Ultra-rare genetic variation in common epilepsies: a case-control sequencing study
| Autor: | Andrew S Allen, Susannah T Bellows, Samuel F Berkovic, Joshua Bridgers, Rosemary Burgess, Gianpiero Cavalleri, Seo-Kyung Chung, Patrick Cossette, Norman Delanty, Dennis Dlugos, Michael P Epstein, Catharine Freyer, David B Goldstein, Erin L Heinzen, Michael S Hildebrand, Michael R Johnson, Ruben Kuzniecky, Daniel H Lowenstein, Anthony G Marson, Richard Mayeux, Caroline Mebane, Heather C Mefford, Terence J O'Brien, Ruth Ottman, Steven Petrou, Slavgé Petrovski, William O Pickrell, Annapurna Poduri, Rodney A Radtke, Mark I Rees, Brigid M Regan, Zhong Ren, Ingrid E Scheffer, Graeme J Sills, Rhys H Thomas, Quanli Wang, Bassel Abou-Khalil, Brian K Alldredge, Dina Amrom, Eva Andermann, Frederick Andermann, Jocelyn F. Bautista, Judith Bluvstein, Alex Boro, Gregory D Cascino, Damian Consalvo, Patricia Crumrine, Orrin Devinsky, Miguel Fiol, Nathan B Fountain, Jacqueline French, Daniel Friedman, Eric B Geller, Tracy Glauser, Simon Glynn, Kevin Haas, Sheryl R Haut, Jean Hayward, Sandra L Helmers, Sucheta Joshi, Andres Kanner, Heidi E Kirsch, Robert C Knowlton, Eric H Kossoff, Rachel Kuperman, Paul V Motika, Edward J Novotny, Juliann M Paolicchi, Jack M Parent, Kristen Park, Lynette G Sadleir, Renée A. Shellhaas, Elliott H Sherr, Jerry J. Shih, Shlomo Shinnar, Rani K Singh, Joseph Sirven, Michael C Smith, Joseph Sullivan, Liu Lin Thio, Anu Venkat, Eileen P.G Vining, Gretchen K Von Allmen, Judith L Weisenberg, Peter Widdess-Walsh, Melodie R Winawer |
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| Přispěvatelé: | Imperial College Healthcare NHS Trust- BRC Funding |
| Jazyk: | angličtina |
| Rok vydání: | 2017 |
| Předmět: |
0301 basic medicine
medicine.medical_specialty Population Disease Bioinformatics 03 medical and health sciences Epilepsy 0302 clinical medicine Epilepsy Phenome/Genome Project Genetic variation medicine Humans Exome Genetic Predisposition to Disease education Psychiatry education.field_of_study Neurology & Neurosurgery business.industry Genetic Variation 1103 Clinical Sciences Sequence Analysis DNA medicine.disease Comorbidity R1 030104 developmental biology Case-Control Studies Epilepsy syndromes Epilepsy Generalized Epilepsies Partial Neurology (clinical) 1109 Neurosciences business 030217 neurology & neurosurgery |
| Zdroj: | The Lancet. Neurology |
| ISSN: | 1474-4422 |
| Popis: | Summary Background Despite progress in understanding the genetics of rare epilepsies, the more common epilepsies have proven less amenable to traditional gene-discovery analyses. We aimed to assess the contribution of ultra-rare genetic variation to common epilepsies. Methods We did a case-control sequencing study with exome sequence data from unrelated individuals clinically evaluated for one of the two most common epilepsy syndromes: familial genetic generalised epilepsy, or familial or sporadic non-acquired focal epilepsy. Individuals of any age were recruited between Nov 26, 2007, and Aug 2, 2013, through the multicentre Epilepsy Phenome/Genome Project and Epi4K collaborations, and samples were sequenced at the Institute for Genomic Medicine (New York, USA) between Feb 6, 2013, and Aug 18, 2015. To identify epilepsy risk signals, we tested all protein-coding genes for an excess of ultra-rare genetic variation among the cases, compared with control samples with no known epilepsy or epilepsy comorbidity sequenced through unrelated studies. Findings We separately compared the sequence data from 640 individuals with familial genetic generalised epilepsy and 525 individuals with familial non-acquired focal epilepsy to the same group of 3877 controls, and found significantly higher rates of ultra-rare deleterious variation in genes established as causative for dominant epilepsy disorders (familial genetic generalised epilepsy: odd ratio [OR] 2·3, 95% CI 1·7–3·2, p=9·1 × 10 −8 ; familial non-acquired focal epilepsy 3·6, 2·7–4·9, p=1·1 × 10 −17 ). Comparison of an additional cohort of 662 individuals with sporadic non-acquired focal epilepsy to controls did not identify study-wide significant signals. For the individuals with familial non-acquired focal epilepsy, we found that five known epilepsy genes ranked as the top five genes enriched for ultra-rare deleterious variation. After accounting for the control carrier rate, we estimate that these five genes contribute to the risk of epilepsy in approximately 8% of individuals with familial non-acquired focal epilepsy. Our analyses showed that no individual gene was significantly associated with familial genetic generalised epilepsy; however, known epilepsy genes had lower p values relative to the rest of the protein-coding genes (p=5·8 × 10 −8 ) that were lower than expected from a random sampling of genes. Interpretation We identified excess ultra-rare variation in known epilepsy genes, which establishes a clear connection between the genetics of common and rare, severe epilepsies, and shows that the variants responsible for epilepsy risk are exceptionally rare in the general population. Our results suggest that the emerging paradigm of targeting of treatments to the genetic cause in rare devastating epilepsies might also extend to a proportion of common epilepsies. These findings might allow clinicians to broadly explain the cause of these syndromes to patients, and lay the foundation for possible precision treatments in the future. Funding National Institute of Neurological Disorders and Stroke (NINDS), and Epilepsy Research UK. |
| Databáze: | OpenAIRE |
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