Control Studies, Cell Adhesion Molecule, drug therapy/genetics/psychology, Exon, genetics, Neuropsychological Tests, Odds Ratio, Pedigree, Triazine, Lamotrigine, NRXN1, Topiramate, Epilepsy, Generalized/drug therapy, medicine, Allele, Biology, Gene, Generalized, Point mutation, Calcium-Binding Proteins, Odds ratio, medicine.disease, Triazines/therapeutic use, Settore MED/03 - Genetica Medica, therapeutic use, biology.protein, Fructose/analogs & derivatives, Human medicine, Neurology (clinical), Two-hit hypothesis
Abstract

Summary Purpose Neurexins are neuronal adhesion molecules located in the presynaptic terminal, where they interact with postsynaptic neuroligins to form a transsynaptic complex required for efficient neurotransmission in the brain. Recently, deletions and point mutations of the neurexin 1 (NRXN1) gene have been associated with a broad spectrum of neuropsychiatric disorders. This study aimed to investigate if NRXN1 deletions also increase the risk of idiopathic generalized epilepsies (IGEs). Methods We screened for deletions involving the NRXN1 gene in 1,569 patients with IGE and 6,201 controls using high-density oligonucleotide microarrays. Key Findings We identified exon-disrupting deletions of NRXN1 in 5 of 1,569 patients with IGE and 2 of 6,201 control individuals (p = 0.0049; odds ratio (OR) 9.91, 95% confidence interval (CI) 1.92–51.12). A complex familial segregation pattern in the IGE families was observed, suggesting that heterozygous NRXN1 deletions are susceptibility variants. Intriguingly, we identified a second large copy number variant in three of five index patients, supporting an involvement of heterogeneous susceptibility alleles in the etiology of IGE. Significance We conclude that exon-disrupting deletions of NRXN1 represent a genetic risk factor in the genetically complex predisposition of common IGE syndromes.

Published
2013

23. CLINICAL HETEROGENEITY AND ITS POTENTIAL THERAPEUTIC IMPLICATIONS IN CHILDREN WITH SCN2A-RELATED DISORDERS

Author

Ceulemans, B., Lederer, D., Dorn, T., Helbig, K. L., Hardies, K., Stamberger, H., de Jonghe, P., Weckhuysen, S., Lemke, J. R., Helbig, I, Kluger, G., Moller, R. S., Johannesen, K. M., Wolf, M., Masnada, S., Rubboli, G., Gardella, E., Milh, M., Villard, L., Mignot, C., Lardennois, C., Bourel-Ponchel, Emilie, Nava, C., Lesca, G., Gerard, M., Perrin, L., Doummar, D., Auvin, S., Miranda, M. J., Brilstra, E., Knoers, N., Doecker, M., Bast, T., Loddenkemper, T., Wong-Kisiel, L., Baumeister, F. M., Fazeli, W., Striano, P., Kurlemann, G., Klepper, J., Thoene, J. G., Arndt, D. H., Schmitt-Mechelke, T., Maier, O., Muhle, H., Wical, B., Finetti, C., Brueckner, R., Pietz, J., Golla, G., Jillella, D., Afenjar, A., Linnet, K. M., Charles, P., Oiglane-Slik, E., Mantovani, J. F., Deprez, M., Scalais, E., Lagae, L., Nikanorova, M., Hjalgrim, H., Depienne, C., Scheidecker, S., Kremer, V, Doray, B., Alembik, y., University of British Columbia (UBC), Pédiatrie spécialisée et médecine infantile (neurologie, pneumologie, maladies héréditaires du métabolisme) - Hôpital de la Timone, Ecole Polytechnique Fédérale de Lausanne (EPFL), Université de Strasbourg (UNISTRA), Centre National de la Recherche Scientifique (CNRS), Groupe de Recherche sur l'Analyse Multimodale de la Fonction Cérébrale - UMR INSERM_S 1105 (GRAMFC), Université de Picardie Jules Verne (UPJV)-CHU Amiens-Picardie-Institut National de la Santé et de la Recherche Médicale (INSERM), CHU Pitié-Salpêtrière [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Centre de recherche en neurosciences de Lyon - Lyon Neuroscience Research Center (CRNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Université Jean Monnet [Saint-Étienne] (UJM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Insulaire du Vivant et de l'Environnement (LIVE), Université de la Nouvelle-Calédonie (UNC), Service de neuropédiatrie et maladies métaboliques [CHU Robert-Debré], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Robert Debré, Department of Child Neurology, Development and Rehabilitation [Hospital of Eastern Switzerland], Children's Hospital of Eastern Switzerland St.Gallen, Service de génétique et embryologie médicales [CHU Trousseau], CHU Trousseau [APHP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Service de médecine interne et centre de référence des maladies rares [CHU Cochin], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Cochin [AP-HP], IMEC (IMEC), Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Statens seruminstitut, and Les Hôpitaux Universitaires de Strasbourg (HUS)

Subjects
[SDV]Life Sciences [q-bio], ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2016

24. Loss of SYNJ1 dual phosphatase activity leads to early onset refractory seizures and progressive neurological decline

Author

Hardies, K, Cai, Y, Jardel, C, Jansen, Ac, Cao, M, May, P, Djémié, T, Hachon Le Camus, C, Keymolen, K, Deconinck, T, Bhambhani, V, Long, C, Sajan, Sa, Helbig, Kl, Suls, A, Balling, R, Helbig, I, De Jonghe, P, Depienne, C, De Camilli, P, Weckhuysen, S, Afawi, Z, Baulac, S, Barisic, N, Caglayan, H, Craiu, D, De Kovel CG, Lopez, Rg, Guerrini, R, Hjalgrim, H, Lerche, H, Jahn, J, Klein, Km, Koeleman, Bc, Leguern, E, Lemke, J, Marini, C, Muhle, H, Rosenow, F, Serratosa, Jm, Štěrbová, Ks, Møller, Rs, Palotie, A, Striano, P, Weber, Y, Zara, F., Mental Health and Wellbeing research group, Public Health Sciences, Neurogenetics, Clinical sciences, AR Working Grp, and EuroEPINOMICS RES Consortium

Subjects
Male, 0301 basic medicine, Drug Resistant Epilepsy, medicine.medical_specialty, Phosphatase, Nerve Tissue Proteins, Biology, Compound heterozygosity, SYNJ1, Cohort Studies, Consanguinity, 03 medical and health sciences, Epilepsy, Arts and Humanities (miscellaneous), SYNJ1 dual phosphatase activity, Polyphosphoinositide Phosphatase, Internal medicine, early onset epilepsy, medicine, Journal Article, Humans, Missense mutation, Exome, Age of Onset, Child, neurodegenerative disorder, recessive disorder, Medicine (all), Neurology (clinical), Exome sequencing, Synaptic vesicle endocytosis, Genetics, Neurodegenerative Diseases, Heterozygote advantage, Original Articles, Neurodegenerative disorder, medicine.disease, Phosphoric Monoester Hydrolases, Pedigree, Phenotype, 030104 developmental biology, Endocrinology, Child, Preschool, Female, Human medicine
Abstract

SYNJ1 encodes a polyphosphoinositide phosphatase (Synaptojanin 1) with a prominent role in synaptic vesicle dynamics. Hardies et al. report three families (six patients) with autosomal recessive SYNJ1 variants, who display early-onset refractory seizures and progressive neurological decline. The pathogenic variants entail loss of the dual phosphatase activity of Synaptojanin 1.SYNJ1 encodes a polyphosphoinositide phosphatase (Synaptojanin 1) with a prominent role in synaptic vesicle dynamics. Hardies et al. report three families (six patients) with autosomal recessive SYNJ1 variants, who display early-onset refractory seizures and progressive neurological decline. The pathogenic variants entail loss of the dual phosphatase activity of Synaptojanin 1.SYNJ1 encodes a polyphosphoinositide phosphatase, synaptojanin 1, which contains two consecutive phosphatase domains and plays a prominent role in synaptic vesicle dynamics. Autosomal recessive inherited variants in SYNJ1 have previously been associated with two different neurological diseases: a recurrent homozygous missense variant (p.Arg258Gln) that abolishes Sac1 phosphatase activity was identified in three independent families with early onset parkinsonism, whereas a homozygous nonsense variant (p.Arg136*) causing a severe decrease of mRNA transcript was found in a single patient with intractable epilepsy and tau pathology. We performed whole exome or genome sequencing in three independent sib pairs with early onset refractory seizures and progressive neurological decline, and identified novel segregating recessive SYNJ1 defects. A homozygous missense variant resulting in an amino acid substitution (p.Tyr888Cys) was found to impair, but not abolish, the dual phosphatase activity of SYNJ1, whereas three premature stop variants (homozygote p.Trp843* and compound heterozygote p.Gln647Argfs*6/p.Ser1122Thrfs*3) almost completely abolished mRNA transcript production. A genetic follow-up screening in a large cohort of 543 patients with a wide phenotypical range of epilepsies and intellectual disability revealed no additional pathogenic variants, showing that SYNJ1 deficiency is rare and probably linked to a specific phenotype. While variants leading to early onset parkinsonism selectively abolish Sac1 function, our results provide evidence that a critical reduction of the dual phosphatase activity of SYNJ1 underlies a severe disorder with neonatal refractory epilepsy and a neurodegenerative disease course. These findings further expand the clinical spectrum of synaptic dysregulation in patients with severe epilepsy, and emphasize the importance of this biological pathway in seizure pathophysiology.

Published
2016

25. Recessive mutations in SLC13A5 result in a loss of citrate transport and cause neonatal epilepsy, developmental delay and teeth hypoplasia

Author

Hardies, K., De Kovel, C. G. F., Weckhuysen, S., Asselbergh, B., Geuens, T., Deconinck, T., Azmi, A., May, P., Brilstra, E., Becker, F., Barisic, N., Craiu, D., Braun, K. P. J., Lal, D., Thiele, H., Schubert, J., Weber, Y., Van 'T Slot, R., Nurnberg, P., Balling, R., Timmerman, V., Lerche, H., Maudsley, S., Helbig, I., Suls, A., Koeleman, B. P. C., De Jonghe, P., Afawi, Z., Baulac, S., Caglayan, H., Lopez, R. G., Guerrini, R., Hjalgrim, H., Jahn, J., Klein, K. M., Leguern, E., Lemke, J., Marini, C., Muhle, H., Rosenow, F., Serratosa, J., Sterbova, K., Moller, R. S., Striano, P., Zara, F., and EuroEPINOMICS RES Consortium

Subjects
Male, medicine.medical_specialty, Adolescent, anaplerosis, epileptic encephalopathy, NaCT, recessive disorder, SLC13A5, teeth hypoplasia, medicine.medical_treatment, Developmental Disabilities, Mutant, Genes, Recessive, Biology, medicine.disease_cause, Citric Acid, Epilepsy, Internal medicine, medicine, Journal Article, Humans, Genetic Predisposition to Disease, Child, Gene, Anodontia, Genetics, Mutation, Brain Diseases, Symporters, Citrate transport, medicine.disease, Hypoplasia, Pedigree, Endocrinology, HEK293 Cells, Epilepsy syndromes, Female, Neurology (clinical), Human medicine, Ketogenic diet
Abstract

The epileptic encephalopathies are a clinically and aetiologically heterogeneous subgroup of epilepsy syndromes. Most epileptic encephalopathies have a genetic cause and patients are often found to carry a heterozygous de novo mutation in one of the genes associated with the disease entity. Occasionally recessive mutations are identified: a recent publication described a distinct neonatal epileptic encephalopathy (MIM 615905) caused by autosomal recessive mutations in the SLC13A5 gene. Here, we report eight additional patients belonging to four different families with autosomal recessive mutations in SLC13A5. SLC13A5 encodes a high affinity sodium-dependent citrate transporter, which is expressed in the brain. Neurons are considered incapable of de novo synthesis of tricarboxylic acid cycle intermediates; therefore they rely on the uptake of intermediates, such as citrate, to maintain their energy status and neurotransmitter production. The effect of all seven identified mutations (two premature stops and five amino acid substitutions) was studied in vitro, using immunocytochemistry, selective western blot and mass spectrometry. We hereby demonstrate that cells expressing mutant sodium-dependent citrate transporter have a complete loss of citrate uptake due to various cellular loss-of-function mechanisms. In addition, we provide independent proof of the involvement of autosomal recessive SLC13A5 mutations in the development of neonatal epileptic encephalopathies, and highlight teeth hypoplasia as a possible indicator for SLC13A5 screening. All three patients who tried the ketogenic diet responded well to this treatment, and future studies will allow us to ascertain whether this is a recurrent feature in this severe disorder.

Published
2015

26. Erratum: Exon-disrupting deletions of NRXN1 in idiopathic generalized epilepsy (Epilepsia (2013) 54 (256-264) DOI:10.1111/epi.12517)

Author

Møller, R. S., Weber, Y. G., Klitten, L. L., Trucks, H., Muhle, H., Kunz, W. S., Mefford, H. C., Franke, A., Kautza, M., Wolf, P., Dennig, D., Schreiber, S., Rückert, I. -M., Wichmann, H. -E., Ernst, J. P., Schurmann, C., Grabe, H. J., Tommerup, N., Stephani, U., Lerche, H., Hjalgrim, H., Helbig, I., Sander, T., Zimprich, F., Mörzinger, M., Feucht, M., Suls, A., Weckhuysen, S., Claes, L., Deprez, L., Smets, K., Van Dyck, T., Deconinck, T., De Jonghe, P., Velizarova, R., Dimova, P., Radionova, M., Tournev, I., Kancheva, D., Kaneva, R., Jordanova, A., Kjelgaard, D. B., Lehesjoki, A. -E., Siren, A., Baulac, S., Leguern, E., Von Spiczak, S., Ostertag, P., Leber, M., Leu, C., Toliat, M. R., Nürnberg, P., Hempelmann, A., Rüschendorf, F., Elger, C. E., Kleefuß-Lie, A. A., Surges, R., Gaus, V., Janz, D., Schmitz, B., Klein, K. M., Reif, P. S., Oertel, W. H., Hamer, H. M., Rosenow, F., Becker, F., Marini, C., Guerrini, R., Mei, D., Norci, V., Zara, F., Striano, P., Robbiano, A., Pezzella, M., Bianchi, A., Gambardella, A., Tinuper, P., La Neve, A., Capovilla, G., Vigliano, P., Crichiutti, G., Vanadia, F., Vignoli, A., Coppola, A., Striano, S., Giallonardo, M. T., Franceschetti, S., Belcastro, V., Benna, P., Coppola, G., De Palo, A., Ferlazzo, E., Vecchi, M., Martinelli, V., Bisulli, F., Beccaria, F., Del Giudice, E., Mancardi, M., Stranci, G., Scabar, A., Gobbi, G., Giordano, I., Koeleman, B. P. C., De Kovel, C., Lindhout, D., De Haan, G. -J., Ozbeck, U., Bebek, N., Baykan, B., Ozdemir, O., Ugur, S., Kocasoy-Orhan, E., Yücesan, E., Cine, N., Gokyigit, A., Gurses, C., Gul, G., Yapici, Z., Ozkara, C., Caglayan, H., Yalcin, O., Yalcin, D., Turkdogan, D., Dizdarer, G., Agan, K., Møller, R. S., Weber, Y. G., Klitten, L. L., Trucks, H., Muhle, H., Kunz, W. S., Mefford, H. C., Franke, A., Kautza, M., Wolf, P., Dennig, D., Schreiber, S., Rückert, I. -M., Wichmann, H. -E., Ernst, J. P., Schurmann, C., Grabe, H. J., Tommerup, N., Stephani, U., Lerche, H., Hjalgrim, H., Helbig, I., Sander, T., Zimprich, F., Mörzinger, M., Feucht, M., Suls, A., Weckhuysen, S., Claes, L., Deprez, L., Smets, K., Van Dyck, T., Deconinck, T., De Jonghe, P., Velizarova, R., Dimova, P., Radionova, M., Tournev, I., Kancheva, D., Kaneva, R., Jordanova, A., Kjelgaard, D. B., Lehesjoki, A. -E., Siren, A., Baulac, S., Leguern, E., Von Spiczak, S., Ostertag, P., Leber, M., Leu, C., Toliat, M. R., Nürnberg, P., Hempelmann, A., Rüschendorf, F., Elger, C. E., Kleefuß-Lie, A. A., Surges, R., Gaus, V., Janz, D., Schmitz, B., Klein, K. M., Reif, P. S., Oertel, W. H., Hamer, H. M., Rosenow, F., Becker, F., Marini, C., Guerrini, R., Mei, D., Norci, V., Zara, F., Striano, P., Robbiano, A., Pezzella, M., Bianchi, A., Gambardella, A., Tinuper, P., La Neve, A., Capovilla, G., Vigliano, P., Crichiutti, G., Vanadia, F., Vignoli, A., Coppola, A., Striano, S., Giallonardo, M. T., Franceschetti, S., Belcastro, V., Benna, P., Coppola, G., De Palo, A., Ferlazzo, E., Vecchi, M., Martinelli, V., Bisulli, F., Beccaria, F., Del Giudice, E., Mancardi, M., Stranci, G., Scabar, A., Gobbi, G., Giordano, I., Koeleman, B. P. C., De Kovel, C., Lindhout, D., De Haan, G. -J., Ozbeck, U., Bebek, N., Baykan, B., Ozdemir, O., Ugur, S., Kocasoy-Orhan, E., Yücesan, E., Cine, N., Gokyigit, A., Gurses, C., Gul, G., Yapici, Z., Ozkara, C., Caglayan, H., Yalcin, O., Yalcin, D., Turkdogan, D., Dizdarer, G., and Agan, K.

Published
2013

27. Mutations in the GABA Transporter SLC6A1 Cause Epilepsy with Myoclonic-Atonic Seizures

Author

Carvill, Gl, Mcmahon, Jm, Schneider, Andrea, Zemel, M, Myers, Ct, Saykally, J, Nguyen, J, Robbiano, A, Zara, F, Specchio, N, Mecarelli, O, Smith, Rl, Leventer, Rj, Møller, Rs, Nikanorova, M, Dimova, P, Jordanova, A, Petrou, S, Helbig, I, Striano, P, Weckhuysen, S, Berkovic, Sf, Scheffer, Ie, Mefford, Hc, von Spiczak, S, Muhle, H, Caglayan, H, Sterbova, K, Craiu, D, Hoffman, D, Lehesjoki, Ae, Selmer, K, Depienne, C, Lemke, J, Marini, Carla, Guerrini, Renzo, Neubauer, B, Talvik, T, Suls, A, and Leguern, E.

Subjects
GABA, Transporter SLC6A1, Epilepsy, Myoclonic-Atonic Seizures
Published
2015

29. Genome-wide linkage meta-analysis identifies susceptibility loci at 2q34 and 13q31.3 for genetic generalized epilepsies

Author

EPICURE Consortium, Leu C., de Kovel C. G., Zara F., Striano P., Pezzella M., Robbiano A., Bianchi A., Coppola A., Giallonardo A. T., Beccaria F., Trenité D. K., Lindhout D., Gaus V., Schmitz B., Janz D., Weber Y. G., Becker F., Lerche H., Kleefuss Lie A. A., Hallman K., Kunz W. S., Elger C. E., Muhle H., Stephani U., Møller R. S., Hjalgrim H., Mullen S., Scheffer I. E., Berkovic S. F., Everett K. V., Gardiner M. R., Marini C., Guerrini R., Lehesjoki A. E., Siren A., Nabbout R., Baulac S., Leguern E., Serratosa J. M., Rosenow F., Feucht M., Unterberger I., Covanis A., Suls A., Weckhuysen S., Kaneva R., Caglayan H., Turkdogan D., Baykan B., Bebek N., Ozbek U., Hempelmann A., Schulz H., Rüschendorf F., Trucks H., Nürnberg P., Avanzini G., Koeleman B. P., Sander T., BISULLI, FRANCESCA, TINUPER, PAOLO, YÜCESAN, EMRAH, EPICURE Consortium, Leu C., de Kovel C.G., Zara F., Striano P., Pezzella M., Robbiano A., Bianchi A., Bisulli F., Coppola A., Giallonardo A.T., Beccaria F., Trenité D.K., Lindhout D., Gaus V., Schmitz B., Janz D., Weber Y.G., Becker F., Lerche H., Kleefuss-Lie A.A., Hallman K., Kunz W.S., Elger C.E., Muhle H., Stephani U., Møller R.S., Hjalgrim H., Mullen S., Scheffer I.E., Berkovic S.F., Everett K.V., Gardiner M.R., Marini C., Guerrini R., Lehesjoki A.E., Siren A., Nabbout R., Baulac S., Leguern E., Serratosa J.M., Rosenow F., Feucht M., Unterberger I., Covanis A., Suls A., Weckhuysen S., Kaneva R., Caglayan H., Turkdogan D., Baykan B., Bebek N., Ozbek U., Hempelmann A., Schulz H., Rüschendorf F., Trucks H., Nürnberg P., Avanzini G., Koeleman B.P., Sander T., and Tinuper P.

Subjects
Male, Chromosomes, Human, Pair 13, Genotype, Genetic Linkage, Chromosome Mapping, complex inheritance, Pedigree, genetic generalized epilepsy, myoclonic seizure, Phenotype, Genetic Loci, Chromosomes, Human, Pair 2, Humans, Epilepsy, Generalized, Family, Female, Genetic Predisposition to Disease, linkage analysis, absence seizure, Genome-Wide Association Study
Abstract

PURPOSE: Genetic generalized epilepsies (GGEs) have a lifetime prevalence of 0.3% with heritability estimates of 80%. A considerable proportion of families with siblings affected by GGEs presumably display an oligogenic inheritance. The present genome-wide linkage meta-analysis aimed to map: (1) susceptibility loci shared by a broad spectrum of GGEs, and (2) seizure type-related genetic factors preferentially predisposing to either typical absence or myoclonic seizures, respectively. METHODS: Meta-analysis of three genome-wide linkage datasets was carried out in 379 GGE-multiplex families of European ancestry including 982 relatives with GGEs. To dissect out seizure type-related susceptibility genes, two family subgroups were stratified comprising 235 families with predominantly genetic absence epilepsies (GAEs) and 118 families with an aggregation of juvenile myoclonic epilepsy (JME). To map shared and seizure type-related susceptibility loci, both nonparametric loci (NPL) and parametric linkage analyses were performed for a broad trait model (GGEs) in the entire set of GGE-multiplex families and a narrow trait model (typical absence or myoclonic seizures) in the subgroups of JME and GAE families. KEY FINDINGS: For the entire set of 379 GGE-multiplex families, linkage analysis revealed six loci achieving suggestive evidence for linkage at 1p36.22, 3p14.2, 5q34, 13q12.12, 13q31.3, and 19q13.42. The linkage finding at 5q34 was consistently supported by both NPL and parametric linkage results across all three family groups. A genome-wide significant nonparametric logarithm of odds score of 3.43 was obtained at 2q34 in 118 JME families. Significant parametric linkage to 13q31.3 was found in 235 GAE families assuming recessive inheritance (heterogeneity logarithm of odds = 5.02). SIGNIFICANCE: Our linkage results support an oligogenic predisposition of familial GGE syndromes. The genetic risk factor at 5q34 confers risk to a broad spectrum of familial GGE syndromes, whereas susceptibility loci at 2q34 and 13q31.3 preferentially predispose to myoclonic seizures or absence seizures, respectively. Phenotype- genotype strategies applying narrow trait definitions in phenotypic homogeneous subgroups of families improve the prospects of disentangling the genetic basis of common familial GGE syndromes.

Published
2012

30. Genome-wide linkage meta-analysis identifies susceptibility loci at 2q34 and 13q31.3 for genetic generalized epilepsies

Author

Leu C, de Kovel CG, Zara F, Striano P, Pezzella M, Robbiano A, Bianchi A, Bisulli F, Coppola A, Giallonardo AT, Beccaria F, Trenité DK, Lindhout D, Gaus V, Schmitz B, Janz D, Weber YG, Becker F, Lerche H, Kleefuss Lie AA, Hallman K, Kunz WS, Elger CE, Muhle H, Stephani U, Møller RS, Hjalgrim H, Mullen S, Scheffer IE, Berkovic SF, Everett KV, Gardiner MR, Marini C, Guerrini R, Lehesjoki AE, Siren A, Nabbout R, Baulac S, Leguern E, Serratosa JM, Rosenow F, Feucht M, Unterberger I, Covanis A, Suls A, Weckhuysen S, Kaneva R, Caglayan H, Turkdogan D, Baykan B, Bebek N, Ozbek U, Hempelmann A, Schulz H, Rüschendorf F, Trucks H, Nürnberg P, Avanzini G, Koeleman BP, Sander T, EPICURE Consortium, COPPOLA, ANTONIETTA, DEL GIUDICE, ENNIO, Leu, C, de Kovel, Cg, Zara, F, Striano, P, Pezzella, M, Robbiano, A, Bianchi, A, Bisulli, F, Coppola, A, Giallonardo, At, Beccaria, F, Trenité, Dk, Lindhout, D, Gaus, V, Schmitz, B, Janz, D, Weber, Yg, Becker, F, Lerche, H, Kleefuss Lie, Aa, Hallman, K, Kunz, W, Elger, Ce, Muhle, H, Stephani, U, Møller, R, Hjalgrim, H, Mullen, S, Scheffer, Ie, Berkovic, Sf, Everett, Kv, Gardiner, Mr, Marini, C, Guerrini, R, Lehesjoki, Ae, Siren, A, Nabbout, R, Baulac, S, Leguern, E, Serratosa, Jm, Rosenow, F, Feucht, M, Unterberger, I, Covanis, A, Suls, A, Weckhuysen, S, Kaneva, R, Caglayan, H, Turkdogan, D, Baykan, B, Bebek, N, Ozbek, U, Hempelmann, A, Schulz, H, Rüschendorf, F, Trucks, H, Nürnberg, P, Avanzini, G, Koeleman, Bp, Sander, T, Epicure, Consortium, DEL GIUDICE, Ennio, and Coppola, Antonietta

Published
2012

31. Mutations in STX1B, encoding a presynaptic protein, cause fever-associated epilepsy syndromes

Author

Schubert, J., Siekierska, A., Langlois, M., May, P., Huneau, C., Becker, F., Muhle, H., Suls, A., Lemke, J. R., de Kovel, C. G. F., Thiele, H., Konrad, K., Kawalia, A., Toliat, M. R., Sander, T., Ruschendorf, F., Caliebe, A., Nagel, I., Kohl, B., Kecskes, A., Jacmin, M., Hardies, K., Weckhuysen, S., Riesch, E., Dorn, T., Brilstra, E. H., Baulac, S., Moller, R. S., Hjalgrim, H., Koeleman, B. P. C., Jurkat-Rott, K., Lehman-Horn, F., Roach, J. C., Glusman, G., Hood, L., Galas, D. J., Martin, B., de Witte, P. A. M., Biskup, S., De Jonghe, P., Helbig, I., Balling, R., Nurnberg, P., Crawford, A. D., Esguerra, C. V., Weber, Y. G., Lerche, H., Euro, Epinomics R. E. S. Consortium, EuroEPINOMICS RES Consortium, [GIN] Grenoble Institut des Neurosciences (GIN), Université Joseph Fourier - Grenoble 1 (UJF)-Institut National de la Santé et de la Recherche Médicale (INSERM), Luxembourg Centre For Systems Biomedicine (LCSB), University of Luxembourg [Luxembourg], Institute for Systems Biology [Seattle] (ISB), Laboratoire Traitement du Signal et de l'Image (LTSI), Université de Rennes 1 (UR1), Université de Rennes (UNIV-RENNES)-Université de Rennes (UNIV-RENNES)-Institut National de la Santé et de la Recherche Médicale (INSERM), Neurogenetics Group, Institut für Humangenetik, Universität Heidelberg [Heidelberg], Cologne Center for Genomics (CCG), University of Cologne, Department of Molecular and Developmental Genetics (VIB11), Flanders institute of biotechnology, Institut du Cerveau et de la Moëlle Epinière = Brain and Spine Institute (ICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-CHU Pitié-Salpêtrière [AP-HP], Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Centre National de la Recherche Scientifique (CNRS), Centre de Recherche de l'Institut du Cerveau et de la Moelle épinière (CRICM), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Medical Genetics Laboratory, Université Grenoble Alpes - UFR Médecine (UGA UFRM), Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Laboratory of Pharmaceutical Biology, Faculty of Pharmaceutical Sciences Lueven Belgium, Catholic University of Leuven - Katholieke Universiteit Leuven (KU Leuven), Center for Genomics and Transcriptomics (CEGAT), Antwerp University Hospital [Edegem] (UZA), Children’s Hospital of Philadelphia (CHOP ), Cologne Center for Genomics, University of Cologne, Université de Rennes (UR)-Institut National de la Santé et de la Recherche Médicale (INSERM), Universität Heidelberg [Heidelberg] = Heidelberg University, and Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)

Subjects
Male, Genetic Linkage, [SDV.NEU.NB]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC]/Neurobiology, Syntaxin 1, medicine.disease_cause, Epilepsy/genetics, Cohort Studies, Epilepsy, 0302 clinical medicine, Syntaxin 1/genetics, Missense mutation, Exome, ComputingMilieux_MISCELLANEOUS, In Situ Hybridization, Fluorescence, Zebrafish, Genetics, 0303 health sciences, Mutation, Comparative Genomic Hybridization, Temperature, PAROXYSMAL KINESIGENIC DYSKINESIA SYNAPTIC VESICLE FUSION DE-NOVO MUTATIONS FEBRILE SEIZURES INFANTILE CONVULSIONS GENERALIZED EPILEPSY PRRT2 MUTATIONS GENERATION DISORDERS ZEBRAFISH, Pedigree, Phenotype, Codon, Nonsense, Female, Molecular Sequence Data, Biology, Polymorphism, Single Nucleotide, Seizures, Febrile, 03 medical and health sciences, SCN1B, medicine, Animals, Humans, Amino Acid Sequence, Seizures, Febrile/genetics, Generalized epilepsy, 030304 developmental biology, [SDV.GEN]Life Sciences [q-bio]/Genetics, Sequence Analysis, DNA, Paroxysmal dyskinesia, medicine.disease, Epilepsy syndromes, Human medicine, 030217 neurology & neurosurgery, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Gene Deletion
Abstract

Febrile seizures affect 2-4% of all children(1) and have a strong genetic component(2). Recurrent mutations in three main genes (SCN1A, SCN1B and GABRG2)(3-5) have been identified that cause febrile seizures with or without epilepsy. Here we report the identification of mutations in STX1B, encoding syntaxin-1B(6), that are associated with both febrile seizures and epilepsy. Whole-exome sequencing in independent large pedigrees(7,8) identified cosegregating STX1B mutations predicted to cause an early truncation or an in-frame insertion or deletion. Three additional nonsense or missense mutations and a de novo microdeletion encompassing STX1B were then identified in 449 familial or sporadic cases. Video and local field potential analyses of zebrafish larvae with antisense knockdown of stx1b showed seizure-like behavior and epileptiform discharges that were highly sensitive to increased temperature. Wild-type human syntaxin-1B but not a mutated protein rescued the effects of stx1b knockdown in zebrafish. Our results thus implicate STX1B and the presynaptic release machinery in fever-associated epilepsy syndromes.

Published
2014

32. Genome-wide association analysis of genetic generalized epilepsies implicates susceptibility loci at 1q43, 2p16.1,2q22.3 and 17q21.32

Author

Steffens, M., Leu, C., Ruppert, A., Zara, F., Striano, P., Robbiano, A., Capovilla, G., Tinuper, P., Gambardella, A., Bianchi, A., La neve, A., Crichiutti, G., de kovel, C. G., Trenité, D. K. -N., de haan, G., Lindhout, D., Gaus, V., Schmitz, B., Janz, D., Weber, Y. G., Becker, F., Lerche, H., Steinhoff, B. J., Kleefuß-Lie, A. A., Kunz, W. S., Surges, R., Elger, C. E., Muhle, H., Von spiczak, S., Ostertag, P., Helbig, I., Stephani, U., Møller, R. S., Hjalgrim, H., Dibbens, L. M., Bellows, S., Oliver, K., Mullen, S., Scheffer, I. E., Berkovic, S. F., Everett, K. V., Gardiner, M. R., Marini, Chiara, Guerrini, R., Lehesjoki, A., Siren, A., Guipponi, M., Malafosse, A., Thomas, P., Nabbout, R., Baulac, S., Leguern, E., Guerrero, R., Serratosa, J. M., Reif, P. S., Rosenow, F., Mörzinger, M., Feucht, M., Zimprich, F., Kapser, C., Schankin, C. J., Suls, A., Smets, K., De jonghe, P., Jordanova, A., Caglayan, H., Yapici, Z., Yalcin, D. A., Baykan, B., Bebek, N., Ozbek, U., Gieger, C., Wichmann, H., Balschun, T., Ellinghaus, D., Franke, A., Meesters, C., Becker, T., Wienker, T. F., Hempelmann, A., Schulz, H., Rüschendorf, F., Leber, M., Pauck, S. M., Trucks, H., Toliat, M. R., Nürnberg, P., Avanzini, G., Koeleman, B. P., Sander, T., Weckhuysen, S., Claes, L., Deprez, L., Van Dyck, T., Deconinck, T., De Jonghe, P., Velizarova, R., Dimova, P., Radionova, M., Tournev, I., Kancheva, D., Kaneva, R., Lehesjoki, A. -E., von Spiczak, S., Martin Klein, K., Oertel, W. H., Hamer, H. M., Marini, C., Mei, D., Norci, V., Pezzella, M., La Neve, A., Vigliano, P., Vanadia, F., Vignoli, A., Coppola, A., Striano, S., Egeo, G., Teresa Giallonardo, M., Franceschetti, S., Belcastro, V., Benna, P., Coppola, G., De Palo, A., Ferlazzo, E., Vecchi, M., Martinelli, V., Bisulli, F., Beccaria, F., Del Giudice, E., Mancardi, M., Stranci, G., Scabar, A., Gobbi, G., Giordano, I., de Haan, G. -J., Giraldez, B. G., Ozbeck, U., Ozdemir, O., Ugur, S., Kocasoy-Orhan, E., Yücesan, E., Cine, N., Gokyigit, A., Gurses, C., Gul, G., Ozkara, C., Yalcin, O., Turkdogan, D., Dizdarer, G., Agan, K., Steffens, Michael, Leu, Costin, Ruppert, Ann-Kathrin, Zara, Frederico, Dibbens, Leanne Michelle, Sander, Thomas, EPICURE Consortium, Epicure, Consortium, DEL GIUDICE, Ennio, Steffens, M, Leu, C, Ruppert, Ak, Zara, F, Striano, P, Robbiano, A., Coppola, Antonietta, E. P. I. C. U. R. E. Consortium, E. M. I.Net Consortium, M. Steffen, C. Leu, A. Ruppert, F. Zara, P. Striano, A. Robbiano, G. Capovilla, P. Tinuper, A. Gambardella, A. Bianchi, A. L. Neve, G. Crichiutti, C. G. F, D. K. Trenité, G. d. Haan, D. Lindhout, V. Gau, B. Schmitz, D. Janz, Y. G. Weber, F. Becker, H. Lerche, B. J. Steinhoff, A. A. Kleefuß-Lie, W. S. Kunz, R. Surge, C. E. Elger, H. Muhle, S. v. Spiczak, P. Ostertag, I. Helbig, U. Stephani, R. S. Møller, H. Hjalgrim, L. M. Dibben, S. Bellow, K. Oliver, S. Mullen, I. E. Scheffer, S. F. Berkovic, K. V. Everett, M. R. Gardiner, C. Marini, R. Guerrini, A. Lehesjoki, A. Siren, M. Guipponi, A. Malafosse, P. Thoma, R. Nabbout, S. Baulac, E. Leguern, R. Guerrero, J. M. Serratosa, P. S. Reif, F. Rosenow, M. Mörzinger, M. Feucht, F. Zimprich, C. Kapser, C. J. Schankin, A. Sul, K. Smet, P. D. Jonghe, A. Jordanova, H. Caglayan, Z. Yapici, D. A. Yalcin, B. Baykan, N. Bebek, U. Ozbek, C. Gieger, H. Wichmann, T. Balschun, D. Ellinghau, A. Franke, C. Meester, T. Becker, T. F. Wienker, A. Hempelmann, H. Schulz, F. Rüschendorf, M. Leber, S. M. Pauck, H. Truck, M. R. Toliat, P. Nürnberg, G. Avanzini, B. P. C, and T. Sander

Subjects
Candidate gene, Juvenile, Genome-wide association study, Alleles, Epilepsy, ZEB2 protein, human, VRK2 protein, human, 0302 clinical medicine, genetics [Genetic Predisposition to Disease], genetics, Humans, Myoclonic Epilepsy, genetics [Epilepsy, Generalized], SCN1A protein, human, Genetics (clinical), Genetics, 0303 health sciences, genetics [Epilepsy, Absence], Myoclonic Epilepsy, Juvenile, genetics, Genetic Predisposition to Disease, General Medicine, Protein-Serine-Threonine Kinases, 3. Good health, Chemistry, Absence, genetics, Epilepsy, genetics [Myoclonic Epilepsy, Juvenile], Epilepsy, Generalized, genetics [Receptor, Muscarinic M3], genetics, NAV1.1 Voltage-Gated Sodium Channel, genetics [Homeodomain Proteins], Single-nucleotide polymorphism, genetics [NAV1.1 Voltage-Gated Sodium Channel], Protein Serine-Threonine Kinases, Biology, genetics [Protein-Serine-Threonine Kinases], 03 medical and health sciences, ddc:570, Genetic variation, medicine, Humans, Genetic Predisposition to Disease, genetics, Repressor Protein, Allele, Molecular Biology, Alleles, Zinc Finger E-box Binding Homeobox 2, 030304 developmental biology, Homeodomain Proteins, Receptor, Muscarinic M3, genetics, Protein-Serine-Threonine Kinase, genetics, Receptor, Generalized, genetics, Genome-Wide Association Study, Homeodomain Protein, Heritability, medicine.disease, NAV1.1 Voltage-Gated Sodium Channel, Repressor Proteins, genetics [Repressor Proteins], Muscarinic M3, Epilepsy, Absence, Myoclonic epilepsy, Human medicine, Juvenile myoclonic epilepsy, 030217 neurology & neurosurgery, Genome-Wide Association Study
Abstract

Genetic generalized epilepsies (GGEs) have a lifetime prevalence of 0.3\% and account for 20-30\% of all epilepsies. Despite their high heritability of 80\%, the genetic factors predisposing to GGEs remain elusive. To identify susceptibility variants shared across common GGE syndromes, we carried out a two-stage genome-wide association study (GWAS) including 3020 patients with GGEs and 3954 controls of European ancestry. To dissect out syndrome-related variants, we also explored two distinct GGE subgroups comprising 1434 patients with genetic absence epilepsies (GAEs) and 1134 patients with juvenile myoclonic epilepsy (JME). Joint Stage-1 and 2 analyses revealed genome-wide significant associations for GGEs at 2p16.1 (rs13026414, P(meta) = 2.5 × 10(-9), OR[T] = 0.81) and 17q21.32 (rs72823592, P(meta) = 9.3 × 10(-9), OR[A] = 0.77). The search for syndrome-related susceptibility alleles identified significant associations for GAEs at 2q22.3 (rs10496964, P(meta) = 9.1 × 10(-9), OR[T] = 0.68) and at 1q43 for JME (rs12059546, P(meta) = 4.1 × 10(-8), OR[G] = 1.42). Suggestive evidence for an association with GGEs was found in the region 2q24.3 (rs11890028, P(meta) = 4.0 × 10(-6)) nearby the SCN1A gene, which is currently the gene with the largest number of known epilepsy-related mutations. The associated regions harbor high-ranking candidate genes: CHRM3 at 1q43, VRK2 at 2p16.1, ZEB2 at 2q22.3, SCN1A at 2q24.3 and PNPO at 17q21.32. Further replication efforts are necessary to elucidate whether these positional candidate genes contribute to the heritability of the common GGE syndromes.

Published
2012

33. KCNQ2 MUTATIONS ARE A CAUSE OF NEONATAL EPILEPTIC ENCEPHALOPATHIES WITH A RECOGNIZABLE CLINICAL AND RADIOLOGICAL PHENOTYPE

Author

Weckhuysen, S., Mandelstam, S., Suls, A., Audenaert, D., Deconinck, T., Claes, L., Deprez, L., Smets, K., Hristova, D., Yordanova, I., Jordanova, A., Ceulemans, B., Anna Jansen, Hasaerts, D., Roelens, F., Lagae, L., Yendle, S., Stanley, T., Heron, S., Mulley, J., Berkovic, S., Scheffer, I., Jonghe, P., Philip A. Schwartzkroin, Phd, Simon D. Shorvon, Ma, Md, Frcp, Public Health Care, and Neurogenetics

Subjects
KCNQ2 mutations, Screening, Neonatal epileptic encephalopaties
Abstract

Purpose: KCNQ2 and KCNQ3 mutations are known to be responsible for Benign Familial Neonatal Seizures (BFNS). A few reports on patients with a KCNQ2 mutation with a more severe outcome exist, but a definite relationship has not been established. In this study we investigated whether KCNQ2/3 mutations are a frequent cause of epileptic encephalopathies with an early onset and whether patients present with a particular phenotype. Method: We analyzed 80 patients with unexplained neonatal or earlyinfantile seizures and associated psychomotor retardation for KCNQ2 and KCNQ3 mutations. Clinical and imaging data were reviewed in detail. Results: We found seven different heterozygous KCNQ2 mutations in eight patients (8/80; 10%); six mutations were proven de novo. One parent with a milder phenotype was mosaic for the mutation. The eight patients had onset of intractable seizures in the first week of life with a prominent tonic component. Seizures generally resolved by age 3 years but the children had severe-profound intellectual disability with motor impairment. EEG at onset showed a burst suppression pattern or multifocal epileptic activity. Early MRI of the brain showed characteristic hyperintensities in the basal ganglia and thalamus that later resolved. Conclusion: KCNQ2 mutations are found in a substantial proportion of patients with a neonatal epileptic encephalopathy with a very distinct electro-clinical and radiological phenotype. This suggests that KCNQ2 screening should be included in the diagnostic workup of refractory neonatal seizures of unknown origin.

Published
2011

34. V28. KCNA2 mutations cause epileptic encephalopathy by gain- or loss-of channel function

Author

Hedrich, U.B.S., primary, Syrbe, S., additional, Riesch, E., additional, Djémié, T., additional, Müller, S., additional, Møller, R.S., additional, Maher, B., additional, Hernandez-Hernandez, L., additional, Synofzik, M., additional, Caglayan, H.S., additional, Arslan, M., additional, Serratosa, J., additional, Gonzalez, M., additional, Züchner, S., additional, Palotie, A., additional, Suls, A., additional, De Jonghe, P., additional, Helbig, I., additional, Biskup, S., additional, Wolff, M., additional, Maljevic, S., additional, Schuele-Freyer, R., additional, Sisodiya, S.M., additional, Weckhuysen, S., additional, Lerche, H., additional, and Lemke, J.R., additional

Published
2015
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36. Another large family with infantile convulsions and choreo-athetosis (ICCA) with linkage to chromosome 16p12-q12

Author

Weckhuysen, S., Suls, A., Deprez, L., Anna Jansen, Lagae, L., Jonghe, P., and Public Health Care

Subjects
Chromosome 16p12–q12, epilepsy, choreo-athetosis, infantile convulsions, pathophysiology
Abstract

Purpose: ICCA is an autosomal dominant inheritable syndrome in which benign infantile convulsions and paroxysmal dyskinesias co-occur in the same family. Several families with linkage to chromosome 16p12- q12 have been described, but the responsible gene defect has not been identified yet. We describe another large three-generational Belgian family in which we confirmed linkage to the pericentromeric region of chromosome 16. Method: We performed a clinical evaluation and genetic analysis in a four-generation family with 21 affected individuals with co-occurrence of benign infantile seizures and paroxysmal dyskinesias. Genotype analysis was performed with an in-house genome-wide mapping panel containing 425 autosomal microsatellite markers. Results: Seven patients had a history of self-remitting seizures in the first year of life. Three of these seven patients had a single unprovoked tonic-clonic seizure or myoclonias later in life. One patient had frequent episodes compatible with chorea-athetosis since the age of 12 years. Eight additional patients were diagnosed with febrile seizures in childhood, although it remains unclear if indeed all events occurred with fever. Five patients of the first or second generation were diagnosed with not further specified epilepsy later in life. Linkage analysis showed conclusive linkage to chromosome 16p12-q12 with a maximal LOD score of 4.3 at marker D16S3080. Conclusion: This study confirms linkage to chromosome 16p12-q12 in a large Belgian family with a phenotype compatible with ICCA. Identification of the responsible gene defect might provide a better insight in the common pathophysiology of epilepsy and paroxysmal dyskinesias.

Published
2010

37. Progressive myoclonic epilepsy as an adult-onset manifestation of Leigh syndrome due to m.14487T>C

Author

Bart Dermaut, Sara Seneca, Dom, L., Joél Smet, Boél De Paepe, Tousseyn, S., Weckhuysen, S., Gewillig, M., Pals, P., Paul Parizel, Bleecker, J., Paul Boon, Linda De Meirleir, Jonghe, P., Vancoster, R., Paesschen, W., Santens, P., Department of Embryology and Genetics, and Pediatrics

Subjects
progressive myoclonic epilepsy, Leigh syndrome
Abstract

BACKGROUND: m.14487T>C, a missense mutation (p.M63V) affecting the ND6 subunit of complex I of the mitochondrial respiratory chain, has been reported in isolated childhood cases with Leigh syndrome (LS) and progressive dystonia. Adult-onset phenotypes have not been reported. OBJECTIVES: To determine the clinical-neurological spectrum and associated mutation loads in an extended m.14487T>C family. METHODS: A genotype-phenotype correlation study of a Belgian five-generation family with 12 affected family members segregating m.14487T>C was carried out. Clinical and mutation load data were available for nine family members. Biochemical analysis of the respiratory chain was performed in three muscle biopsies. RESULTS: Heteroplasmic m.14487T>C levels (36-52% in leucocytes, 97-99% in muscle) were found in patients with progressive myoclonic epilepsy (PME) and dystonia or progressive hypokinetic-rigid syndrome. Patients with infantile LS were homoplasmic (99-100% in leucocytes, 100% in muscle). We found lower mutation loads (between 8 and 35% in blood) in adult patients with clinical features including migraine with aura, Leber hereditary optic neuropathy, sensorineural hearing loss and diabetes mellitus type 2. Despite homoplasmic mutation loads, complex I catalytic activity was only moderately decreased in muscle tissue. INTERPRETATION: m.14487T>C resulted in a broad spectrum of phenotypes in our family. Depending on the mutation load, it caused severe encephalopathies ranging from infantile LS to adult-onset PME with dystonia. This is the first report of PME as an important neurological manifestation of an isolated mitochondrial complex I defect.

Published
2010

38. Progressive myoclonic epilepsy as an adult-onset manifestation of Leigh syndrome due to the m.14487T>C mutation in ND6

Author

Seneca, Sara, Dermaut, Bart, Santens, P., Dom, L., Smets, K., Ceulemans, L., Smet, Joél, De Paepe, Boél, Tousseyn, S., Weckhuysen, S., Gewillig, M., Pals, P., Parizel, Paul, De Bleecker, J., Boon, Paul, De Meirleir, Linda, De Jonghe, P., Vancoster, R., Van Paesschen, W., Lissens, Willy, Liebaers, Ingeborg, Department of Embryology and Genetics, Pediatrics, and Centre for Medical Genetics

Subjects
mitochondrial disorders, mtDNA, Leigh syndrome
Abstract

Mitochondrial disorders of the oxidative phosphorylation (OXPHOS) system affect ~1/5000 individuals in the general population and present with a surprisingly wide range of multisystemic and neuromuscular phenotypes. The m.14487T>C mutation is a known pathogenic mtDNA mutation resulting in an amino acid substitution (p.M63V) in NADH dehydrogenase 6 (MT ND6), a complex I subunit of the mitochondrial respiratory chain. Thus far it has been found in isolated cases with infantile Leigh syndrome and progressive dystonia. We report here adult and late-onset phenotypes as it was seen in a 5-generation Belgian family with 12 affected family members. Clinical and mutation load data were available for 9 family members, while biochemical analysis of the respiratory chain was performed in 3 muscle biopsies. Heteroplasmic m.14487T>C levels (36-52 % in leukocytes, 97-99 % in muscle) were found in patients with progressive myoclonic epilepsy (PME) and dystonia or progressive hypokinetic-rigid syndrome. Patients with infantile LS were homoplasmic (99-100 % in leukocytes, 100 % in muscle). We found lower mutation loads (8-35 % in blood) in adult patients with clinical features including migraine with aura, Leber Hereditary Optic Neuropathy (LHON), sensorineural hearing loss and Diabetes Mellitus type 2. Despite homoplasmic mutation loads, complex I catalytic activity was only moderately decreased in muscle tissue of these patients. Conclusions: The m.14487T>C mutation resulted in a broad spectrum of phenotypes in our family. This is the first report of PME as an important neurological manifestation of an isolated mitochondrial complex I defect.

Published
2009

39. Epilepsy and part of the phenotype associated with ATP1A2 mutations

Author

Deprez L., Weckhuysen S., Peeters K., Deconinck T., Claeys KG., Claes LR., Suls A., Van Dyck T., André Luis Fernandes Palmini, Matthijs G., Van Paesschen W., and De Jonghe P.

Abstract

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Published
2008

40. De Novo SCN2A Mutations Cause Variable Phenotypes in Children with Epilepsy

Author

Wolff, M., primary, Bast, T., additional, Loddenkemper, T., additional, Jillella, D., additional, Döcker, M., additional, Wong-Kisiel, L., additional, Möller, R., additional, Weckhuysen, S., additional, Ceulemans, B., additional, Klepper, J., additional, Baumeister, F., additional, Finetti, C., additional, Kurlemann, G., additional, Muhle, H., additional, and Kluger, G., additional

Published
2014
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41. DEPDC5 mutations in families presenting as autosomal dominant nocturnal frontal lobe epilepsy

Author

Picard, F., primary, Makrythanasis, P., additional, Navarro, V., additional, Ishida, S., additional, de Bellescize, J., additional, Ville, D., additional, Weckhuysen, S., additional, Fosselle, E., additional, Suls, A., additional, De Jonghe, P., additional, Vasselon Raina, M., additional, Lesca, G., additional, Depienne, C., additional, An-Gourfinkel, I., additional, Vlaicu, M., additional, Baulac, M., additional, Mundwiller, E., additional, Couarch, P., additional, Combi, R., additional, Ferini-Strambi, L., additional, Gambardella, A., additional, Antonarakis, S. E., additional, Leguern, E., additional, Steinlein, O., additional, and Baulac, S., additional

Published
2014
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42. GABRA1 and STXBP1: Novel genetic causes of Dravet syndrome

Author

Carvill, G. L., primary, Weckhuysen, S., additional, McMahon, J. M., additional, Hartmann, C., additional, Moller, R. S., additional, Hjalgrim, H., additional, Cook, J., additional, Geraghty, E., additional, O'Roak, B. J., additional, Petrou, S., additional, Clarke, A., additional, Gill, D., additional, Sadleir, L. G., additional, Muhle, H., additional, von Spiczak, S., additional, Nikanorova, M., additional, Hodgson, B. L., additional, Gazina, E. V., additional, Suls, A., additional, Shendure, J., additional, Dibbens, L. M., additional, De Jonghe, P., additional, Helbig, I., additional, Berkovic, S. F., additional, Scheffer, I. E., additional, and Mefford, H. C., additional

Published
2014
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43. PRRT2 mutations: exploring the phenotypical boundaries

Author

Djemie, T., primary, Weckhuysen, S., additional, Holmgren, P., additional, Hardies, K., additional, Van Dyck, T., additional, Hendrickx, R., additional, Schoonjans, A.-S., additional, Van Paesschen, W., additional, Jansen, A. C., additional, De Meirleir, L., additional, Selim, L. A. M., additional, Girgis, M. Y., additional, Buyse, G., additional, Lagae, L., additional, Smets, K., additional, Smouts, I., additional, Claeys, K. G., additional, Van den Bergh, V., additional, Grisar, T., additional, Blatt, I., additional, Shorer, Z., additional, Roelens, F., additional, Afawi, Z., additional, Helbig, I., additional, Ceulemans, B., additional, De Jonghe, P., additional, and Suls, A., additional

Published
2013
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44. P25 – 2072 Diagnostic clues and difficulties in Dravet syndrome starting from 34 Dravet patients analysis within Romanian Research Group for Rare Genetic Epilepsies

Author

Craiu, D, primary, Barca, D, additional, Burloiu, C, additional, Butoianu, N, additional, Deconinck, T, additional, Gos, M, additional, Hoffman-Zacharska, D, additional, Iancu, D, additional, Minciu, I, additional, Motoescu, C, additional, Sandu, C, additional, Tarta-Arsene, O, additional, Weckhuysen, S, additional, and Iliescu, C, additional

Published
2013
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45. Clinical spectrum of early-onset epileptic encephalopathies associated with STXBP1 mutations

Author

Deprez, L., primary, Weckhuysen, S., additional, Holmgren, P., additional, Suls, A., additional, Van Dyck, T., additional, Goossens, D., additional, Del-Favero, J., additional, Jansen, A., additional, Verhaert, K., additional, Lagae, L., additional, Jordanova, A., additional, Van Coster, R., additional, Yendle, S., additional, Berkovic, S.F., additional, Scheffer, I., additional, Ceulemans, B., additional, and De Jonghe, P., additional

Published
2010
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46. Progressive myoclonic epilepsy as an adult-onset manifestation of Leigh syndrome due to m.14487T>C

Author

Dermaut, B, primary, Seneca, S, additional, Dom, L, additional, Smets, K, additional, Ceulemans, L, additional, Smet, J, additional, De Paepe, B, additional, Tousseyn, S, additional, Weckhuysen, S, additional, Gewillig, M, additional, Pals, P, additional, Parizel, P, additional, De Bleecker, J L, additional, Boon, P, additional, De Meirleir, L, additional, De Jonghe, P, additional, Van Coster, R, additional, Van Paesschen, W, additional, and Santens, P, additional

Published
2009
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48. Clinical and genetic aspects of PCDH19-related epilepsy syndromes and the possible role of PCDH19 mutations in males with autism spectrum disorders.

Author

Harssel, J., Weckhuysen, S., Kempen, M., Hardies, K., Verbeek, N., Kovel, C., Gunning, W., Daalen, E., Jonge, M., Jansen, A., Vermeulen, R., Arts, W., Verhelst, H., Fogarasi, A., Rijk-van Andel, J., Kelemen, A., Lindhout, D., Jonghe, P., Koeleman, B., and Suls, A.

Abstract

Epilepsy and mental retardation limited to females (EFMR), caused by PCDH19 mutations, has a variable clinical expression that needs further exploration. Onset of epilepsy may be provoked by fever and can resemble Dravet syndrome. Furthermore, transmitting males have no seizures, but are reported to have rigid personalities suggesting possible autism spectrum disorders (ASD). Therefore, this study aimed to determine the phenotypic spectrum associated with PCDH19 mutations in Dravet-like and EFMR female patients and in males with ASD. We screened 120 females suffering from Dravet-like epilepsy, 136 females with EFMR features and 20 males with ASD. Phenotypes and genotypes of the PCDH19 mutation carriers were compared with those of 125 females with EFMR reported in the literature. We report 15 additional patients with a PCDH19 mutation. Review of clinical data of all reported patients showed that the clinical picture of EFMR is heterogeneous, but epilepsy onset in infancy, fever sensitivity and occurrence of seizures in clusters are key features. Seizures remit in the majority of patients during teenage years. Intellectual disability and behavioural disturbances are common. Fifty percent of all mutations are missense mutations, located in the extracellular domains only. Truncating mutations have been identified in all protein domains. One ASD proband carried one missense mutation predicted to have a deleterious effect, suggesting that ASD in males can be associated with PCDH19 mutations. [ABSTRACT FROM AUTHOR]

Published
2013
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50. MUTATIONS IN KCNQ2 ARE ASSOCIATED WITH SEVERE NEONATAL EPILEPSY

Author

Suls, A., Audenaert, D., Dyck, T., Weckhuysen, S., Baets, J., Hasaerts, D., Anna Jansen, Lagae, L., Jordanova, A., Jonghe, P., Pediatrics, and Public Health Care

Subjects
epilepsy
Abstract

Purpose: Loss-of-function mutations in the voltage-gated potassium channels Kv7.2 and Kv7.3, encoded by the KCNQ2 and KCNQ3 genes respectively, are associated with benign familial neonatal seizures (BFNS), an autosomal dominant epilepsy syndrome of newborns characterized by a benign epilepsy phenotype and normal psychomotor development. However, in some BFNS families with a KCNQ2 mutation patients occasionally have drug-resistant neonatal seizures and mental retardation. Method: We analyzed 50 unrelated individuals with severe and intractable neonatal or early-infantile seizures for mutations in KCNQ2 using direct sequencing. Results: In three patients, we identified a de novo KCNQ2 mutation predicting a missense mutation in Kv7.2 (p.G290D; p.M528V and p.R542W). None of these mutations has been associated with classical BFNS. Two patients had onset of tonic or myoclonic seizures at day 3 of life, in one patient tonic seizures started at the age of 4 weeks. In all of them EEG showed a burst suppression pattern at onset, with multifocal epileptic discharges later in evolution. One patient developed a spastic quadriplegia. All had moderate to severe mental retardation. We found no evidence for an additional second-site diseasecausing mutation in KCNQ3, KCNE1, KCNE2 and AKAP5 in these patients. Conclusion: We hereby confirm that mutations in KCNQ2, which are usually associated with benign epilepsy, also can be linked to severe and intractable epilepsy. In both severe and benign epilepsy the onset is in the neonatal period. Therefore, we postulate that screening of the KCNQ2 gene is useful in all patients with a neonatal onset of epilepsy.

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