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1. Whole genome sequencing identifies putative associations between genomic polymorphisms and clinical response to the antiepileptic drug levetiracetam

Author

Vavoulis, DV, Pagnamenta, AT, Knight, SJL, Pentony, MM, Armstrong, M, Galizia, EC, Balestrini, S, Sisodiya, SM, and Taylor, JC

Subjects
Quantitative Biology - Genomics
Abstract

In the context of pharmacogenomics, whole genome sequencing provides a powerful approach for identifying correlations between response variability to specific drugs and genomic polymorphisms in a population, in an unbiased manner. In this study, we employed whole genome sequencing of DNA samples from patients showing extreme response (n=72) and non-response (n=27) to the antiepileptic drug levetiracetam, in order to identify genomic variants that underlie response to the drug. Although no common SNP (MAF>5%) crossed the conventional genome-wide significance threshold of 5e-8, we found common polymorphisms in genes SPNS3, HDC, MDGA2, NSG1 and RASGEF1C, which collectively predict clinical response to levetiracetam in our cohort with ~91% predictive accuracy. Among these genes, HDC, NSG1, MDGA2 and RASGEF1C are potentially implicated in synaptic neurotransmission, while SPNS3 is an atypical solute carrier transporter homologous to SV2A, the known molecular target of levetiracetam. Furthermore, we performed gene- and pathway-based statistical analysis on sets of rare and low-frequency variants (MAF<5%) and we identified associations between the following genes or pathways and response to levetiracetam: a) genes PRKCB and DLG2, which are involved in glutamatergic neurotransmission, a known target of anticonvulsants, including levetiracetam; b) genes FILIP1 and SEMA6D, which are involved in axon guidance and modelling of neural connections; and c) pathways with a role in synaptic neurotransmission, such as WNT5A-dependent internalization of FZD4 and disinhibition of SNARE formation. In summary, our approach to utilise whole genome sequencing on subjects with extreme response phenotypes is a feasible route to generate plausible hypotheses for investigating the genetic factors underlying drug response variability in cases of pharmaco-resistant epilepsy.

Published
2019

3. CHD2 variants are a risk factor for photosensitivity in epilepsy

Author

Galizia, EC, Myers, CT, Leu, C, de Kovel, CGF, Afrikanova, T, Cordero-Maldonado, ML, Martins, TG, Jacmin, M, Drury, S, Chinthapalli, VK, Muhle, H, Pendziwiat, M, Sander, T, Ruppert, A-K, Moller, RS, Thiele, H, Krause, R, Schubert, J, Lehesjoki, A-E, Nuernberg, P, Lerche, H, Palotie, A, Coppola, A, Striano, S, Del Gaudio, L, Boustred, C, Schneider, AL, Lench, N, Jocic-Jakubi, B, Covanis, A, Capovilla, G, Veggiotti, P, Piccioli, M, Parisi, P, Cantonetti, L, Sadleir, LG, Mullen, SA, Berkovic, SF, Stephani, U, Helbig, I, Crawford, AD, Esguerra, CV, Trenite, DGAK-N, Koeleman, BPC, Mefford, HC, Scheffer, IE, Sisodiya, SM, Galizia, EC, Myers, CT, Leu, C, de Kovel, CGF, Afrikanova, T, Cordero-Maldonado, ML, Martins, TG, Jacmin, M, Drury, S, Chinthapalli, VK, Muhle, H, Pendziwiat, M, Sander, T, Ruppert, A-K, Moller, RS, Thiele, H, Krause, R, Schubert, J, Lehesjoki, A-E, Nuernberg, P, Lerche, H, Palotie, A, Coppola, A, Striano, S, Del Gaudio, L, Boustred, C, Schneider, AL, Lench, N, Jocic-Jakubi, B, Covanis, A, Capovilla, G, Veggiotti, P, Piccioli, M, Parisi, P, Cantonetti, L, Sadleir, LG, Mullen, SA, Berkovic, SF, Stephani, U, Helbig, I, Crawford, AD, Esguerra, CV, Trenite, DGAK-N, Koeleman, BPC, Mefford, HC, Scheffer, IE, and Sisodiya, SM

Abstract

Photosensitivity is a heritable abnormal cortical response to flickering light, manifesting as particular electroencephalographic changes, with or without seizures. Photosensitivity is prominent in a very rare epileptic encephalopathy due to de novo CHD2 mutations, but is also seen in epileptic encephalopathies due to other gene mutations. We determined whether CHD2 variation underlies photosensitivity in common epilepsies, specific photosensitive epilepsies and individuals with photosensitivity without seizures. We studied 580 individuals with epilepsy and either photosensitive seizures or abnormal photoparoxysmal response on electroencephalography, or both, and 55 individuals with photoparoxysmal response but no seizures. We compared CHD2 sequence data to publicly available data from 34 427 individuals, not enriched for epilepsy. We investigated the role of unique variants seen only once in the entire data set. We sought CHD2 variants in 238 exomes from familial genetic generalized epilepsies, and in other public exome data sets. We identified 11 unique variants in the 580 individuals with photosensitive epilepsies and 128 unique variants in the 34 427 controls: unique CHD2 variation is over-represented in cases overall (P = 2.17 × 10(-5)). Among epilepsy syndromes, there was over-representation of unique CHD2 variants (3/36 cases) in the archetypal photosensitive epilepsy syndrome, eyelid myoclonia with absences (P = 3.50 × 10(-4)). CHD2 variation was not over-represented in photoparoxysmal response without seizures. Zebrafish larvae with chd2 knockdown were tested for photosensitivity. Chd2 knockdown markedly enhanced mild innate zebrafish larval photosensitivity. CHD2 mutation is the first identified cause of the archetypal generalized photosensitive epilepsy syndrome, eyelid myoclonia with absences. Unique CHD2 variants are also associated with photosensitivity in common epilepsies. CHD2 does not encode an ion channel, opening new avenues for research into hum

Published
2015

5. Seizures and epilepsy in the acute medical setting: presentation and management.

Author

Galizia EC and Faulkner HJ

Subjects
Acute Disease, Emergency Service, Hospital, Humans, Severity of Illness Index, Unconsciousness, United Kingdom, Epilepsy diagnosis, Epilepsy physiopathology, Epilepsy therapy, Seizures diagnosis, Seizures physiopathology, Seizures therapy
Abstract

Epileptic seizures are a common cause for presentation to acute medical services. Whether presenting with an isolated, unprovoked seizure or with status epilepticus, a good understanding of seizures and their mimics ensures appropriate investigation and treatment. This article describes the practical aspects of the management of patients presenting with seizures to the emergency department or the acute medical unit., (© Royal College of Physicians 2018. All rights reserved.)

Published
2018
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6. CHD2 variants are a risk factor for photosensitivity in epilepsy.

Author

Galizia EC, Myers CT, Leu C, de Kovel CG, Afrikanova T, Cordero-Maldonado ML, Martins TG, Jacmin M, Drury S, Krishna Chinthapalli V, Muhle H, Pendziwiat M, Sander T, Ruppert AK, Møller RS, Thiele H, Krause R, Schubert J, Lehesjoki AE, Nürnberg P, Lerche H, Palotie A, Coppola A, Striano S, Gaudio LD, Boustred C, Schneider AL, Lench N, Jocic-Jakubi B, Covanis A, Capovilla G, Veggiotti P, Piccioli M, Parisi P, Cantonetti L, Sadleir LG, Mullen SA, Berkovic SF, Stephani U, Helbig I, Crawford AD, Esguerra CV, Kasteleijn-Nolst Trenité DG, Koeleman BP, Mefford HC, Scheffer IE, and Sisodiya SM

Subjects
Animals, Electroencephalography, Gene Knockdown Techniques methods, Humans, Photic Stimulation methods, Risk Factors, Zebrafish, DNA-Binding Proteins genetics, Epilepsy, Reflex genetics, Genetic Predisposition to Disease, Mutation genetics
Abstract

Photosensitivity is a heritable abnormal cortical response to flickering light, manifesting as particular electroencephalographic changes, with or without seizures. Photosensitivity is prominent in a very rare epileptic encephalopathy due to de novo CHD2 mutations, but is also seen in epileptic encephalopathies due to other gene mutations. We determined whether CHD2 variation underlies photosensitivity in common epilepsies, specific photosensitive epilepsies and individuals with photosensitivity without seizures. We studied 580 individuals with epilepsy and either photosensitive seizures or abnormal photoparoxysmal response on electroencephalography, or both, and 55 individuals with photoparoxysmal response but no seizures. We compared CHD2 sequence data to publicly available data from 34 427 individuals, not enriched for epilepsy. We investigated the role of unique variants seen only once in the entire data set. We sought CHD2 variants in 238 exomes from familial genetic generalized epilepsies, and in other public exome data sets. We identified 11 unique variants in the 580 individuals with photosensitive epilepsies and 128 unique variants in the 34 427 controls: unique CHD2 variation is over-represented in cases overall (P = 2.17 × 10(-5)). Among epilepsy syndromes, there was over-representation of unique CHD2 variants (3/36 cases) in the archetypal photosensitive epilepsy syndrome, eyelid myoclonia with absences (P = 3.50 × 10(-4)). CHD2 variation was not over-represented in photoparoxysmal response without seizures. Zebrafish larvae with chd2 knockdown were tested for photosensitivity. Chd2 knockdown markedly enhanced mild innate zebrafish larval photosensitivity. CHD2 mutation is the first identified cause of the archetypal generalized photosensitive epilepsy syndrome, eyelid myoclonia with absences. Unique CHD2 variants are also associated with photosensitivity in common epilepsies. CHD2 does not encode an ion channel, opening new avenues for research into human cortical excitability., (© The Author (2015). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2015
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7. The idic(15) syndrome: expanding the phenotype.

Author

Galizia EC, Palmer R, Waters JJ, Koepp MJ, Hennekam RC, and Sisodiya SM

Subjects
Adult, Comparative Genomic Hybridization, Facies, Female, Humans, Karyotyping, Syndrome, Chromosome Aberrations, Chromosome Disorders diagnosis, Chromosomes, Human, Pair 15, Phenotype
Published
2012
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8. Array comparative genomic hybridization: results from an adult population with drug-resistant epilepsy and co-morbidities.

Author

Galizia EC, Srikantha M, Palmer R, Waters JJ, Lench N, Ogilvie CM, Kasperavičiūtė D, Nashef L, and Sisodiya SM

Subjects
Abnormalities, Multiple epidemiology, Adolescent, Adult, Aged, Aged, 80 and over, Chromosome Aberrations, Chromosomes, Human genetics, Cohort Studies, Comorbidity, Developmental Disabilities epidemiology, Developmental Disabilities genetics, Drug Resistance, Epilepsy drug therapy, Epilepsy epidemiology, Female, Genes, Humans, Intellectual Disability epidemiology, Intellectual Disability genetics, Male, Middle Aged, Mutation, Young Adult, Abnormalities, Multiple genetics, Comparative Genomic Hybridization, Epilepsy genetics
Abstract

Background: The emergence of array comparative genomic hybridization (array CGH) as a diagnostic tool in molecular genetics has facilitated recognition of microdeletions and microduplications as risk factors for both generalised and focal epilepsies. Furthermore, there is evidence that some microdeletions/duplications, such as the 15q13.3 deletion predispose to a range of neuropsychiatric disorders, including intellectual disability (ID), autism, schizophrenia and epilepsy. We hypothesised that array CGH would reveal relevant findings in an adult patient group with epilepsy and complex phenotypes., Methods: 82 patients (54 from the National Hospital for Neurology and Neurosurgery and 28 from King's College Hospital) with drug-resistant epilepsy and co-morbidities had array CGH. Separate clinicians ordered array CGH and separate platforms were used at the two sites., Results: In the two independent groups we identified copy number variants judged to be of pathogenic significance in 13.5% (7/52) and 20% (5/25) respectively, noting that slightly different selection criteria were used, giving an overall yield of 15.6%. Sixty-nine variants of unknown significance were also identified in the group from the National Hospital for Neurology and Neurosurgery and 5 from the King's College Hospital patient group., Conclusion: We conclude that array CGH be considered an important investigation in adults with complicated epilepsy and, at least at present for selected patients, should join the diagnostic repertoire of clinical history and examination, neuroimaging, electroencephalography and other indicated investigations in generating a more complete formulation of an individual's epilepsy., (Copyright © 2012 Elsevier Masson SAS. All rights reserved.)

Published
2012
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10. Delayed presentation of invasive thymoma in myasthenia gravis: a case report.

Author

Galizia EC, Farrugia ME, and Swingler R

Subjects
Cholinesterase Inhibitors therapeutic use, Electrocardiography, Fatal Outcome, Female, Humans, Immunization, Passive, Middle Aged, Plasma Exchange, Pyridostigmine Bromide therapeutic use, Respiration, Artificial, Tomography, X-Ray Computed, Myasthenia Gravis complications, Thymoma diagnosis, Thymoma etiology, Thymus Neoplasms diagnosis, Thymus Neoplasms etiology
Abstract

Current practice favors imaging of people with myasthenia gravis (MG) at the time of diagnosis to look for evidence of thymoma or thymic hyperplasia. However, there is no evidence to allow any recommendation about repeat imaging in people with normal scans at presentation, and there is little evidence to recommend surgical exploration in such cases. We present a patient with a delayed presentation of invasive thymoma 11 years after a normal thoracic computerized tomography., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published
2011
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