Julia N Bailey1,2,3, Christopher Patterson1,2, Laurence de Nijs2,4, Reyna M Durón1,2,5, Viet-Huong Nguyen1,2,6, Miyabi Tanaka1,2,7, Marco T Medina2,8, Aurelio Jara-Prado2,9, Iris E Martínez-Juárez2,9, Adriana Ochoa2,9, Yolli Molina2,8, Toshimitsu Suzuki2,10, María E Alonso2,9, Jenny E Wight1,2, Yu-Chen Lin1,2, Laura Guilhoto2,11, Elza Marcia Targas Yacubian2,11, Jesús Machado-Salas1,2, Andrea Daga2,12, Kazuhiro Yamakawa2,10, Thierry M Grisar2,4, Bernard Lakaye2,4, Antonio V Delgado-Escueta1,2,7. 1. Epilepsy Genetics/Genomics Lab, Neurology and Research Services, VA GLAHS/UCLA, Los Angeles, California, USA. 2. GENESS International Consortium. 3. Department of Epidemiology, Fielding School of Public Health, UCLA, Los Angeles, California, USA. 4. GIGA-Neurosciences, University of Liège, Liège, Belgium. 5. Facultad de Ciencias de la Salud, Universidad Tecnológica Centroamericana (UNITEC), Tegucigalpa, Honduras. 6. Chapman University School of Pharmacy, Irvine, California, USA. 7. Department of Neurology, David Geffen School of Medicine at UCLA, Los Angeles, California, USA. 8. National Autonomous University of Honduras, Tegucigalpa, Honduras. 9. National Institute of Neurology and Neurosurgery, Mexico City, Mexico. 10. Neurogenetics Lab, RIKEN Brain Science Institute, Saitama, Japan. 11. Unidade de Pesquisa e Tratamento das Epilepsias (UNIPETE), Universidade Federal de Sao Paulo (UNIFESP-EPM), Sao Paulo, Brazil. 12. Eugenio Medea Scientific Institute, Conegliano and Dulbecco Telethon Institute, Italy.
Abstract
PURPOSE: EFHC1 variants are the most common mutations in inherited myoclonic and grand mal clonic-tonic-clonic (CTC) convulsions of juvenile myoclonic epilepsy (JME). We reanalyzed 54 EFHC1 variants associated with epilepsy from 17 cohorts based on National Human Genome Research Institute (NHGRI) and American College of Medical Genetics and Genomics (ACMG) guidelines for interpretation of sequence variants. METHODS: We calculated Bayesian LOD scores for variants in coinheritance, unconditional exact tests and odds ratios (OR) in case-control associations, allele frequencies in genome databases, and predictions for conservation/pathogenicity. We reviewed whether variants damage EFHC1 functions, whether efhc1-/- KO mice recapitulate CTC convulsions and "microdysgenesis" neuropathology, and whether supernumerary synaptic and dendritic phenotypes can be rescued in the fly model when EFHC1 is overexpressed. We rated strengths of evidence and applied ACMG combinatorial criteria for classifying variants. RESULTS: Nine variants were classified as "pathogenic," 14 as "likely pathogenic," 9 as "benign," and 2 as "likely benign." Twenty variants of unknown significance had an insufficient number of ancestry-matched controls, but ORs exceeded 5 when compared with racial/ethnic-matched Exome Aggregation Consortium (ExAC) controls. CONCLUSIONS: NHGRI gene-level evidence and variant-level evidence establish EFHC1 as the first non-ion channel microtubule-associated protein whose mutations disturb R-type VDCC and TRPM2 calcium currents in overgrown synapses and dendrites within abnormally migrated dislocated neurons, thus explaining CTC convulsions and "microdysgenesis" neuropathology of JME.Genet Med 19 2, 144-156.
PURPOSE: EFHC1 variants are the most common mutations in inherited myoclonic and grand mal clonic-tonic-clonic (CTC) convulsions of juvenile myoclonic epilepsy (JME). We reanalyzed 54 EFHC1 variants associated with epilepsy from 17 cohorts based on National Human Genome Research Institute (NHGRI) and American College of Medical Genetics and Genomics (ACMG) guidelines for interpretation of sequence variants. METHODS: We calculated Bayesian LOD scores for variants in coinheritance, unconditional exact tests and odds ratios (OR) in case-control associations, allele frequencies in genome databases, and predictions for conservation/pathogenicity. We reviewed whether variants damage EFHC1 functions, whether efhc1-/- KO mice recapitulate CTC convulsions and "microdysgenesis" neuropathology, and whether supernumerary synaptic and dendritic phenotypes can be rescued in the fly model when EFHC1 is overexpressed. We rated strengths of evidence and applied ACMG combinatorial criteria for classifying variants. RESULTS: Nine variants were classified as "pathogenic," 14 as "likely pathogenic," 9 as "benign," and 2 as "likely benign." Twenty variants of unknown significance had an insufficient number of ancestry-matched controls, but ORs exceeded 5 when compared with racial/ethnic-matched Exome Aggregation Consortium (ExAC) controls. CONCLUSIONS: NHGRI gene-level evidence and variant-level evidence establish EFHC1 as the first non-ion channel microtubule-associated protein whose mutations disturb R-type VDCC and TRPM2 calcium currents in overgrown synapses and dendrites within abnormally migrated dislocated neurons, thus explaining CTC convulsions and "microdysgenesis" neuropathology of JME.Genet Med 19 2, 144-156.
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