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2. Heart failure after pressure overload in autosomal-dominant desminopathies: Lessons from heterozygous DES-p.R349P knock-in mice.
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Florian Stöckigt, Lars Eichhorn, Thomas Beiert, Vincent Knappe, Tobias Radecke, Martin Steinmetz, Georg Nickenig, Viktoriya Peeva, Alexei P Kudin, Wolfram S Kunz, Carolin Berwanger, Lisa Kamm, Dorothea Schultheis, Ursula Schlötzer-Schrehardt, Christoph S Clemen, Rolf Schröder, and Jan W Schrickel
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Medicine ,Science - Abstract
BACKGROUND:Mutations in the human desmin gene (DES) cause autosomal-dominant and -recessive cardiomyopathies, leading to heart failure, arrhythmias, and AV blocks. We analyzed the effects of vascular pressure overload in a patient-mimicking p.R349P desmin knock-in mouse model that harbors the orthologue of the frequent human DES missense mutation p.R350P. METHODS AND RESULTS:Transverse aortic constriction (TAC) was performed on heterozygous (HET) DES-p.R349P mice and wild-type (WT) littermates. Echocardiography demonstrated reduced left ventricular ejection fraction in HET-TAC (WT-sham: 69.5 ± 2.9%, HET-sham: 64.5 ± 4.7%, WT-TAC: 63.5 ± 4.9%, HET-TAC: 55.7 ± 5.4%; p
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- 2020
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3. Evaluation of Presumably Disease Causing SCN1A Variants in a Cohort of Common Epilepsy Syndromes.
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Dennis Lal, Eva M Reinthaler, Borislav Dejanovic, Patrick May, Holger Thiele, Anna-Elina Lehesjoki, Günter Schwarz, Erik Riesch, M Arfan Ikram, Cornelia M van Duijn, Andre G Uitterlinden, Albert Hofman, Hannelore Steinböck, Ursula Gruber-Sedlmayr, Birgit Neophytou, Federico Zara, Andreas Hahn, Genetic Commission of the Italian League against Epilepsy, EuroEPINOMICS CoGIE Consortium, Padhraig Gormley, Felicitas Becker, Yvonne G Weber, Maria Roberta Cilio, Wolfram S Kunz, Roland Krause, Fritz Zimprich, Johannes R Lemke, Peter Nürnberg, Thomas Sander, Holger Lerche, and Bernd A Neubauer
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Medicine ,Science - Abstract
ObjectiveThe SCN1A gene, coding for the voltage-gated Na+ channel alpha subunit NaV1.1, is the clinically most relevant epilepsy gene. With the advent of high-throughput next-generation sequencing, clinical laboratories are generating an ever-increasing catalogue of SCN1A variants. Variants are more likely to be classified as pathogenic if they have already been identified previously in a patient with epilepsy. Here, we critically re-evaluate the pathogenicity of this class of variants in a cohort of patients with common epilepsy syndromes and subsequently ask whether a significant fraction of benign variants have been misclassified as pathogenic.MethodsWe screened a discovery cohort of 448 patients with a broad range of common genetic epilepsies and 734 controls for previously reported SCN1A mutations that were assumed to be disease causing. We re-evaluated the evidence for pathogenicity of the identified variants using in silico predictions, segregation, original reports, available functional data and assessment of allele frequencies in healthy individuals as well as in a follow up cohort of 777 patients.Results and interpretationWe identified 8 known missense mutations, previously reported as pathogenic, in a total of 17 unrelated epilepsy patients (17/448; 3.80%). Our re-evaluation indicates that 7 out of these 8 variants (p.R27T; p.R28C; p.R542Q; p.R604H; p.T1250M; p.E1308D; p.R1928G; NP_001159435.1) are not pathogenic. Only the p.T1174S mutation may be considered as a genetic risk factor for epilepsy of small effect size based on the enrichment in patients (P = 6.60 x 10-4; OR = 0.32, fishers exact test), previous functional studies but incomplete penetrance. Thus, incorporation of previous studies in genetic counseling of SCN1A sequencing results is challenging and may produce incorrect conclusions.
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- 2016
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4. Parkinson phenotype in aged PINK1-deficient mice is accompanied by progressive mitochondrial dysfunction in absence of neurodegeneration.
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Suzana Gispert, Filomena Ricciardi, Alexander Kurz, Mekhman Azizov, Hans-Hermann Hoepken, Dorothea Becker, Wolfgang Voos, Kristina Leuner, Walter E Müller, Alexei P Kudin, Wolfram S Kunz, Annabelle Zimmermann, Jochen Roeper, Dirk Wenzel, Marina Jendrach, Moisés García-Arencíbia, Javier Fernández-Ruiz, Leslie Huber, Hermann Rohrer, Miguel Barrera, Andreas S Reichert, Udo Rüb, Amy Chen, Robert L Nussbaum, and Georg Auburger
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Medicine ,Science - Abstract
BackgroundParkinson's disease (PD) is an adult-onset movement disorder of largely unknown etiology. We have previously shown that loss-of-function mutations of the mitochondrial protein kinase PINK1 (PTEN induced putative kinase 1) cause the recessive PARK6 variant of PD.Methodology/principal findingsNow we generated a PINK1 deficient mouse and observed several novel phenotypes: A progressive reduction of weight and of locomotor activity selectively for spontaneous movements occurred at old age. As in PD, abnormal dopamine levels in the aged nigrostriatal projection accompanied the reduced movements. Possibly in line with the PARK6 syndrome but in contrast to sporadic PD, a reduced lifespan, dysfunction of brainstem and sympathetic nerves, visible aggregates of alpha-synuclein within Lewy bodies or nigrostriatal neurodegeneration were not present in aged PINK1-deficient mice. However, we demonstrate PINK1 mutant mice to exhibit a progressive reduction in mitochondrial preprotein import correlating with defects of core mitochondrial functions like ATP-generation and respiration. In contrast to the strong effect of PINK1 on mitochondrial dynamics in Drosophila melanogaster and in spite of reduced expression of fission factor Mtp18, we show reduced fission and increased aggregation of mitochondria only under stress in PINK1-deficient mouse neurons.ConclusionThus, aging Pink1(-/-) mice show increasing mitochondrial dysfunction resulting in impaired neural activity similar to PD, in absence of overt neuronal death.
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- 2009
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5. Distinct gene-set burden patterns underlie common generalized and focal epilepsies
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Mahmoud Koko, Roland Krause, Thomas Sander, Dheeraj Reddy Bobbili, Michael Nothnagel, Patrick May, Holger Lerche, Yen-Chen Anne Feng, Daniel P Howrigan, Liam E Abbott, Katherine Tashman, Felecia Cerrato, Tarjinder Singh, Henrike Heyne, Andrea Byrnes, Claire Churchhouse, Nick Watts, Matthew Solomonson, Dennis Lal, Erin L Heinzen, Ryan S Dhindsa, Kate E Stanley, Gianpiero L Cavalleri, Hakon Hakonarson, Ingo Helbig, Sarah Weckhuysen, Slavé Petrovski, Sitharthan Kamalakaran, Sanjay M Sisodiya, Patrick Cossette, Chris Cotsapas, Peter DeJonghe, Tracy Dixon-Salazar, Renzo Guerrini, Patrick Kwan, Anthony G Marson, Randy Stewart, Chantal Depondt, Dennis J Dlugos, Ingrid E Scheffer, Pasquale Striano, Catharine Freyer, Kevin McKenna, Brigid M Regan, Susannah T Bellows, Costin Leu, Caitlin A Bennett, Esther M C Johns, Alexandra Macdonald, Hannah Shilling, Rosemary Burgess, Dorien Weckhuysen, Melanie Bahlo, Terence J O'Brien, Marian Todaro, Hannah Stamberger, Danielle M Andrade, Tara R Sadoway, Kelly Mo, Heinz Krestel, Sabina Gallati, Savvas S Papacostas, Ioanna Kousiappa, George A Tanteles, Katalin Štěrbová, Markéta Vlčková, Lucie Sedláčková, Petra Laššuthová, Karl Martin Klein, Felix Rosenow, Philipp S Reif, Susanne Knake, Wolfram S Kunz, Gábor Zsurka, Christian E Elger, Jürgen Bauer, Michael Rademacher, Manuela Pendziwiat, Hiltrud Muhle, Annika Rademacher, Andreas vanBaalen, Sarah vonSpiczak, Ulrich Stephani, Zaid Afawi, Amos D Korczyn, Moien Kanaan, Christina Canavati, Gerhard Kurlemann, Karen Müller-Schlüter, Gerhard Kluger, Martin Häusler, Ilan Blatt, Johannes R Lemke, Ilona Krey, Yvonne G Weber, Stefan Wolking, Felicitas Becker, Christian Hengsbach, Sarah Rau, Ana F Maisch, Bernhard J Steinhoff, Andreas Schulze-Bonhage, Susanne Schubert-Bast, Herbert Schreiber, Ingo Borggräfe, Christoph J Schankin, Thomas Mayer, Rudolf Korinthenberg, Knut Brockmann, Dieter Dennig, Rene Madeleyn, Reetta Kälviäinen, Pia Auvinen, Anni Saarela, Tarja Linnankivi, Anna-Elina Lehesjoki, Mark I Rees, Seo-Kyung Chung, William O Pickrell, Robert Powell, Natascha Schneider, Simona Balestrini, Sara Zagaglia, Vera Braatz, Michael R Johnson, Pauls Auce, Graeme J Sills, Larry W Baum, Pak C Sham, Stacey S Cherny, Colin H T Lui, Nina Barišić, Norman Delanty, Colin P Doherty, Arif Shukralla, Mark McCormack, Hany El-Naggar, Laura Canafoglia, Silvana Franceschetti, Barbara Castellotti, Tiziana Granata, Federico Zara, Michele Iacomino, Francesca Madia, Maria Stella Vari, Maria Margherita Mancardi, Vincenzo Salpietro, Francesca Bisulli, Paolo Tinuper, Laura Licchetta, Tommaso Pippucci, Carlotta Stipa, Raffaella Minardi, Antonio Gambardella, Angelo Labate, Grazia Annesi, Lorella Manna, Monica Gagliardi, Elena Parrini, Davide Mei, Annalisa Vetro, Claudia Bianchini, Martino Montomoli, Viola Doccini, Carla Marini, Toshimitsu Suzuki, Yushi Inoue, Kazuhiro Yamakawa, Birute Tumiene, Lynette G Sadleir, Chontelle King, Emily Mountier, Hande S Caglayan, Mutluay Arslan, Zuhal Yapıcı, Uluc Yis, Pınar Topaloglu, Bulent Kara, Dilsad Turkdogan, Aslı Gundogdu-Eken, Nerses Bebek, Sibel Uğur-İşeri, Betül Baykan, Barış Salman, Garen Haryanyan, Emrah Yücesan, Yeşim Kesim, Çiğdem Özkara, Annapurna Poduri, Beth R Shiedley, Catherine Shain, Russell J Buono, Thomas N Ferraro, Michael R Sperling, Warren Lo, Michael Privitera, Jacqueline A French, Steven Schachter, Ruben I Kuzniecky, Orrin Devinsky, Manu Hegde, Pouya Khankhanian, Katherine L Helbig, Colin A Ellis, Gianfranco Spalletta, Fabrizio Piras, Federica Piras, Tommaso Gili, Valentina Ciullo, Andreas Reif, Andrew McQuillin, Nick Bass, Andrew McIntosh, Douglas Blackwood, Mandy Johnstone, Aarno Palotie, Michele T Pato, Carlos N Pato, Evelyn J Bromet, Celia Barreto Carvalho, Eric D Achtyes, Maria Helena Azevedo, Roman Kotov, Douglas S Lehrer, Dolores Malaspina, Stephen R Marder, Helena Medeiros, Christopher P Morley, Diana O Perkins, Janet L Sobell, Peter F Buckley, Fabio Macciardi, Mark H Rapaport, James A Knowles, Genomic Psychiatry Cohort, Ayman H Fanous, Steven A McCarroll, Namrata Gupta, Stacey B Gabriel, Mark J Daly, Eric S Lander, Daniel H Lowenstein, David B Goldstein, Samuel F Berkovic, Benjamin M Neale, Epi25 Collaborative, Koko M., Krause R., Sander T., Bobbili D.R., Nothnagel M., May P., Lerche H., Bisulli F., Tinuper P., Pippucci T., Abbott, Liam E., Hengsbach, Christian, Rau, Sarah, Maisch, Ana F., Steinhoff, Bernhard J., Schulze-Bonhage, Andreas, Schubert-Bast, Susanne, Schreiber, Herbert, Borggräfe, Ingo, Schankin, Christoph J., Mayer, Thomas, Tashman, Katherine, Korinthenberg, Rudolf, Brockmann, Knut, Kurlemann, Gerhard, Dennig, Dieter, Madeleyn, Rene, Kälviäinen, Reetta, Auvinen, Pia, Saarela, Anni, Linnankivi, Tarja, Lehesjoki, Anna-Elina, Cerrato, Felecia, Rees, Mark I., Chung, Seo-Kyung, Pickrell, William O., Powell, Robert, Schneider, Natascha, Balestrini, Simona, Zagaglia, Sara, Braatz, Vera, Johnson, Michael R., Auce, Pauls, Singh, Tarjinder, Sills, Graeme J., Baum, Larry W., Sham, Pak C., Cherny, Stacey S., Lui, Colin H. T., Barišic, Nina, Delanty, Norman, Doherty, Colin P., Shukralla, Arif, McCormack, Mark, Heyne, Henrike, El-Naggar, Hany, Canafoglia, Laura, Franceschetti, Silvana, Castellotti, Barbara, Granata, Tiziana, Zara, Federico, Iacomino, Michele, Madia, Francesca, Vari, Maria Stella, Mancardi, Maria Margherita, Byrnes, Andrea, Salpietro, Vincenzo, Bisulli, Francesca, Tinuper, Paolo, Licchetta, Laura, Pippucci, Tommaso, Stipa, Carlotta, Minardi, Raffaella, Gambardella, Antonio, Labate, Angelo, Annesi, Grazia, Churchhouse, Claire, Manna, Lorella, Gagliardi, Monica, Parrini, Elena, Mei, Davide, Vetro, Annalisa, Bianchini, Claudia, Montomoli, Martino, Doccini, Viola, Marini, Carla, Suzuki, Toshimitsu, Watts, Nick, Inoue, Yushi, Yamakawa, Kazuhiro, Tumiene, Birute, Sadleir, Lynette G., King, Chontelle, Mountier, Emily, Caglayan, Hande S., Arslan, Mutluay, Yapici, Zuhal, Yis, Uluc, Solomonson, Matthew, Topaloglu, Pinar, Kara, Bulent, Turkdogan, Dilsad, Gundogdu-Eken, Asli, Bebek, Nerses, Ugur-Iseri, Sibel, Baykan, Betül, Salman, Baris, Haryanyan, Garen, Yücesan, Emrah, Lal, Dennis, Kesim, Yesim, Özkara, Çigdem, Poduri, Annapurna, Shiedley, Beth R., Shain, Catherine, Buono, Russell J., Ferraro, Thomas N., Sperling, Michael R., Lo, Warren, Privitera, Michael, Heinzen, Erin L., French, Jacqueline A., Schachter, Steven, Kuzniecky, Ruben I., Devinsky, Orrin, Hegde, Manu, Khankhanian, Pouya, Helbig, Katherine L., Ellis, Colin A., Spalletta, Gianfranco, Piras, Fabrizio, Dhindsa, Ryan S., Piras, Federica, Gili, Tommaso, Ciullo, Valentina, Reif, Andreas, McQuillin, Andrew, Bass, Nick, McIntosh, Andrew, Blackwood, Douglas, Johnstone, Mandy, Palotie, Aarno, Stanley, Kate E., Pato, Michele T., Pato, Carlos N., Bromet, Evelyn J., Carvalho, Celia Barreto, Achtyes, Eric D., Azevedo, Maria Helena, Kotov, Roman, Lehrer, Douglas S., Malaspina, Dolores, Marder, Stephen R., Cavalleri, Gianpiero L., Medeiros, Helena, Morley, Christopher P., Perkins, Diana O., Sobell, Janet L., Buckley, Peter F., Macciardi, Fabio, Rapaport, Mark H., Knowles, James A., Cohort, Genomic Psychiatry, Fanous, Ayman H., Hakonarson, Hakon, McCarroll, Steven A., Gupta, Namrata, Gabriel, Stacey B., Daly, Mark J., Lander, Eric S., Lowenstein, Daniel H., Goldstein, David B., Lerche, Holger, Berkovic, Samuel F., Neale, Benjamin M., Helbig, Ingo, Krause, Roland, May, Patrick, Weckhuysen, Sarah, Petrovski, Slavé, Kamalakaran, Sitharthan, Sisodiya, Sanjay M., Cossette, Patrick, Cotsapas, Chris, DeJonghe, Peter, Dixon-Salazar, Tracy, Guerrini, Renzo, Kwan, Patrick, Marson, Anthony G., Stewart, Randy, Depondt, Chantal, Dlugos, Dennis J., Scheffer, Ingrid E., Striano, Pasquale, Freyer, Catharine, McKenna, Kevin, Regan, Brigid M., Bellows, Susannah T., Leu, Costin, Bennett, Caitlin A., Johns, Esther M. C., Macdonald, Alexandra, Shilling, Hannah, Burgess, Rosemary, Weckhuysen, Dorien, Bahlo, Melanie, O'Brien, Terence J., Todaro, Marian, Stamberger, Hannah, Andrade, Danielle M., Sadoway, Tara R., Mo, Kelly, Krestel, Heinz, Gallati, Sabina, Papacostas, Savvas S., Kousiappa, Ioanna, Tanteles, George A., Šterbová, Katalin, Vlcková, Markéta, Sedlácková, Lucie, Laššuthová, Petra, Klein, Karl Martin, Rosenow, Felix, Reif, Philipp S., Knake, Susanne, Kunz, Wolfram S., Zsurka, Gábor, Elger, Christian E., Bauer, Jürgen, Rademacher, Michael, Feng, Yen-Chen Anne, Pendziwiat, Manuela, Muhle, Hiltrud, Rademacher, Annika, van Baalen, Andreas, von Spiczak, Sarah, Stephani, Ulrich, Afawi, Zaid, Korczyn, Amos D., Kanaan, Moien, Canavati, Christina, Howrigan, Daniel P., Müller-Schlüter, Karen, Kluger, Gerhard, Häusler, Martin, Blatt, Ilan, Lemke, Johannes R., Krey, Ilona, Weber, Yvonne G., Wolking, Stefan, Becker, Felicitas, DFG Research Unit FOR-2715 (Germany), FNR (Luxembourg), NHGRI (US), NHLBI (US), DAAD (Germany). [sponsor], and Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center]
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Exome sequencing ,Male ,Medicine (General) ,Neurology [D14] [Human health sciences] ,Gene-set ,Genome-wide association study ,Disease ,Biology ,Epileptogenesis ,General Biochemistry, Genetics and Molecular Biology ,Whole Exome Sequencing ,Epilepsy ,R5-920 ,medicine ,Missense mutation ,Humans ,Exome ,Genetic Predisposition to Disease ,Gene ,Genetic association ,Ultra-rare variant ,Genetics ,Neurologie [D14] [Sciences de la santé humaine] ,Burden analysis ,Genetic Variation ,General Medicine ,medicine.disease ,Ultra-rare variants ,Gene-sets ,Case-Control Studies ,Medicine ,epilepsy ,Epilepsy, Generalized ,Female ,Genetics & genetic processes [F10] [Life sciences] ,Epilepsies, Partial ,Human medicine ,Burden analysi ,Génétique & processus génétiques [F10] [Sciences du vivant] ,Case-Control Studie ,Research Paper ,Genome-Wide Association Study ,Human - Abstract
EBioMedicine 72, 103588 (2021). doi:10.1016/j.ebiom.2021.103588, Published by Elsevier, Amsterdam [u.a.]
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- 2021
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6. Multiscale and multimodal imaging for three-dimensional vascular and histomorphological organ structure analysis of the pancreas
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Gabriel Alexander Salg, Verena Steinle, Jonas Labode, Willi Wagner, Alexander Studier-Fischer, Johanna Reiser, Elyes Farjallah, Michelle Guettlein, Jonas Albers, Tim Hilgenfeld, Nathalia A. Giese, Wolfram Stiller, Felix Nickel, Martin Loos, Christoph W. Michalski, Hans-Ulrich Kauczor, Thilo Hackert, Christian Dullin, Philipp Mayer, and Hannes Goetz Kenngott
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Pancreas ,Imaging ,Synchrotron ,Vascularization ,Virtual histology ,Computed tomography ,Medicine ,Science - Abstract
Abstract Exocrine and endocrine pancreas are interconnected anatomically and functionally, with vasculature facilitating bidirectional communication. Our understanding of this network remains limited, largely due to two-dimensional histology and missing combination with three-dimensional imaging. In this study, a multiscale 3D-imaging process was used to analyze a porcine pancreas. Clinical computed tomography, digital volume tomography, micro-computed tomography and Synchrotron-based propagation-based imaging were applied consecutively. Fields of view correlated inversely with attainable resolution from a whole organism level down to capillary structures with a voxel edge length of 2.0 µm. Segmented vascular networks from 3D-imaging data were correlated with tissue sections stained by immunohistochemistry and revealed highly vascularized regions to be intra-islet capillaries of islets of Langerhans. Generated 3D-datasets allowed for three-dimensional qualitative and quantitative organ and vessel structure analysis. Beyond this study, the method shows potential for application across a wide range of patho-morphology analyses and might possibly provide microstructural blueprints for biotissue engineering.
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- 2024
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7. Genotypes and phenotypes of patients with Lafora disease living in Germany
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Saskia Biskup, Jan Wagner, Dennis Döcker, Claudia D. Wurster, Roger Weis, Albert C. Ludolph, Anja Grimmer, Berge A. Minassian, Petra Gaspirova, Christian E. Elger, Jan Lewerenz, David A. Brenner, Tobias Baumgartner, Wolfram S. Kunz, and Sarah von Spiczak
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0301 basic medicine ,medicine.medical_specialty ,Pediatrics ,congenital, hereditary, and neonatal diseases and abnormalities ,Neurology ,business.industry ,Disease ,Progressive myoclonus epilepsy ,medicine.disease ,Lafora disease ,Article ,lcsh:RC346-429 ,lcsh:RC321-571 ,03 medical and health sciences ,030104 developmental biology ,0302 clinical medicine ,Genotype-phenotype distinction ,Epidemiology ,Medicine ,business ,Laforin ,lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry ,030217 neurology & neurosurgery ,Exome sequencing ,lcsh:Neurology. Diseases of the nervous system - Abstract
Background Lafora progressive myoclonus epilepsy (Lafora disease) is a rare, usually childhood-onset, fatal neurodegenerative disease caused by biallelic mutations in EPM2A (Laforin) or EPM2B (NHLRC1; Malin). The epidemiology of Lafora disease in Germany is largely unknown. The objective of this retrospective case series is to characterize the genotypes and phenotypes of patients with Lafora disease living in Germany. Methods The patients described in this case series initially had the suspected clinical diagnosis of Lafora disease, or unclassified progressive myoclonus epilepsy. Molecular genetic diagnostics including next generation sequencing-based diagnostic panel analysis or whole exome sequencing was performed. Results The parents of four out of the 11 patients are nonconsanguineous and of German origin while the other patients had consanguineous parents. Various variants were found in EPM2A (six patients) and in EPM2B (five patients). Eight variants have not been reported in the literature so far. The patients bearing novel variants had typical disease onset during adolescence and show classical disease courses. Conclusions This is the first larger case series of Lafora patients in Germany. Our data enable an approximation of the prevalence of manifest Lafora disease in Germany to 1,69 per 10 million people. Broader application of gene panel or whole-exome diagnostics helps clarifying unclassified progressive myoclonus epilepsy and establish an early diagnosis, which will be even more important as causal therapy approaches have been developed and are soon to be tested in a phase I study.
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- 2019
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8. Distinct segregation of the pathogenic m.5667G>A mitochondrial tRNAAsn mutation in extraocular and skeletal muscle in chronic progressive external ophthalmoplegia
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E. Schlapakow, Wolfram S. Kunz, Monika Jeub, Cornelia Kornblum, Bettina Wabbels, Gábor Zsurka, and Viktoriya Peeva
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0301 basic medicine ,Pathology ,medicine.medical_specialty ,Mitochondrial DNA ,Biology ,Extraocular muscles ,medicine.disease_cause ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Cytochrome c oxidase ,Genetics (clinical) ,Mutation ,Significant difference ,Skeletal muscle ,medicine.disease ,eye diseases ,Heteroplasmy ,030104 developmental biology ,medicine.anatomical_structure ,Neurology ,Pediatrics, Perinatology and Child Health ,biology.protein ,sense organs ,Neurology (clinical) ,Chronic progressive external ophthalmoplegia ,030217 neurology & neurosurgery - Abstract
Chronic progressive external ophthalmoplegia (CPEO) is a frequent clinical manifestation of disorders caused by pathogenic mitochondrial DNA mutations. However, for diagnostic purposes skeletal muscle tissue is used, since extraocular muscle tissue is usually not available for work-up. In the present study we aimed to identify causative factors that are responsible for extraocular muscle to be primarily affected in CPEO. We performed comparative histochemical and molecular genetic analyses of extraocular muscle and skeletal muscle single fibers in a case of isolated CPEO caused by the heteroplasmic m.5667G>A mutation in the mitochondrial tRNAAsn gene (MT-TN). Histochemical analyses revealed higher proportion of cytochrome c oxidase deficient fibers in extraocular muscle (41%) compared to skeletal muscle (10%). However, genetic analyses of single fibers revealed no significant difference either in the mutation loads between extraocular muscle and skeletal muscle cytochrome c oxidase deficient single fibers (extraocular muscle 86% ± 4.6%; skeletal muscle 87.8 %± 5.7%, p = 0.246) nor in the mutation threshold (extraocular muscle 74% ± 3%; skeletal muscle 74% ± 4%). We hypothesize that higher proportion of cytochrome c oxidase deficient fibers in extraocular muscle compared to skeletal muscle might be due to facilitated segregation of the m.5667G>A mutation into extraocular muscle, which may explain the preferential ocular manifestation and clinically isolated CPEO.
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- 2019
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9. Heterozygous variants in KCNC2 cause a broad spectrum of epilepsy phenotypes associated with characteristic functional alterations
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Manuela Pendziwiat, Renske Oegema, Ioanna Kousiappa, Yvonne G. Weber, Francesca Ragona, Dennis Lal, Ulrike B. S. Hedrich, Mulahasanovic L, Gali Heimer, Kearney H, Hiltrud Muhle, Pasquale Striano, Paolo Scudieri, Annika Rademacher, Rothschild A, Michele Iacomino, Lohmann E, Augustijn Pb, Russell J. Buono, Holger Lerche, Philipp S. Reif, George A. Tanteles, Karl Martin Klein, Bayat A, Francesca Bisulli, Wolfram S. Kunz, Montgomery S, Bruria Bz, Papacostas Ss, Renzo Guerrini, Laura Licchetta, Ingo Helbig, Bruenger T, Federico Zara, Zahnert F, Marie T. McDonald, Hartmut Baier, Patrick May, Niklas Schwarz, Doyle Mg, Simone Seiffert, Vetro A, Paolo Tinuper, Ortal B, Tiziana Granata, Felix Rosenow, and Raffaella Minardi
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Genetics ,Valproic Acid ,Broad spectrum ,Epilepsy ,biology ,Xenopus ,medicine ,Causative gene ,biology.organism_classification ,medicine.disease ,Phenotype ,Exome sequencing ,medicine.drug - Abstract
BackgroundKCNC2 encodes a member of the shaw-related voltage-gated potassium channel family (KV3.2), which are important for sustained high-frequency firing and optimized energy efficiency of action potentials in the brain.MethodsIndividuals with KCNC2 variants detected by exome sequencing were selected for clinical, further genetic and functional analysis. The cases were referred through clinical and research collaborations in our study. Four de novo variants were examined electrophysiologically in Xenopus laevis oocytes.ResultsWe identified novel KCNC2 variants in 27 patients with various forms of epilepsy. Functional analysis demonstrated gain-of-function in severe and loss-of-function in milder phenotypes as the underlying pathomechanisms with specific response to valproic acid.ConclusionThese findings implicate KCNC2 as a novel causative gene for epilepsy emphasizing the critical role of KV3.2 in the regulation of brain excitability with an interesting genotype-phenotype correlation and a potential concept for precision medicine.
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- 2021
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10. Impaired complex I repair causes recessive Leber’s hereditary optic neuropathy
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Yulya S. Itkis, Maja Hempel, Ben Pode-Shakked, Piero Barboni, N.L. Sheremet, Polina G. Tsygankova, Riccardo Berutti, Valerio Carelli, Chiara La Morgia, Daniele Ghezzi, Leonardo Caporali, Jean-Michel Rozet, Natalia A. Andreeva, Amelie T van der Ven, Peter Charbel Issa, Wolfram S. Kunz, Sarah L. Stenton, Claudia B. Catarino, Johannes A. Mayr, Matias Wagner, Maria Lucia Cascavilla, Flavia Palombo, Reka Kovacs-Nagy, Ilka Wittig, Alessandra Maresca, Pedro Felipe Malacarne, Thomas Klopstock, Costanza Lamperti, Sylvie Gerber, Cornelia Kornblum, Holger Prokisch, Nino V. Zhorzholadze, Jana Meisterknecht, Robert Kopajtich, Tatiana A. Nevinitsyna, Ekaterina Zakharova, Michele Carbonelli, Tatiana D. Krylova, Michal Tzadok, Elisabeth Graf, Zahra Assouline, Francesca Tagliavini, Josseline Kaplan, Maria S. Shmelkova, Mariantonietta Capristo, Elise Héon, Ortal Barel, Peter Freisinger, Elisheva Javasky, Igor Bychkov, Christina Ludwig, Tim M. Strom, Catherine Vignal-Clermont, Juliana Heidler, Stenton S.L., Sheremet N.L., Catarino C.B., Andreeva N.A., Assouline Z., Barboni P., Barel O., Berutti R., Bychkov I., Caporali L., Capristo M., Carbonelli M., Cascavilla M.L., Charbel Issa P., Freisinger P., Gerber S., Ghezzi D., Graf E., Heidler J., Hempel M., Heon E., Itkis Y.S., Javasky E., Kaplan J., Kopajtich R., Kornblum C., Kovacs-Nagy R., Krylova T.D., Kunz W.S., La Morgia C., Lamperti C., Ludwig C., Malacarne P.F., Maresca A., Mayr J.A., Meisterknecht J., Nevinitsyna T.A., Palombo F., Pode-Shakked B., Shmelkova M.S., Strom T.M., Tagliavini F., Tzadok M., Van der Ven A.T., Vignal-Clermont C., Wagner M., Zakharova E.Y., Zhorzholadze N.V., Rozet J.-M., Carelli V., Tsygankova P.G., Klopstock T., Wittig I., and Prokisch H.
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Male ,0301 basic medicine ,chemistry [Electron Transport Complex I] ,genetic structures ,deficiency [HSP40 Heat-Shock Proteins] ,Genetic disease ,Respiratory chain ,Penetrance ,metabolism [Optic Atrophy, Hereditary, Leber] ,Gene Knockout Techniques ,metabolism [HSP40 Heat-Shock Proteins] ,0302 clinical medicine ,Idebenone ,metabolism [Reactive Oxygen Species] ,Protein Subunit ,Genetics ,Homozygote ,Gene Knockout Technique ,Leber's hereditary optic neuropathy ,General Medicine ,Middle Aged ,Pedigree ,Phenotype ,Child, Preschool ,030220 oncology & carcinogenesis ,Female ,Reactive Oxygen Specie ,genetics [HSP40 Heat-Shock Proteins] ,Genetic diseases ,Human ,medicine.drug ,Adult ,congenital, hereditary, and neonatal diseases and abnormalities ,Mitochondrial DNA ,Adolescent ,Mitochondrial disease ,Genes, Recessive ,Optic Atrophy, Hereditary, Leber ,Biology ,Cell Line ,Young Adult ,03 medical and health sciences ,Genetic ,medicine ,Humans ,ddc:610 ,metabolism [Electron Transport Complex I] ,Gene ,Electron Transport Complex I ,Point mutation ,nutritional and metabolic diseases ,HSP40 Heat-Shock Proteins ,medicine.disease ,eye diseases ,Protein Subunits ,030104 developmental biology ,genetics [Optic Atrophy, Hereditary, Leber] ,Mutation ,Commentary ,HSP40 Heat-Shock Protein ,Reactive Oxygen Species ,Neuroscience - Abstract
Leber's hereditary optic neuropathy (LHON) is the most frequent mitochondrial disease and was the first to be genetically defined by a point mutation in mitochondrial DNA (mtDNA). A molecular diagnosis is achieved in up to 95% of cases, the vast majority of which are accounted for by 3 mutations within mitochondrial complex I subunit-encoding genes in the mtDNA (mtLHON). Here, we resolve the enigma of LHON in the absence of pathogenic mtDNA mutations. We describe biallelic mutations in a nuclear encoded gene, DNAJC30, in 33 unsolved patients from 29 families and establish an autosomal recessive mode of inheritance for LHON (arLHON), which to date has been a prime example of a maternally inherited disorder. Remarkably, all hallmarks of mtLHON were recapitulated, including incomplete penetrance, male predominance, and significant idebenone responsivity. Moreover, by tracking protein turnover in patient-derived cell lines and a DNAJC30-knockout cellular model, we measured reduced turnover of specific complex I N-module subunits and a resultant impairment of complex I function. These results demonstrate that DNAJC30 is a chaperone protein needed for the efficient exchange of complex I subunits exposed to reactive oxygen species and integral to a mitochondrial complex I repair mechanism, thereby providing the first example to our knowledge of a disease resulting from impaired exchange of assembled respiratory chain subunits.
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- 2021
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11. Impairment of mitochondrial oxidative phosphorylation in skin fibroblasts of SALS and FALS patients is rescued by in vitro treatment with ROS scavengers
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Stefanie Schreiber, Jarosław Walczak, Irina Miller, Werner Zuschratter, Joanna Szczepanowska, Wolfram S. Kunz, Susanne Petri, Grazyna Debska-Vielhaber, Viktoriya Peeva, Frank N. Gellerich, Judith Machts, Andreas Hermann, Stefan Vielhaber, and Susanne Vogt
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0301 basic medicine ,Male ,Mitochondrion ,medicine.disease_cause ,Oxidative Phosphorylation ,0302 clinical medicine ,C9orf72 ,metabolism [Reactive Oxygen Species] ,Amyotrophic lateral sclerosis ,Cells, Cultured ,Skin ,Free Radical Scavengers ,Middle Aged ,Mitochondria ,Neurology ,Female ,metabolism [Fibroblasts] ,Adult ,Mitochondrial DNA ,SOD1 ,Skin fibroblasts ,Oxidative phosphorylation ,Biology ,TARDBP ,03 medical and health sciences ,Young Adult ,metabolism [Skin] ,Developmental Neuroscience ,medicine ,Humans ,ddc:610 ,drug effects [Skin] ,pathology [Amyotrophic Lateral Sclerosis] ,Aged ,drug therapy [Amyotrophic Lateral Sclerosis] ,metabolism [Amyotrophic Lateral Sclerosis] ,Amyotrophic Lateral Sclerosis ,Fibroblasts ,medicine.disease ,metabolism [Mitochondria] ,030104 developmental biology ,pharmacology [Free Radical Scavengers] ,Oxidative stress ,therapeutic use [Free Radical Scavengers] ,Cancer research ,Mitochondrial dysfunction ,Reactive Oxygen Species ,030217 neurology & neurosurgery - Abstract
Amyotrophic lateral sclerosis (ALS) is a devastating, rapidly progressive, neurodegenerative disorder affecting upper and lower motor neurons. Approximately 10% of patients suffer from familial ALS (FALS) with mutations in different ubiquitously expressed genes including SOD1, C9ORF72, TARDBP, and FUS. There is compelling evidence for mitochondrial involvement in the pathogenic mechanisms of FALS and sporadic ALS (SALS), which is believed to be relevant for disease. Owing to the ubiquitous expression of relevant disease-associated genes, mitochondrial dysfunction is also detectable in peripheral patient tissue. We here report results of a detailed investigation of the functional impairment of mitochondrial oxidative phosphorylation (OXPHOS) in cultured skin fibroblasts from 23 SALS and 17 FALS patients, harboring pathogenic mutations in SOD1, C9ORF72, TARDBP and FUS. A considerable functional and structural mitochondrial impairment was detectable in fibroblasts from patients with SALS. Similarly, fibroblasts from patients with FALS, harboring pathogenic mutations in TARDBP, FUS and SOD1, showed mitochondrial defects, while fibroblasts from C9ORF72 associated FALS showed a very mild impairment detectable in mitochondrial ATP production rates only. While we could not detect alterations in the mtDNA copy number in the SALS or FALS fibroblast cultures, the impairment of OXPHOS in SALS fibroblasts and SOD1 or TARDBP FALS could be rescued by in vitro treatments with CoQ10 (5 μM for 3 weeks) or Trolox (300 μM for 5 days). This underlines the role of elevated oxidative stress as a potential cause for the observed functional effects on mitochondria, which might be relevant disease modifying factors.
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- 2021
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12. Novel KCNH1 Mutations Associated with Epilepsy: Broadening the Phenotypic Spectrum of KCNH1-Associated Diseases
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Susanne Schoch, Hanns-Georg Klein, Monika Jeub, Wolfram S. Kunz, Idil Ariöz, Randi von Wrede, Albert J. Becker, Hubertus von Voss, Christian E. Elger, and Rainer Surges
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0301 basic medicine ,Adult ,Male ,Models, Molecular ,lcsh:QH426-470 ,Protein Conformation ,Kv10.1 potassium channel ,Nonsense mutation ,Mutation, Missense ,Biology ,Article ,03 medical and health sciences ,Epilepsy ,Structure-Activity Relationship ,0302 clinical medicine ,Germline mutation ,KCNH1 mutations ,Exome Sequencing ,Genetics ,medicine ,Missense mutation ,Humans ,Genetic Predisposition to Disease ,Amino Acid Sequence ,Child ,Genetics (clinical) ,Genetic Association Studies ,Germ-Line Mutation ,Base Sequence ,Computational Biology ,High-Throughput Nucleotide Sequencing ,Electroencephalography ,Cortical dysplasia ,medicine.disease ,Phenotype ,Penetrance ,Magnetic Resonance Imaging ,Ether-A-Go-Go Potassium Channels ,lcsh:Genetics ,030104 developmental biology ,Mutation ,Female ,Haploinsufficiency ,030217 neurology & neurosurgery - Abstract
Here, we describe four patients suffering from a rather broad spectrum of epilepsy-related disorders, ranging from developmental and epileptic encephalopathy with intellectual disability (DEE) to genetic generalized epilepsy (GGE), which all harbor novel KCNH1 mutations. In one family, we found a weak association of a novel nonsense mutation with epilepsy, suggesting reduced penetrance, and which shows, in agreement with previous findings, that gain-of-function effects rather than haploinsufficiency are important for the pathogenicity of mutations. De novo missense variants in the pore region of the channel result in severe phenotypes presenting usually with DEE with various malformations. The potential pathogenicity of a novel KCNH1 germline mutation located outside of the critical pore domain observed in a GGE patient with a milder phenotype is supported by the fact that the very same amino acid exchange was detected as a somatic mutation in the resected brain tissue of a patient suffering from a focal cortical dysplasia type IIb. Thus, our case series broadens the phenotypic spectrum of KCNH1-associated diseases.
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- 2021
13. Sub-genic intolerance, ClinVar, and the epilepsies: A whole-exome sequencing study of 29,165 individuals
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Joshua E. Motelow, Gundula Povysil, Ryan S. Dhindsa, Kate E. Stanley, Andrew S. Al- len, Yen-Chen Anne Feng, Daniel P. Howrigan, Liam E. Abbott, Ka- therine Tashman, Felecia Cerrato, Caroline Cusick, Tarjinder Singh, Henrike Heyne, Andrea E. Byrnes, Claire Churchhouse, Nick Watts, Matthew Solomonson, Dennis Lal, Namrata Gupta, Benjamin M. Neale, Gianpiero L. Cavalleri, Patrick Cossette, Chris Cotsapas, Peter De Jonghe, Tracy Dixon-Salazar, Renzo Guerrini, Hakon Hakonarson, Erin L. Heinzen, Ingo Helbig, Patrick Kwan, Anthony G. Marson, Slave ? Petrovski, Sitharthan Kamalakaran, Sanjay M. Sisodiya, Randy Stewart, Sarah Weckhuysen, Chantal Depondt, Dennis J. Dlugos, Ingrid E. Scheffer, Pasquale Striano, Catharine Freyer, Roland Krause, Patrick May, Kevin McKenna, Brigid M. Regan, Caitlin A. Bennett, Costin Leu, Stephanie L. Leech, Terence J. O'Brien, Marian Todaro, Hannah Stamberger, Danielle M. Andrade, Quratulain Zulfiqar Ali, Tara R. Sadoway, Heinz Krestel, Andre ? Schaller, Savvas S. Papacostas, Ioanna Kou- siappa, George A. Tanteles, Yiolanda Christou, Katalin Sterbova ?, Marke ? ta Vlckova ?, Lucie Sedlackova, Petra Lassuthova ?, Karl Martin Klein, Felix Rosenow, Philipp S. Reif, Susanne Knake, Bernd A. Neubauer, Friedrich Zimprich, Martha Feucht, Eva M. Reinthaler, Wolfram S. Kunz, Ga ?bor Zsurka, Rainer Surges, Tobias Baumgart- ner, Randi von Wrede, Manuela Pendziwiat, Hiltrud Muhle, An- nika Rademacher, Andreas van Baalen, Sarah von Spiczak, Ulrich Stephani, Zaid Afawi, Amos D. Korczyn, Moien Kanaan, Christina Canavati, Gerhard Kurlemann, Karen Mu ?ller-Schlu ?ter, Gerhard Kluger, Martin Ha ?usler, Ilan Blatt, Johannes R. Lemke, Ilona Krey, Yvonne G. Weber, Stefan Wolking, Felicitas Becker, Stephan Lauxmann, Christian Boßelmann, Josua Kegele, Christian Hengs- bach, Sarah Rau, Bernhard J. Steinhoff, Andreas Schulze-Bonhage, IngoBorggra ?fe, ChristophJ.Schankin, SusanneSchubert-Bast, Herbert Schreiber, Thomas Mayer, Rudolf Korinthenberg, Knut Brockmann, Markus Wolff, Dieter Dennig, Rene Madeleyn, Reetta Ka ?lvia ?inen, Anni Saarela, Oskari Timonen, Tarja Linnankivi, Anna-Elina Lehesjoki, Sylvain Rheims, Gaetan Lesca, Philippe Ryvlin, Louis Maillard, Luc Valton, Philippe Derambure, Fabrice Bartolomei, Edouard Hirsch, Ve ?ronique Michel, Francine Chas- soux, Mark I. Rees, Seo-Kyung Chung, William O. Pickrell, Robert Powell, Mark D. Baker, Beata Fonferko-Shadrach, Charlotte Law- thom, Joseph Anderson, Natascha Schneider, Simona Balestrini, Sara Zagaglia, Vera Braatz, Michael R. Johnson, Pauls Auce, Graeme J. Sills, Larry W. Baum, Pak C. Sham, Stacey S. Cherny, Colin H.T. Lui, Norman Delanty, Colin P. Doherty, Arif Shukralla, Hany El-Naggar, Peter Widdess-Walsh, Nina Barisic, Laura 12 The American Journal of Human Genetics 108, 1-18, June 3, 2021 Please cite this article in press as: Epi25 Collaborative, Sub-genic intolerance, ClinVar, the epilepsies: A whole-exome sequencing study of 29, 165 individuals, The American Journal of Human Genetics (2021), https://doi.org/10.1016/j.ajhg.2021.04.009 Canafoglia, Silvana Franceschetti, Barbara Castellotti, Tiziana Granata, Francesca Ragona, Federico Zara, Michele Iacomino, An- tonella Riva, Francesca Madia, Maria Stella Vari, Vincenzo Salpie- tro, Marcello Scala, Maria Margherita Mancardi, Lino Nobili, Elisa- betta Amadori, Thea Giacomini, Francesca Bisulli, Tommaso Pippucci, Laura Licchetta, Raffaella Minardi, Paolo Tinuper, Lor- enzo Muccioli, Barbara Mostacci, Antonio Gambardella, Angelo Labate, Grazia Annesi, Lorella Manna, Monica Gagliardi, Elena Parrini, Davide Mei, Annalisa Vetro, Claudia Bianchini, Martino Montomoli, Viola Doccini, Carmen Barba, Shinichi Hirose, At- sushi Ishii, Toshimitsu Suzuki, Yushi Inoue, Kazuhiro Yamakawa, Ahmad Beydoun, Wassim Nasreddine, Nathalie Khoueiry Zgheib, Birute Tumiene, Algirdas Utkus, Lynette G. Sadleir, Chontelle King, S. Hande Caglayan, Mutluay Arslan, Zuhal Yap?c?, P?nar To- paloglu, Bulent Kara, Uluc Yis, Dilsad Turkdogan, Asl? Gun- dogdu-Eken, Nerses Bebek, Meng-Han Tsai, Chen-Jui Ho, Chih- Hsiang Lin, Kuang-Lin Lin, I-Jun Chou, Annapurna Poduri, Beth R. Shiedley, Catherine Shain, Jeffrey L. Noebels, Alicia Goldman, Robyn M. Busch, Lara Jehi, Imad M. Najm, Lisa Ferguson, Jean Khoury, Tracy A. Glauser, Peggy O. Clark, Russell J. Buono, Thomas N. Ferraro, Michael R. Sperling, Warren Lo, Michael Privitera, Jac- queline A. French, Steven Schachter, Ruben I. Kuzniecky, Orrin Devinsky, Manu Hegde, David A. Greenberg, Colin A. Ellis, Ethan Goldberg, Katherine L. Helbig, Mahgenn Cosico, Priya Vaidis- waran, Eryn Fitch, Samuel F. Berkovic, Holger Lerche, Daniel H. Lowenstein, David B. Goldstein., Motelow J.E., Povysil G., Dhindsa R.S., Stanley K.E., Allen A.S., Feng Y.-C.A., Howrigan D.P., Abbott L.E., Tashman K., Cerrato F., Cusick C., Singh T., Heyne H., Byrnes A.E., Churchhouse C., Watts N., Solomonson M., Lal D., Gupta N., Neale B.M., Cavalleri G.L., 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., Sisodiya S.M., 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., Bennett C.A., Leu C., Leech S.L., O'Brien T.J., Todaro M., Stamberger H., Andrade D.M., Ali Q.Z., Sadoway T.R., Krestel H., Schaller A., Papacostas S.S., Kousiappa I., Tanteles G.A., Christou Y., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K.M., Rosenow F., Reif P.S., Knake S., Neubauer B.A., Zimprich F., Feucht M., Reinthaler E.M., Kunz W.S., Zsurka G., Surges R., Baumgartner T., von Wrede R., 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., Lauxmann S., Bosselmann C., Kegele J., Hengsbach C., Rau S., Steinhoff B.J., Schulze-Bonhage A., Borggrafe I., Schankin C.J., Schubert-Bast S., Schreiber H., Mayer T., Korinthenberg R., Brockmann K., Wolff M., Dennig D., Madeleyn R., Kalviainen R., Saarela A., Timonen O., Linnankivi T., Lehesjoki A.-E., Rheims S., Lesca G., Ryvlin P., Maillard L., Valton L., Derambure P., Bartolomei F., Hirsch E., Michel V., Chassoux F., Rees M.I., Chung S.-K., Pickrell W.O., Powell R., Baker M.D., Fonferko-Shadrach B., Lawthom C., Anderson J., 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., Delanty N., Doherty C.P., Shukralla A., El-Naggar H., Widdess-Walsh P., Barisic N., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Ragona F., Zara F., Iacomino M., Riva A., Madia F., Vari M.S., Salpietro V., Scala M., Mancardi M.M., Nobili L., Amadori E., Giacomini T., Bisulli F., Pippucci T., Licchetta L., Minardi R., Tinuper P., Muccioli L., Mostacci B., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Barba C., Hirose S., Ishii A., Suzuki T., Inoue Y., Yamakawa K., Beydoun A., Nasreddine W., Khoueiry Zgheib N., Tumiene B., Utkus A., Sadleir L.G., King C., Caglayan S.H., Arslan M., Yapici Z., Topaloglu P., Kara B., Yis U., Turkdogan D., Gundogdu-Eken A., Bebek N., Tsai M.-H., Ho C.-J., Lin C.-H., Lin K.-L., Chou I.-J., Poduri A., Shiedley B.R., Shain C., Noebels J.L., Goldman A., Busch R.M., Jehi L., Najm I.M., Ferguson L., Khoury J., Glauser T.A., Clark P.O., 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., Greenberg D.A., Ellis C.A., Goldberg E., Helbig K.L., Cosico M., Vaidiswaran P., Fitch E., Berkovic S.F., Lerche H., Lowenstein D.H., Goldstein D.B., Epi25 Collaborative, Institut de Neurosciences des Systèmes (INS), and Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)
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0301 basic medicine ,focal epilepsy ,Whole Exome Sequencing ,Cohort Studies ,Epilepsy ,0302 clinical medicine ,Genetic Marker ,Missense mutation ,Exome ,whole-exome sequencing ,generalized epilepsy ,ComputingMilieux_MISCELLANEOUS ,Genetics (clinical) ,Exome sequencing ,seizures ,Genetics ,ClinVar ,Phenotype ,epileptic encephalopathy ,Epi25 ,intolerance ,Case-Control Studie ,Human ,Genetic Markers ,seizure ,Disease Association ,Biology ,Article ,03 medical and health sciences ,Exome Sequencing ,medicine ,Humans ,Genetic Predisposition to Disease ,Genetic Testing ,Generalized epilepsy ,Gene ,Louvain ,[SCCO.NEUR]Cognitive science/Neuroscience ,Correction ,Genetic Variation ,medicine.disease ,epilepsy ,Human genetics ,030104 developmental biology ,Case-Control Studies ,Human medicine ,Cohort Studie ,Genetic generalized epilepsy ,030217 neurology & neurosurgery - Abstract
Summary Both mild and severe epilepsies are influenced by variants in the same genes, yet an explanation for the resulting phenotypic variation is unknown. As part of the ongoing Epi25 Collaboration, we performed a whole-exome sequencing analysis of 13,487 epilepsy-affected individuals and 15,678 control individuals. While prior Epi25 studies focused on gene-based collapsing analyses, we asked how the pattern of variation within genes differs by epilepsy type. Specifically, we compared the genetic architectures of severe developmental and epileptic encephalopathies (DEEs) and two generally less severe epilepsies, genetic generalized epilepsy and non-acquired focal epilepsy (NAFE). Our gene-based rare variant collapsing analysis used geographic ancestry-based clustering that included broader ancestries than previously possible and revealed novel associations. Using the missense intolerance ratio (MTR), we found that variants in DEE-affected individuals are in significantly more intolerant genic sub-regions than those in NAFE-affected individuals. Only previously reported pathogenic variants absent in available genomic datasets showed a significant burden in epilepsy-affected individuals compared with control individuals, and the ultra-rare pathogenic variants associated with DEE were located in more intolerant genic sub-regions than variants associated with non-DEE epilepsies. MTR filtering improved the yield of ultra-rare pathogenic variants in affected individuals compared with control individuals. Finally, analysis of variants in genes without a disease association revealed a significant burden of loss-of-function variants in the genes most intolerant to such variation, indicating additional epilepsy-risk genes yet to be discovered. Taken together, our study suggests that genic and sub-genic intolerance are critical characteristics for interpreting the effects of variation in genes that influence epilepsy.
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- 2021
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14. Analysis of shared common genetic risk between amyotrophic lateral sclerosis and epilepsy
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Schijven, D., Stevelink, R., Mccormack, M., van Rheenen, W., Luykx, J. J., Koeleman, B. P. C., Veldink, J. H., Aleksey, Shatunov, Mclaughlin, Russell L., van der Spek, Rick A. A., Alfredo, Iacoangeli, Kenna, Kevin P., van Eijk, Kristel R., Nicola, Ticozzi, Boris, Rogelj, Katarina, Vrabec, Metka, Ravnik-Glavač, Blaž, Koritnik, Janez, Zidar, Lea, Leonardis, Leja Dolenc Grošelj, Stéphanie, Millecamps, François, Salachas, Vincent, Meininger, Mamede de Carvalho, Susana, Pinto, Marta, Gromicho, Ana, Pronto-Laborinho, Mora, Jesus S., Ricardo, Rojas-García, Meraida, Polak, Siddharthan, Chandran, Shuna, Colville, Robert, Swingler, Morrison, Karen E., Shaw, Pamela J., John, Hardy, Orrell, Richard W., Alan, Pittman, Katie, Sidle, Pietro, Fratta, Andrea, Malaspina, Simon, Topp, Susanne, Petri, Susanna, Abdulla, Carsten, Drepper, Michael, Sendtner, Thomas, Meyer, Ophoff, Roel A., Staats, Kim A., Martina, Wiedau-Pazos, Catherine, Lomen-Hoerth, Van Deerlin, Vivianna M., Trojanowski, John Q., Lauren, Elman, Leo, Mccluskey, Nazli Basak, A., Thomas, Meitinger, Peter, Lichtner, Milena, Blagojevic-Radivojkov, Andres, Christian R., Gilbert, Bensimon, Bernhard, Landwehrmeyer, Alexis, Brice, Payan, Christine A. M., Safaa, Saker-Delye, Alexandra, Dürr, Wood, Nicholas W., Lukas, Tittmann, Wolfgang, Lieb, Andre, Franke, Marcella, Rietschel, Sven, Cichon, Nöthen, Markus M., Philippe, Amouyel, Christophe, Tzourio, Jean-François, Dartigues, Uitterlinden, Andre G., Fernando, Rivadeneira, Karol, Estrada, Albert, Hofman, Charles, Curtis, van der Kooi, Anneke J., Markus, Weber, Shaw, Christopher E., Smith, Bradley N., Daisy, Sproviero, Cristina, Cereda, Mauro, Ceroni, Luca, Diamanti, Roberto Del Bo, Stefania, Corti, Comi, Giacomo P., Sandra, D'Alfonso, Lucia, Corrado, Bertolin, Cinzia, Soraru', Gianni, Letizia, Mazzini, Viviana, Pensato, Cinzia, Gellera, Cinzia, Tiloca, Antonia, Ratti, Andrea, Calvo, Cristina, Moglia, Maura, Brunetti, Simona, Arcuti, Rosa, Capozzo, Chiara, Zecca, Christian, Lunetta, Silvana, Penco, Nilo, Riva, Alessandro, Padovani, Massimiliano, Filosto, Ian, Blair, Nicholson, Garth A., Rowe, Dominic B., Roger, Pamphlett, Kiernan, Matthew C., Julian, Grosskreutz, Witte, Otto W., Robert, Steinbach, Tino, Prell, Beatrice, Stubendorff, Ingo, Kurth, Hübner, Christian A., Nigel Leigh, P., Federico, Casale, Adriano, Chio, Ettore, Beghi, Elisabetta, Pupillo, Rosanna, Tortelli, Giancarlo, Logroscino, John, Powell, Ludolph, Albert C., Weishaupt, Jochen H., Wim, Robberecht, Philip Van Damme, Brown, Robert H., Glass, Jonathan D., Landers, John E., Orla, Hardiman, Andersen, Peter M., Philippe, Corcia, Patrick, Vourc'H, Vincenzo, Silani, van Es, Michael A., Jeroen Pasterkamp, R., Lewis, Cathryn M., Gerome, Breen, Ammar, Al-Chalabi, van den Berg, Leonard H., Veldink, Jan H., Daniela, Calini, Isabella, Fogh, Barbara, Castellotti, Franco, Taroni, Stella, Gagliardi, Giacomo, Comi, Sandra, D’Alfonso, Pegoraro, Elena, Giorgia, Querin, Francesca, Gerardi, Fabrizio, Rinaldi, Maria Sofia Cotelli, Luca, Chiveri, Maria Cristina Guaita, Patrizia, Perrone, Giancarlo, Comi, Carlo, Ferrarese, Lucio, Tremolizzo, Marialuisa, Delodovici, Giorgio, Bono, Stefania, Cammarosano, Antonio, Canosa, Dario, Cocito, Leonardo, Lopiano, Luca, Durelli, Bruno, Ferrero, Antonio, Bertolotto, Alessandro, Mauro, Luca, Pradotto, Roberto, Cantello, Enrica, Bersano, Dario, Giobbe, Maurizio, Gionco, Daniela, Leotta, Lucia, Appendino, Cavallo, Cavallo, Enrico, Odddenino, Claudio, Geda, Fabio, Poglio, Paola, Santimaria, Umberto, Massazza, Antonio, Villani, Roberto, Conti, Fabrizio, Pisano, Mario, Palermo, Franco, Vergnano, Paolo, Provera, Maria Teresa Penza, Marco, Aguggia, Nicoletta Di Vito, Piero, Meineri, Ilaria, Pastore, Paolo, Ghiglione, Danilo, Seliak, Nicola, Launaro, Giovanni, Astegiano, Bottacchi, Edo, Isabella Laura Simone, Stefano, Zoccolella, Michele, Zarrelli, Franco, Apollo, William, Camu, Jean Sebastien Hulot, Francois, Viallet, Philippe, Couratier, David, Maltete, Christine, Tranchant, Marie, Vidailhet, Bassel, Abou-Khalil, Pauls, Auce, Andreja, Avbersek, Melanie, Bahlo, David, J Balding, Thomas, Bast, Larry, Baum, Albert, J Becker, Felicitas, Becker, Bianca, Berghuis, Samuel, F Berkovic, Katja, E Boysen, Jonathan, P Bradfield, Lawrence, C Brody, Russell, J Buono, Ellen, Campbell, Gregory, D Cascino, Claudia, B Catarino, Gianpiero, L Cavalleri, Stacey, S Cherny, Krishna, Chinthapalli, Alison, J Coffey, Alastair, Compston, Antonietta, Coppola, Patrick, Cossette, John, J Craig, Gerrit-Jan de Haan, Peter De Jonghe, Carolien G, F de Kovel, Norman, Delanty, Chantal, Depondt, Orrin, Devinsky, Dennis, J Dlugos, Colin, P Doherty, Christian, E Elger, Johan, G Eriksson, Thomas, N Ferraro, Martha, Feucht, Ben, Francis, Jacqueline, A French, Saskia, Freytag, Verena, Gaus, Eric, B Geller, Christian, Gieger, Tracy, Glauser, Simon, Glynn, David, B Goldstein, Hongsheng, Gui, Youling, Guo, Kevin, F Haas, Hakon, Hakonarson, Kerstin, Hallmann, Sheryl, Haut, Erin, L Heinzen, Ingo, Helbig, Christian, Hengsbach, Helle, Hjalgrim, Michele, Iacomino, Andrés, Ingason, Michael, R Johnson, Reetta, Kälviäinen, Anne-Mari, Kantanen, Dalia, Kasperavičiūte, Dorothee Kasteleijn-Nolst Trenite, Heidi, E Kirsch, Robert, C Knowlton, Bobby P, C Koeleman, Roland, Krause, Martin, Krenn, Wolfram, S Kunz, Ruben, Kuzniecky, Patrick, Kwan, Dennis, Lal, Yu-Lung, Lau, Anna-Elina, Lehesjoki, Holger, Lerche, Costin, Leu, Dick, Lindhout, Warren, D Lo, Iscia, Lopes-Cendes, Daniel, H Lowenstein, Alberto, Malovini, Anthony, G Marson, Thomas, Mayer, Mark, Mccormack, James, L Mills, Nasir, Mirza, Martina, Moerzinger, Rikke, S Møller, Anne, M Molloy, Hiltrud, Muhle, Mark, Newton, Ping-Wing, Ng, Markus, M Nöthen, Peter, Nürnberg, Terence, J O’Brien, Karen, L Oliver, Aarno, Palotie, Faith, Pangilinan, Sarah, Peter, Slavé, Petrovski, Annapurna, Poduri, Michael, Privitera, Rodney, Radtke, Sarah, Rau, Philipp, S Reif, Eva, M Reinthaler, Felix, Rosenow, Josemir, W Sander, Thomas, Sander, Theresa, Scattergood, Steven, C Schachter, Christoph, J Schankin, Ingrid, E Scheffer, Bettina, Schmitz, Susanne, Schoch, Pak, C Sham, Jerry, J Shih, Graeme, J Sills, Sanjay, M Sisodiya, Lisa, Slattery, Alexander, Smith, David, F Smith, Michael, C Smith, Philip, E Smith, Anja C, M Sonsma, Doug, Speed, Michael, R Sperling, Bernhard, J Steinhoff, Ulrich, Stephani, Remi, Stevelink, Konstantin, Strauch, Pasquale, Striano, Hans, Stroink, Rainer, Surges, K Meng Tan, Liu Lin Thio, G Neil Thomas, Marian, Todaro, Rossana, Tozzi, Maria, S Vari, Eileen P, G Vining, Frank, Visscher, Sarah von Spiczak, Nicole, M Walley, Yvonne, G Weber, Zhi, Wei, Judith, Weisenberg, Christopher, D Whelan, Peter, Widdess-Walsh, Markus, Wolff, Stefan, Wolking, Wanling, Yang, Federico, Zara, Fritz, Zimprich, Project MinE ALS GWAS Consortium, International League Against Epilepsy Consortium on Complex Epilepsies, Department of Medical and Clinical Genetics, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Genomics of Neurological and Neuropsychiatric Disorders, Clinicum, Johan Eriksson / Principal Investigator, Department of General Practice and Primary Health Care, and HUS Helsinki and Uusimaa Hospital District
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Risk ,0301 basic medicine ,Aging ,Genetic correlation ,Geriatrics & Gerontology ,education ,Genome-wide association study ,Biology ,ALS ,Epilepsy ,Amyotrophic Lateral Sclerosis ,Gene Frequency ,Humans ,Genetic Variation ,Genome-Wide Association Study ,Negative Results ,Article ,3124 Neurology and psychiatry ,03 medical and health sciences ,0302 clinical medicine ,Genetic variation ,medicine ,Amyotrophic lateral sclerosis ,Allele frequency ,Genetics ,Science & Technology ,Mechanism (biology) ,General Neuroscience ,3112 Neurosciences ,Neurosciences ,medicine.disease ,3. Good health ,Minor allele frequency ,030104 developmental biology ,Neurology (clinical) ,Neurosciences & Neurology ,Geriatrics and Gerontology ,Life Sciences & Biomedicine ,030217 neurology & neurosurgery ,Developmental Biology - Abstract
Because hyper-excitability has been shown to be a shared pathophysiological mechanism, we used the latest and largest genome-wide studies in amyotrophic lateral sclerosis (n = 36,052) and epilepsy (n = 38,349) to determine genetic overlap between these conditions. First, we showed no significant genetic correlation, also when binned on minor allele frequency. Second, we confirmed the absence of polygenic overlap using genomic risk score analysis. Finally, we did not identify pleiotropic variants in meta-analyses of the 2 diseases. Our findings indicate that amyotrophic lateral sclerosis and epilepsy do not share common genetic risk, showing that hyper-excitability in both disorders has distinct origins. ispartof: NEUROBIOLOGY OF AGING vol:92 ispartof: location:United States status: published
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- 2020
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15. Pharmacoresponse in genetic generalized epilepsy:a genome-wide association study
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Elke Schaeffeler, Graeme J. Sills, Thomas Sander, Holger Lerche, Yvonne G. Weber, Pauls Auce, Bobby P. C. Koeleman, Anne T. Nies, Josemir W. Sander, Marina Nikanorova, Marvin Johnson, Norman Delanty, Sarah Weckhuysen, Federico Zara, Karl Martin Klein, Gianpiero L. Cavalleri, Sanjay M. Sisodiya, Anthony G Marson, Fritz Zimprich, Roland Krause, Matthias Schwab, Wolfram S. Kunz, Martin Krenn, Herbert Schulz, Rikke S. Møller, Mark McCormack, Pasquale Striano, Andreja Avbersek, Felicitas Becker, Chantal Depondt, Stefan Wolking, and EpiPGx Consortium
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Male ,0301 basic medicine ,Candidate gene ,Adolescent ,Neurology [D14] [Human health sciences] ,levetiracetam ,Single-nucleotide polymorphism ,Genome-wide association study ,Pharmacologie ,Lamotrigine ,Bioinformatics ,Cohort Studies ,03 medical and health sciences ,0302 clinical medicine ,valproic acid ,Genetics ,medicine ,Humans ,SNP ,GWAS ,ddc:610 ,antiepileptic drugs ,Child ,Retrospective Studies ,Pharmacology ,Valproic Acid ,Neurologie [D14] [Sciences de la santé humaine] ,genetic generalized epilepsy ,lamotrigine ,pharmacoresistance ,business.industry ,Pharmacology. Therapy ,Biologie moléculaire ,Europe ,Treatment Outcome ,030104 developmental biology ,Case-Control Studies ,Molecular Medicine ,Anticonvulsants ,Epilepsy, Generalized ,Female ,Levetiracetam ,business ,Biologie ,030217 neurology & neurosurgery ,Pharmacogenetics ,Genome-Wide Association Study ,medicine.drug - Abstract
Aim: Pharmacoresistance is a major burden in epilepsy treatment. We aimed to identify genetic biomarkers in response to specific antiepileptic drugs (AEDs) in genetic generalized epilepsies (GGE). Materials & methods: We conducted a genome-wide association study (GWAS) of 3.3 million autosomal SNPs in 893 European subjects with GGE - responsive or nonresponsive to lamotrigine, levetiracetam and valproic acid. Results: Our GWAS of AED response revealed suggestive evidence for association at 29 genomic loci (p, SCOPUS: ar.j, info:eu-repo/semantics/published
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- 2020
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16. Epilepsy Subtype-Specific Copy Number Burden Observed in a Genome-Wide Study of 17 458 Subjects
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Niestroj, Lisa-Marie, Perez-Palma, Eduardo, Howrigan, Daniel P., Zhou, Yadi, Cheng, Feixiong, Saarentaus, Elmo, Nürnberg, Peter, Stevelink, Remi, Daly, Mark J., Palotie, Aarno, Lal, Dennis, Feng, Yen-Chen Anne, Abbott, Liam E., Tashman, Katherine, Cerrato, Felecia, Churchhouse, Claire, Gupta, Namrata, Neale, Benjamin M., Berkovic, Samuel F., Lerche, Holger, Goldstein, David B., Lowenstein, Daniel H., Cavalleri, Gianpiero L., Cossette, Patrick, Cotsapas, Chris, Dixon-Salazar, Tracy, Guerrini, Renzo, Hakonarson, Hakon, Heinzen, Erin L., Helbig, Ingo, Kwan, Patrick, Marson, Anthony G., Petrovski, Slavé, Kamalakaran, Sitharthan, Sisodiya, Sanjay M., Stewart, Randy, Depondt, Chantal, Dlugos, Dennis J., Scheffer, Ingrid E., Striano, Pasquale, Freyer, Catharine, Krause, Roland, May, Patrick, McKenna, Kevin, Regan, Brigid M., Bellows, Susannah T., Leu, Costin, Bennett, Caitlin A., Johns, Esther C., Macdonald, Alexandra, Shilling, Hannah, Burgess, Rosemary, Weckhuysen, Dorien, Bahlo, Melanie, O’Brien, Terence J., Todaro, Marian, Weckhuysen, Sarah, Stamberger, Hannah, De Jonghe, Peter, Andrade, Danielle M., Sadoway, Tara R., Mo, Kelly, Krestel, Heinz, Gallati, Sabina, Papacostas, Savvas S., Kousiappa, Ioanna, Tanteles, George A., Šterbová, Katalin, Vlcková, Markéta, Sedlácková, Lucie, Laššuthová, Petra, Klein, Karl Martin, Rosenow, Felix, Reif, Philipp S., Knake, Susanne, Kunz, Wolfram S., Zsurka, Gábor, Elger, Christian E., Bauer, Jürgen, Rademacher, Michael, Pendziwiat, Manuela, Muhle, Hiltrud, Rademacher, Annika, van Baalen, Andreas, von Spiczak, Sarah, Stephani, Ulrich, Afawi, Zaid, Korczyn, Amos D., Kanaan, Moien, Canavati, Christina, Kurlemann, Gerhard, Müller-Schlüter, Karen, Kluger, Gerhard, Häusler, Martin, Blatt, Ilan, Lemke, Johannes R., Krey, Ilona, Weber, Yvonne G., Wolking, Stefan, Becker, Felicitas, Hengsbach, Christian, Rau, Sarah, Maisch, Ana F., Steinhoff, Bernhard J., Schulze-Bonhage, Andreas, Schubert-Bast, Susanne, Schreiber, Herbert, Borggräfe, Ingo, Schankin, Christoph J., Mayer, Thomas, Korinthenberg, Rudolf, Brockmann, Knut, Dennig, Dieter, Madeleyn, Rene, Kälviäinen, Reetta, Auvinen, Pia, Saarela, Anni, Linnankivi, Tarja, Lehesjoki, Anna-Elina, Rees, Mark I., Chung, Seo-Kyung, Pickrell, William O., Powell, Robert, Schneider, Natascha, Balestrini, Simona, Zagaglia, Sara, Braatz, Vera, Johnson, Michael R., Auce, Pauls, Sills, Graeme J., Baum, Larry W., Sham, Pak C., Cherny, Stacey S., Lui, Colin H. T., Barišic, Nina, Delanty, Norman, Doherty, Colin P., Shukralla, Arif, McCormack, Mark, El-Naggar, Hany, Canafoglia, Laura, Franceschetti, Silvana, Castellotti, Barbara, Granata, Tiziana, Zara, Federico, Iacomino, Michele, Madia, Francesca, Vari, Maria Stella, Mancardi, Maria Margherita, Salpietro, Vincenzo, Bisulli, Francesca, Tinuper, Paolo, Licchetta, Laura, Pippucci, Tommaso, Stipa, Carlotta, Muccioli, Lorenzo, Minardi, Raffaella, Gambardella, Antonio, Labate, Angelo, Annesi, Grazia, Manna, Lorella, Gagliardi, Monica, Parrini, Elena, Mei, Davide, Vetro, Annalisa, Bianchini, Claudia, Montomoli, Martino, Doccini, Viola, Marini, Carla, Suzuki, Toshimitsu, Inoue, Yushi, Yamakawa, Kazuhiro, Tumiene, Birute, Mameniskiene, Ruta, Utkus, Algirdas, Praninskiene, Ruta, Grikiniene, Jurgita, Samaitiene, Ruta, Sadleir, Lynette G., King, Chontelle, Mountier, Emily, Caglayan, S. Hande, Arslan, Mutluay, Yapici, Zuhal, Yis, Uluc, Topaloglu, Pinar, Kara, Bulent, Turkdogan, Dilsad, Gundogdu-Eken, Asli, Bebek, Nerses, Ugur-Iseri, Sibel, Baykan, Betül, Salman, Baris, Haryanyan, Garen, Yücesan, Emrah, Kesim, Yesim, Özkara, Çigdem, Sheidley, Beth R., Shain, Catherine, Poduri, Annapurna, Buono, Russell J, Ferraro, Thomas N, Sperling, Michael R., Lo, Warren, Privitera, Michael, French, Jacqueline A., Schachter, Steven, Kuzniecky, Ruben I., Devinsky, Orrin, Hegde, Manu, Khankhanian, Pouya, Helbig, Katherine L., Ellis, Colin A., Spalletta, Gianfranco, Piras, Fabrizio, Piras, Federica, Gili, Tommaso, Ciullo, Valentina, YÜCESAN, EMRAH, Niestroj L.-M., Perez-Palma E., Howrigan D.P., Zhou Y., Cheng F., Saarentaus E., Nurnberg P., Stevelink R., Daly M.J., Palotie A., Lal D, Epi 25 Collaborative, Bisulli F., Tinuper P., Licchetta L., and Epi25 Collaborative
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Developmental and epileptic encephalopathy ,Male ,0301 basic medicine ,DNA Copy Number Variations ,Disease ,Bioinformatics ,Genome ,03 medical and health sciences ,Epilepsy ,0302 clinical medicine ,copy number variation ,developmental and epileptic encephalopathy ,epilepsy ,focal epilepsy ,genetic generalized epilepsy ,medicine ,Humans ,Genetic Predisposition to Disease ,Copy-number variation ,Generalized epilepsy ,DNA Copy Number Variation ,Copy number variation ,business.industry ,Breakpoint ,Focal epilepsy ,Original Articles ,medicine.disease ,3. Good health ,Genetic generalized epilepsy ,030104 developmental biology ,Female ,Human medicine ,Neurology (clinical) ,Personalized medicine ,business ,030217 neurology & neurosurgery ,Genome-Wide Association Study ,Human - Abstract
Cytogenic testing is routinely applied in most neurological centres for severe paediatric epilepsies. However, which characteristics of copy number variants (CNVs) confer most epilepsy risk and which epilepsy subtypes carry the most CNV burden, have not been explored on a genome-wide scale. Here, we present the largest CNV investigation in epilepsy to date with 10 712 European epilepsy cases and 6746 ancestry-matched controls. Patients with genetic generalized epilepsy, lesional focal epilepsy, non-acquired focal epilepsy, and developmental and epileptic encephalopathy were included. All samples were processed with the same technology and analysis pipeline. All investigated epilepsy types, including lesional focal epilepsy patients, showed an increase in CNV burden in at least one tested category compared to controls. However, we observed striking differences in CNV burden across epilepsy types and investigated CNV categories. Genetic generalized epilepsy patients have the highest CNV burden in all categories tested, followed by developmental and epileptic encephalopathy patients. Both epilepsy types also show association for deletions covering genes intolerant for truncating variants. Genome-wide CNV breakpoint association showed not only significant loci for genetic generalized and developmental and epileptic encephalopathy patients but also for lesional focal epilepsy patients. With a 34-fold risk for developing genetic generalized epilepsy, we show for the first time that the established epilepsy-associated 15q13.3 deletion represents the strongest risk CNV for genetic generalized epilepsy across the whole genome. Using the human interactome, we examined the largest connected component of the genes overlapped by CNVs in the four epilepsy types. We observed that genetic generalized epilepsy and non-acquired focal epilepsy formed disease modules. In summary, we show that in all common epilepsy types, 1.5–3% of patients carry epilepsy-associated CNVs. The characteristics of risk CNVs vary tremendously across and within epilepsy types. Thus, we advocate genome-wide genomic testing to identify all disease-associated types of CNVs.
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- 2020
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17. Heart failure after pressure overload in autosomal-dominant desminopathies: Lessons from heterozygous DES-p.R349P knock-in mice
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Tobias Radecke, Ursula Schlötzer-Schrehardt, Vincent Knappe, Jan W. Schrickel, Viktoriya Peeva, Carolin Berwanger, Lars Eichhorn, Thomas Beiert, Christoph S. Clemen, Florian Stöckigt, Lisa Kamm, Georg Nickenig, Rolf Schröder, Wolfram S. Kunz, Alexei P. Kudin, Dorothea Schultheis, and Martin Steinmetz
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0301 basic medicine ,Male ,Cardiac output ,Respiratory chain ,Cardiomyopathy ,Medizin ,Muskel- und Knochenstoffwechsel ,Biochemistry ,Desmin ,autosomal-dominant desminopathies ,Mice ,Electrocardiography ,0302 clinical medicine ,Medizinische Fakultät ,Medicine and Health Sciences ,Missense mutation ,Gene Knock-In Techniques ,Atrioventricular Block ,Energy-Producing Organelles ,Multidisciplinary ,Ejection fraction ,Heart ,Animal Models ,Mitochondrial DNA ,Mitochondria ,Nucleic acids ,Bioassays and Physiological Analysis ,DES-p.R349P ,Experimental Organism Systems ,Medicine ,Female ,Cellular Structures and Organelles ,Anatomy ,Cardiomyopathies ,Arrhythmia ,Research Article ,medicine.medical_specialty ,Heterozygote ,animal structures ,DNA Copy Number Variations ,Forms of DNA ,Science ,Cardiology ,Mouse Models ,Bioenergetics ,Research and Analysis Methods ,DNA, Mitochondrial ,03 medical and health sciences ,Model Organisms ,Internal medicine ,medicine ,Genetics ,Animals ,Humans ,ddc:610 ,Pressure overload ,business.industry ,Electrophysiological Techniques ,Biology and Life Sciences ,Proteins ,Stroke Volume ,Cell Biology ,DNA ,medicine.disease ,Disease Models, Animal ,Cytoskeletal Proteins ,stomatognathic diseases ,030104 developmental biology ,Endocrinology ,Amino Acid Substitution ,Heart failure ,Cardiovascular Anatomy ,Animal Studies ,Cardiac Electrophysiology ,business ,030217 neurology & neurosurgery - Abstract
Background Mutations in the human desmin gene (DES) cause autosomal-dominant and -recessive cardiomyopathies, leading to heart failure, arrhythmias, and AV blocks. We analyzed the effects of vascular pressure overload in a patient-mimicking p.R349P desmin knock-in mouse model that harbors the orthologue of the frequent human DES missense mutation p. R350P. Methods and results Transverse aortic constriction (TAC) was performed on heterozygous (HET) DES-p.R349P mice and wild-type (WT) littermates. Echocardiography demonstrated reduced left ventricular ejection fraction in HET-TAC (WT-sham: 69.5 +/- 2.9%, HET-sham: 64.5 +/- 4.7%, WT-TAC: 63.5 +/- 4.9%, HET-TAC: 55.7 +/- 5.4%; p < 0.01). Cardiac output was significantly reduced in HET-TAC (WT sham: 13088 +/- 2385 mu l/min, HET sham: 10391 +/- 1349 mu l/min, WT-TAC: 8097 +/- 1903 mu l/min, HET-TAC: 5793 +/- 2517 mu l/min; p< 0.01). Incidence and duration of AV blocks as well as the probability to induce ventricular tachycardias was highest in HET-TAC. We observed reduced mtDNA copy numbers in HET-TAC (WT-sham: 12546 +/- 406, HET-sham: 13526 +/- 781, WT-TAC: 11155 +/- 3315, HET-TAC: 8649 +/- 1582; p = 0.025), but no mtDNA deletions. The activity of respiratory chain complexes I and IV showed the greatest reductions in HET-TAC. Conclusion Pressure overload in HET mice aggravated the clinical phenotype of cardiomyopathy and resulted in mitochondrial dysfunction. Preventive avoidance of pressure overload/arterial hypertension in desminopathy patients might represent a crucial therapeutic measure.
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- 2020
18. Retinoencephalopathy with occipital lobe epilepsy in an OPA-1 mutation carrier
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Eike Steidl, Robert D. Nass, Albert J. Becker, Florian Gärtner, Rainer Surges, Niels Hansen, Christian E. Elger, Wolfgang Block, Carlos M. Quesada, Philipp Hermann, Elke Hattingen, Gábor Zsurka, Wolfram S. Kunz, Theodor Rüber, and Cornelia Kornblum
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Pathology ,medicine.medical_specialty ,Epilepsy ,Neurology ,Mutation Carrier ,business.industry ,Occipital lobe epilepsy ,medicine ,Neurology (clinical) ,General Medicine ,business ,medicine.disease - Published
- 2019
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19. Genetic variation in CFH predicts phenytoin-induced maculopapular exanthema in European-descent patients
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McCormack, Mark, Gui, Hongsheng, Ingason, Andrés, Speed, Doug, Wright, Galen E B, Zhang, Eunice J., Secolin, Rodrigo, Yasuda, Clarissa, Kwok, Maxwell, Wolking, Stefan, Becker, Felicitas, Rau, Sarah, Avbersek, Andreja, Heggeli, Kristin, Leu, Costin, Depondt, Chantal, Sills, Graeme J., Marson, Anthony G., Auce, Pauls, Brodie, Martin J., Francis, Ben, Johnson, Michael R., Koeleman, Bobby P C, Striano, Pasquale, Coppola, Antonietta, Zara, Federico, Kunz, Wolfram S., Sander, Josemir W., Lerche, Holger, Klein, Karl Martin, Weckhuysen, Sarah, Krenn, Martin, Gudmundsson, Lárus J, Stefánsson, Kári, Krause, Roland, Shear, Neil, Ross, Colin J D, Delanty, Norman, Pirmohamed, Munir, Carleton, Bruce C., Cendes, Fernando, Lopes-Cendes, Iscia, Liao, Wei-Ping, O'Brien, Terence J., Sisodiya, Sanjay M., Cherny, Stacey, Kwan, Patrick, Baum, Larry, Cavalleri, Gianpiero L., International League Against Epilepsy Consortium on Complex Epilepsies, Bisulli, Francesca, Mccormack, Mark, Gui, Hongsheng, Ingason, André, Speed, Doug, Wright, Galen E B, Zhang, Eunice J, Secolin, Rodrigo, Yasuda, Clarissa, Kwok, Maxwell, Wolking, Stefan, Becker, Felicita, Rau, Sarah, Avbersek, Andreja, Heggeli, Kristin, Leu, Costin, Depondt, Chantal, Sills, Graeme J, Marson, Anthony G, Auce, Paul, Brodie, Martin J, Francis, Ben, Johnson, Michael R, Koeleman, Bobby P C, Striano, Pasquale, Coppola, Antonietta, Zara, Federico, Kunz, Wolfram S, Sander, Josemir W, Lerche, Holger, Klein, Karl Martin, Weckhuysen, Sarah, Krenn, Martin, Gudmundsson, Lárus J, Stefánsson, Kári, Krause, Roland, Shear, Neil, Ross, Colin J D, Delanty, Norman, Pirmohamed, Munir, Carleton, Bruce C, Cendes, Fernando, Lopes-Cendes, Iscia, Liao, Wei-Ping, O'Brien, Terence J, Sisodiya, Sanjay M, Cherny, Stacey, Kwan, Patrick, Baum, Larry, Cavalleri, Gianpiero L, EPIGEN Consortium, Canadian Pharmacogenomics Network, for the EpiPGX Consortium, Int League Epilepsy Consortium, Læknadeild (HÍ), Faculty of Medicine (UI), Heilbrigðisvísindasvið (HÍ), School of Health Sciences (UI), Háskóli Íslands, University of Iceland, Wellcome Trust, Imperial College Healthcare NHS Trust- BRC Funding, Commission of the European Communities, McCormack, Mark, Zhang, Eunice J., Sills, Graeme J., Marson, Anthony G., Brodie, Martin J., Johnson, Michael R., Kunz, Wolfram S., Sander, Josemir W., Carleton, Bruce C., O'Brien, Terence J., Sisodiya, Sanjay M., Cavalleri, Gianpiero L., International League Against Epilepsy Consortium on Complex Epilepsie, and Bisulli, Francesca
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0301 basic medicine ,Linkage disequilibrium ,Pharmacogenomic Variants ,Neurology [D14] [Human health sciences] ,Genome-wide association study ,HLA-A-ASTERISK-3101 ,Linkage Disequilibrium ,0302 clinical medicine ,Flogaveiki ,INDUCED HYPERSENSITIVITY REACTIONS ,Medicine ,genetics ,POPULATION ,education.field_of_study ,Public health ,Taugavísindi ,3. Good health ,Carbamazepine ,Neurology ,Factor H ,Complement Factor H ,Association studies in genetics ,Lýðheilsa ,Anticonvulsants ,Drug Eruptions ,Erfðarannsóknir ,Life Sciences & Biomedicine ,STEVENS-JOHNSON-SYNDROME ,Population ,Antiepileptic drugs ,adverse drug reaction ,Clinical Neurology ,Mutation, Missense ,Human leukocyte antigen ,Complement factor I ,Case control studies ,White People ,Article ,03 medical and health sciences ,Asian People ,RISK-FACTOR ,Seizures ,Genetic variation ,Humans ,GENOME-WIDE ASSOCIATION ,education ,METAANALYSIS ,Retrospective Studies ,Science & Technology ,Neurology & Neurosurgery ,Neurologie [D14] [Sciences de la santé humaine] ,Epilepsy ,HLA-A Antigens ,business.industry ,Genetic Variation ,Correction ,CUTANEOUS ADVERSE-REACTIONS ,1103 Clinical Sciences ,Généralités ,1702 Cognitive Science ,GENOTYPES ,030104 developmental biology ,Apolipoproteins ,Case-Control Studies ,Phenytoin ,LAMOTRIGINE ,Immunology ,Alternative complement pathway ,epilepsy ,Neurosciences & Neurology ,Neurology (clinical) ,Human medicine ,1109 Neurosciences ,business ,030217 neurology & neurosurgery ,Genome-Wide Association Study - Abstract
Publisher's version (útgefin grein), Objective To characterize, among European and Han Chinese populations, the genetic predictors of maculopapular exanthema (MPE), a cutaneous adverse drug reaction common to antiepileptic drugs. Methods We conducted a case-control genome-wide association study of autosomal genotypes, including Class I and II human leukocyte antigen (HLA) alleles, in 323 cases and 1,321 drug-tolerant controls from epilepsy cohorts of northern European and Han Chinese descent. Results from each cohort were meta-analyzed. Results We report an association between a rare variant in the complement factor H–related 4 (CFHR4) gene and phenytoin-induced MPE in Europeans (p = 4.5 × 10–11; odds ratio [95% confidence interval] 7 [3.2–16]). This variant is in complete linkage disequilibrium with a missense variant (N1050Y) in the complement factor H (CFH) gene. In addition, our results reinforce the association between HLA-A*31:01 and carbamazepine hypersensitivity. We did not identify significant genetic associations with MPE among Han Chinese patients. Conclusions The identification of genetic predictors of MPE in CFHR4 and CFH, members of the complement factor H–related protein family, suggest a new link between regulation of the complement system alternative pathway and phenytoin-induced hypersensitivity in European-ancestral patients., This study was not industry-sponsored. The work was supported by a grant from the European Commission (7th Framework Programme Grant 279062, EpiPGX). M.M.C. and G.L.C. are supported by Science Foundation Ireland, grant 13/CDA/2223, and an RCSI seed funding grant GA 14-1899. This project was supported by the General Research Funds (HKU7623/08M and HKU7747/07M to S.C., CUHK4466/06M to P.K.) and Health and Medical Research Fund (HMRF 01120086 to P.K.) from Hong Kong. Some results presented in this article were prepared using the HPC facilities of the University of Luxembourg. This work was partly undertaken at UCLH/UCL, which received a proportion of funding from the Department of Health's NIHR Biomedical Research Centres funding scheme (J.W.S., S.M.S.). The work was also supported by the Epilepsy Society, UK (J.W.S., S.M.S.), by the foundation “no epilep,” the German Chapter of the ILAE (DGfE) (both to H.L.). F.C. and I.L.-C. are supported by Fundação de Amparo à Pesquisa do Estado de São Paulo, Brazil, through grant 2013/07559-3. J.E.Z. and M.P. thank the NHS Chair of Pharmacogenetics programme and MRC Centre for Drug Safety Science for support in Liverpool. B.C.C. and C.J.D.R. are supported by the Canadian Institutes of Health Research (CIHR) Drug Safety and Effectiveness Network (FRN-117588), the Canada Foundation for Innovation and the Canadian Dermatology Foundation. G.E.B.W. is supported by a CIHR Fellowship. The funders of the study had no role in the study design, data collection, data analysis, data interpretation, or writing of the report. M.M.C., H.G., and G.L.C. had full access to all the data in the study and the corresponding authors had final responsibility for the decision to submit for publication. The Article Processing Charge was funded by the European Commission OpenAIRE2020 project.
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- 2017
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20. Rare coding variants in genes encoding GABAA receptors in genetic generalised epilepsies: an exome-based case-control study
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Patrick May, Simon Girard, Merle Harrer, Dheeraj R Bobbili, Julian Schubert, Stefan Wolking, Felicitas Becker, Pamela Lachance-Touchette, Caroline Meloche, Micheline Gravel, Cristina E Niturad, Julia Knaus, Carolien De Kovel, Mohamad Toliat, Anne Polvi, Michele Iacomino, Rosa Guerrero-López, Stéphanie Baulac, Carla Marini, Holger Thiele, Janine Altmüller, Kamel Jabbari, Ann-Kathrin Ruppert, Wiktor Jurkowski, Dennis Lal, Raffaella Rusconi, Sandrine Cestèle, Benedetta Terragni, Ian D Coombs, Christopher A Reid, Pasquale Striano, Hande Caglayan, Auli Siren, Kate Everett, Rikke S Møller, Helle Hjalgrim, Hiltrud Muhle, Ingo Helbig, Wolfram S Kunz, Yvonne G Weber, Sarah Weckhuysen, Peter De Jonghe, Sanjay M Sisodiya, Rima Nabbout, Silvana Franceschetti, Antonietta Coppola, Maria S Vari, Dorothée Kasteleijn-Nolst Trenité, Betul Baykan, Ugur Ozbek, Nerses Bebek, Karl M Klein, Felix Rosenow, Dang K Nguyen, François Dubeau, Lionel Carmant, Anne Lortie, Richard Desbiens, Jean-François Clément, Cécile Cieuta-Walti, Graeme J Sills, Pauls Auce, Ben Francis, Michael R Johnson, Anthony G Marson, Bianca Berghuis, Josemir W Sander, Andreja Avbersek, Mark McCormack, Gianpiero L Cavalleri, Norman Delanty, Chantal Depondt, Martin Krenn, Fritz Zimprich, Sarah Peter, Marina Nikanorova, Robert Kraaij, Jeroen van Rooij, Rudi Balling, M Arfan Ikram, André G Uitterlinden, Giuliano Avanzini, Stephanie Schorge, Steven Petrou, Massimo Mantegazza, Thomas Sander, Eric LeGuern, Jose M Serratosa, Bobby P C Koeleman, Aarno Palotie, Anna-Elina Lehesjoki, Michael Nothnagel, Peter Nürnberg, Snezana Maljevic, Federico Zara, Patrick Cossette, Roland Krause, Holger Lerche, Edoardo Ferlazzo, Carlo di Bonaventura, Angela La Neve, Paolo Tinuper, Francesca Bisulli, Aglaia Vignoli, Giuseppe Capovilla, Giovanni Crichiutti, Antonio Gambardella, Vincenzo Belcastro, Amedeo Bianchi, Destina Yalçın, Gulsen Dizdarer, Kezban Arslan, Zuhal Yapıcı, Demet Kuşcu, Costin Leu, Kristin Heggeli, Joseph Willis, Sarah R Langley, Andrea Jorgensen, Prashant Srivastava, Sarah Rau, Christian Hengsbach, Anja C.M. Sonsma, Université Côte d'Azur, CNRS, UMR 7275, Institut de Pharmacologie Moléculaire et Cellulaire, Sophia Antipolis, Erasmus University Medical Center [Rotterdam] (Erasmus MC), Laboratory of Molecular Genetics of Stem Cells [University of Montreal], University of Montreal-Institut de Recherche en Immunologie et en Cancérologie [UdeM-Montréal] (IRIC), Université de Montréal (UdeM)-Université de Montréal (UdeM), University of Tübingen, University Medical Center [Utrecht], Universita degli studi di Genova, 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), A.Meyer Children's Hospital, Max Planck Institute for Plant Breeding Research (MPIPZ), Génomique métabolique (UMR 8030), Genoscope - Centre national de séquençage [Evry] (GENOSCOPE), Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université d'Évry-Val-d'Essonne (UEVE)-Centre National de la Recherche Scientifique (CNRS), University of Cologne, The Genome Analysis Centre (TGAC), Cologne Center for Genomics, Institut de pharmacologie moléculaire et cellulaire (IPMC), Université Nice Sophia Antipolis (1965 - 2019) (UNS), COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-COMUE Université Côte d'Azur (2015-2019) (COMUE UCA)-Centre National de la Recherche Scientifique (CNRS), Ingénierie des protéines (IP), Université de la Méditerranée - Aix-Marseille 2-Centre National de la Recherche Scientifique (CNRS), Department of Neurophysiopathology, Besta Neurological Institute, University of Southern Denmark (SDU), Medical Genetics Laboratory, Children’s Hospital of Philadelphia (CHOP ), Universitätsklinikum Bonn (UKB), Antwerp University Hospital [Edegem] (UZA), University of Antwerp (UA), Department of Clinical and Experimental Epilepsy, University College of London [London] (UCL), Département de Neuropédiatrie, CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Instituco Neurologico C. Besta, Instituto Neurologico C. Besta, Medical Genetics and Pediatric Cardiology, IRCCS Ospedale Pediatrico Bambino Gesù [Roma], Département de mathématiques [Sherbrooke] (UdeS), Faculté des sciences [Sherbrooke] (UdeS), Université de Sherbrooke (UdeS)-Université de Sherbrooke (UdeS), University of Liverpool, Institute of Neurology [London], Royal College of Surgeons in Ireland (RCSI), Neurology Division, Beaumont Hospital, Dublin 9, Ireland, Beaumont Hospital, Hôpital Erasme [Bruxelles] (ULB), Faculté de Médecine [Bruxelles] (ULB), Université libre de Bruxelles (ULB)-Université libre de Bruxelles (ULB), Medizinische Universität Wien = Medical University of Vienna, Department of Epilepsy Clinic and Experimental Neurophysiology, Fondazione IRCCS Istituto Neurologico 'Carlo Besta', Broad Institute of MIT and Harvard (BROAD INSTITUTE), Harvard Medical School [Boston] (HMS)-Massachusetts Institute of Technology (MIT)-Massachusetts General Hospital [Boston], Department of Medical and Clinical Genetics [Helsinki], Haartman Institute [Helsinki], Faculty of Medecine [Helsinki], Helsingin yliopisto = Helsingfors universitet = University of Helsinki-Helsingin yliopisto = Helsingfors universitet = University of Helsinki-Faculty of Medecine [Helsinki], Helsingin yliopisto = Helsingfors universitet = University of Helsinki-Helsingin yliopisto = Helsingfors universitet = University of Helsinki, Institute of Medical Informatics and Statistics, Pediatric Neurology and Neuromuscular Diseases Unit, Centre Hospitalier de l'Université de Montréal (CHUM), Université de Montréal (UdeM), Hertie Institute for Clinical Brain Research [Tubingen], Regional Epilepsy Center, Reggio Calabria, Agronomes et Vétérinaires Sans Frontières (AVSF), AVSF, NIHR Biomedical Research Centre [London], Guy's and St Thomas' NHS Foundation Trust-King‘s College London, Wellcome Trust, Commission of the European Communities, Imperial College Healthcare NHS Trust- BRC Funding, Internal Medicine, Epidemiology, Luxembourg Centre For Systems Biomedicine (LCSB), University of Luxembourg [Luxembourg], Università degli studi di Genova = University of Genoa (UniGe), Heart Center Leipzig, University Medical Center of Schleswig–Holstein = Universitätsklinikum Schleswig-Holstein (UKSH), Kiel University, Acibadem University Dspace, Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS)-Université d'Évry-Val-d'Essonne (UEVE), Université Nice Sophia Antipolis (... - 2019) (UNS), University of Helsinki-University of Helsinki-Faculty of Medecine [Helsinki], University of Helsinki-University of Helsinki, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Medicum, Research Programme for Molecular Neurology, Research Programs Unit, Neuroscience Center, University of Helsinki, Genomics of Neurological and Neuropsychiatric Disorders, Epicure Consortium, EuroEPINOMICS COGIE Consortium, EpiPGX Consortium, May, Gabriella, Girard, S., Harrer, M., Bobbili, D. R., Schubert, J., Wolking, S., Becker, F., Lachance-Touchette, P., Meloche, C., Gravel, M., Niturad, C. E., Knaus, J., De Kovel, C., Toliat, M., Polvi, A., Iacomino, M., Guerrero-López, R., Baulac, S., Marini, C., Thiele, H., Altmüller, J., Jabbari, K., Ruppert, A. -K., Jurkowski, W., Lal, D., Rusconi, R., Cestèle, S., Terragni, B., Coombs, I. D., Reid, C. A., Striano, P., Caglayan, H., Siren, A., Everett, K., Møller, R. S., Hjalgrim, H., Muhle, H., Helbig, I., Kunz, W. S., Weber, Y. G., Weckhuysen, S., Jonghe, P. D., Sisodiya, S. M., Nabbout, R., Franceschetti, S., Coppola, A., Vari, M. S., Kasteleijn-Nolst Trenité, D., Baykan, B., Ozbek, U., Bebek, N., Klein, K. M., Rosenow, F., Nguyen, D. K., Dubeau, F., Carmant, L., Lortie, A., Desbiens, R., Clément, J. -F., Cieuta-Walti, C., Sills, G. J., Auce, P., Francis, B., Johnson, M. R., Marson, A. G., Berghuis, B., Sander, J. W., Avbersek, A., Mccormack, M., Cavalleri, G. L., Delanty, N., Depondt, C., Krenn, M., Zimprich, F., Peter, S., Nikanorova, M., Kraaij, R., van Rooij, J., Balling, R., Ikram, M. A., Uitterlinden, A. G., Avanzini, Giulio, Schorge, S., Petrou, S., Mantegazza, M., Sander, T., Leguern, E., Serratosa, J. M., Koeleman, B. P. C., Palotie, A., Lehesjoki, A. -E., Nothnagel, M., Nürnberg, P., Maljevic, S., Zara, F., Cossette, P., Krause, R., Lerche, H., De Jonghe, P., Arfan Ikram, M., Ferlazzo, E., di Bonaventura, C., La Neve, A., Tinuper, P., Bisulli, F., Vignoli, Massimo, Capovilla, G., Crichiutti, G., Gambardella, A., Belcastro, V., Bianchi, A., Yalçın, D., Dizdarer, G., Arslan, K., Yapıcı, Z., Kuşcu, D., Leu, C., Heggeli, K., Willis, J., Langley, S. R., Jorgensen, A., Srivastava, P., Rau, S., Hengsbach, C., Sonsma, A. C. M., University of Montreal-Institute for Research in Immunology and Cancer (IRIC), Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université d'Évry-Val-d'Essonne (UEVE), Université Côte d'Azur (UCA)-Université Côte d'Azur (UCA)-Centre National de la Recherche Scientifique (CNRS), Département de Mathématiques, Université de Sherbrooke, Université de Sherbrooke [Sherbrooke], Hôpital Erasme (Bruxelles), May, Patrick, Girard, Simon, Harrer, Merle, Bobbili, Dheeraj R, Schubert, Julian, Wolking, Stefan, Becker, Felicita, Lachance-Touchette, Pamela, Meloche, Caroline, Gravel, Micheline, Niturad, Cristina E, Knaus, Julia, De Kovel, Carolien, Toliat, Mohamad, Polvi, Anne, Iacomino, Michele, Guerrero-López, Rosa, Baulac, Stéphanie, Marini, Carla, Thiele, Holger, Altmüller, Janine, Jabbari, Kamel, Ruppert, Ann-Kathrin, Jurkowski, Wiktor, Lal, Denni, Rusconi, Raffaella, Cestèle, Sandrine, Terragni, Benedetta, Coombs, Ian D, Reid, Christopher A, Striano, Pasquale, Caglayan, Hande, Siren, Auli, Everett, Kate, Møller, Rikke S, Hjalgrim, Helle, Muhle, Hiltrud, Helbig, Ingo, Kunz, Wolfram S, Weber, Yvonne G, Weckhuysen, Sarah, Jonghe, Peter De, Sisodiya, Sanjay M, Nabbout, Rima, Franceschetti, Silvana, Coppola, Antonietta, Vari, Maria S, Kasteleijn-Nolst Trenité, Dorothée, Baykan, Betul, Ozbek, Ugur, Bebek, Nerse, Klein, Karl M, Rosenow, Felix, Nguyen, Dang K, Dubeau, Françoi, Carmant, Lionel, Lortie, Anne, Desbiens, Richard, Clément, Jean-Françoi, Cieuta-Walti, Cécile, Sills, Graeme J, Auce, Paul, Francis, Ben, Johnson, Michael R, Marson, Anthony G, Berghuis, Bianca, Sander, Josemir W, Avbersek, Andreja, McCormack, Mark, Cavalleri, Gianpiero L., Delanty, Norman, Depondt, Chantal, Krenn, Martin, Zimprich, Fritz, Peter, Sarah, Nikanorova, Marina, Kraaij, Robert, van Rooij, Jeroen, Balling, Rudi, Ikram, M Arfan, Uitterlinden, André G, Avanzini, Giuliano, Schorge, Stephanie, Petrou, Steven, Mantegazza, Massimo, Sander, Thoma, LeGuern, Eric, Serratosa, Jose M, Koeleman, Bobby P C, Palotie, Aarno, Lehesjoki, Anna-Elina, Nothnagel, Michael, Nürnberg, Peter, Maljevic, Snezana, Zara, Federico, Cossette, Patrick, Krause, Roland, Lerche, Holger, De Jonghe, Peter, Ferlazzo, Edoardo, di Bonaventura, Carlo, La Neve, Angela, Tinuper, Paolo, Bisulli, Francesca, Vignoli, Aglaia, Capovilla, Giuseppe, Crichiutti, Giovanni, Gambardella, Antonio, Belcastro, Vincenzo, Bianchi, Amedeo, Yalçın, Destina, Dizdarer, Gulsen, Arslan, Kezban, Yapıcı, Zuhal, Kuşcu, Demet, Leu, Costin, Heggeli, Kristin, Willis, Joseph, Langley, Sarah R, Jorgensen, Andrea, Srivastava, Prashant, Rau, Sarah, Hengsbach, Christian, and Sonsma, Anja C.M.
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0301 basic medicine ,GAMMA-2-SUBUNIT ,[SDV]Life Sciences [q-bio] ,GABRA5 ,Clinical Neurology ,15Q13.3 MICRODELETIONS ,ABSENCE EPILEPSY ,SEQUENCE DATA ,[SDV.BC]Life Sciences [q-bio]/Cellular Biology ,3124 Neurology and psychiatry ,03 medical and health sciences ,Epilepsy ,0302 clinical medicine ,Genetic variation ,medicine ,EPILEPTIC ENCEPHALOPATHIES ,Exome ,Exome sequencing ,ComputingMilieux_MISCELLANEOUS ,Genetic association ,Genetics ,RISK ,Science & Technology ,FEBRILE SEIZURES ,Neurology & Neurosurgery ,biology ,3112 Neurosciences ,1103 Clinical Sciences ,MOUSE MODEL ,medicine.disease ,ASSOCIATION ANALYSIS ,030104 developmental biology ,DE-NOVO MUTATIONS ,Cohort ,biology.protein ,Neurology (clinical) ,Human medicine ,Neurosciences & Neurology ,1109 Neurosciences ,Life Sciences & Biomedicine ,030217 neurology & neurosurgery ,Cohort study - Abstract
BACKGROUND: Genetic generalised epilepsy is the most common type of inherited epilepsy. Despite a high concordance rate of 80% in monozygotic twins, the genetic background is still poorly understood. We aimed to investigate the burden of rare genetic variants in genetic generalised epilepsy.METHODS: For this exome-based case-control study, we used three different genetic generalised epilepsy case cohorts and three independent control cohorts, all of European descent. Cases included in the study were clinically evaluated for genetic generalised epilepsy. Whole-exome sequencing was done for the discovery case cohort, a validation case cohort, and two independent control cohorts. The replication case cohort underwent targeted next-generation sequencing of the 19 known genes encoding subunits of GABAA receptors and was compared to the respective GABAA receptor variants of a third independent control cohort. Functional investigations were done with automated two-microelectrode voltage clamping in Xenopus laevis oocytes.FINDINGS: Statistical comparison of 152 familial index cases with genetic generalised epilepsy in the discovery cohort to 549 ethnically matched controls suggested an enrichment of rare missense (Nonsyn) variants in the ensemble of 19 genes encoding GABAA receptors in cases (odds ratio [OR] 2·40 [95% CI 1·41-4·10]; pNonsyn=0·0014, adjusted pNonsyn=0·019). Enrichment for these genes was validated in a whole-exome sequencing cohort of 357 sporadic and familial genetic generalised epilepsy cases and 1485 independent controls (OR 1·46 [95% CI 1·05-2·03]; pNonsyn=0·0081, adjusted pNonsyn=0·016). Comparison of genes encoding GABAA receptors in the independent replication cohort of 583 familial and sporadic genetic generalised epilepsy index cases, based on candidate-gene panel sequencing, with a third independent control cohort of 635 controls confirmed the overall enrichment of rare missense variants for 15 GABAA receptor genes in cases compared with controls (OR 1·46 [95% CI 1·02-2·08]; pNonsyn=0·013, adjusted pNonsyn=0·027). Functional studies for two selected genes (GABRB2 and GABRA5) showed significant loss-of-function effects with reduced current amplitudes in four of seven tested variants compared with wild-type receptors.INTERPRETATION: Functionally relevant variants in genes encoding GABAA receptor subunits constitute a significant risk factor for genetic generalised epilepsy. Examination of the role of specific gene groups and pathways can disentangle the complex genetic architecture of genetic generalised epilepsy.FUNDING: EuroEPINOMICS (European Science Foundation through national funding organisations), Epicure and EpiPGX (Sixth Framework Programme and Seventh Framework Programme of the European Commission), Research Unit FOR2715 (German Research Foundation and Luxembourg National Research Fund).
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- 2018
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21. Linear mitochondrial DNA is rapidly degraded by components of the replication machinery
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Michal Minczuk, Viktoriya Peeva, Alexei P. Kudin, Wolfram S. Kunz, Daniel Blei, Pedro Rebelo-Guiomar, Gábor Zsurka, Payam A. Gammage, Sarah Corsi, Maciej J. Szukszto, Janine Altmüller, Christian Becker, Genevieve Trombly, Minczuk, Michal [0000-0001-8242-1420], Zsurka, Gábor [0000-0002-6379-849X], Kunz, Wolfram S [0000-0003-1113-3493], and Apollo - University of Cambridge Repository
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0301 basic medicine ,DNA Replication ,Mitochondrial DNA ,Science ,Recombinant Fusion Proteins ,General Physics and Astronomy ,ENDOG ,Biology ,Mitochondrion ,medicine.disease_cause ,DNA, Mitochondrial ,General Biochemistry, Genetics and Molecular Biology ,Article ,Electron Transport Complex IV ,03 medical and health sciences ,chemistry.chemical_compound ,medicine ,Humans ,DNA Breaks, Double-Stranded ,DNA Cleavage ,lcsh:Science ,Deoxyribonucleases, Type II Site-Specific ,Polymerase ,Gene Editing ,Mutation ,Multidisciplinary ,Base Sequence ,DNA replication ,DNA Helicases ,Helicase ,General Chemistry ,Genetic Therapy ,Cell biology ,DNA Polymerase gamma ,Mitochondria ,030104 developmental biology ,Exodeoxyribonucleases ,HEK293 Cells ,chemistry ,biology.protein ,lcsh:Q ,CRISPR-Cas Systems ,DNA - Abstract
Emerging gene therapy approaches that aim to eliminate pathogenic mutations of mitochondrial DNA (mtDNA) rely on efficient degradation of linearized mtDNA, but the enzymatic machinery performing this task is presently unknown. Here, we show that, in cellular models of restriction endonuclease-induced mtDNA double-strand breaks, linear mtDNA is eliminated within hours by exonucleolytic activities. Inactivation of the mitochondrial 5′-3′exonuclease MGME1, elimination of the 3′-5′exonuclease activity of the mitochondrial DNA polymerase POLG by introducing the p.D274A mutation, or knockdown of the mitochondrial DNA helicase TWNK leads to severe impediment of mtDNA degradation. We do not observe similar effects when inactivating other known mitochondrial nucleases (EXOG, APEX2, ENDOG, FEN1, DNA2, MRE11, or RBBP8). Our data suggest that rapid degradation of linearized mtDNA is performed by the same machinery that is responsible for mtDNA replication, thus proposing novel roles for the participating enzymes POLG, TWNK, and MGME1., Damaged linearized mtDNA needs to be removed from the cell for mitochondrial genome stability. Here the authors shed light into the identity of the machinery responsible for rapidly degrading linearized DNA, implicating the role of mtDNA replication factors.
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- 2018
22. Functional variants in HCN4 and CACNA1H may contribute to genetic generalized epilepsy
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Georgeta Teodorescu, Han-Shen Tae, A. Marie Phillips, Steven Petrou, Holger Lerche, Christopher A. Reid, Kerstin Hallmann, Ailing A. Kleefuss-Lie, Snezana Maljevic, Wolfram S. Kunz, Christian E. Elger, Felicitas Becker, Yvonne G. Weber, and Edward Perez-Reyes
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0301 basic medicine ,Xenopus ,Biology ,DNA sequencing ,03 medical and health sciences ,0302 clinical medicine ,CACNA1H ,medicine ,HCN4 ,T‐type Ca2+ channels ,Generalized epilepsy ,Gene ,Ion channel ,Genetics ,Functional analysis ,Full‐Length Original Research ,Depolarization ,medicine.disease ,biology.organism_classification ,Thalamo‐cortical circuits ,030104 developmental biology ,Neurology ,biology.protein ,Neurology (clinical) ,030217 neurology & neurosurgery - Abstract
Summary Objective Genetic generalized epilepsy (GGE) encompasses seizure disorders characterized by spike‐and‐wave discharges (SWD) originating within thalamo‐cortical circuits. Hyperpolarization‐activated (HCN) and T‐type Ca2+ channels are key modulators of rhythmic activity in these brain regions. Here, we screened HCN4 and CACNA1H genes for potentially contributory variants and provide their functional analysis. Methods Targeted gene sequencing was performed in 20 unrelated familial cases with different subtypes of GGE, and the results confirmed in 230 ethnically matching controls. Selected variants in CACNA1H and HCN4 were functionally assessed in tsA201 cells and Xenopus laevis oocytes, respectively. Results We discovered a novel CACNA1H (p.G1158S) variant in two affected members of a single family. One of them also carried an HCN4 (p.P1117L) variant inherited from the unaffected mother. In a separate family, an HCN4 variant (p.E153G) was identified in one of several affected members. Voltage‐clamp analysis of CACNA1H (p.G1158S) revealed a small but significant gain‐of‐function, including increased current density and a depolarizing shift of steady‐state inactivation. HCN4 p.P1117L and p.G153E both caused a hyperpolarizing shift in activation and reduced current amplitudes, resulting in a loss‐of‐function. Significance Our results are consistent with a model suggesting cumulative contributions of subtle functional variations in ion channels to seizure susceptibility and GGE.
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- 2017
23. Peripheral nerve atrophy together with higher cerebrospinal fluid progranulin indicate axonal damage in amyotrophic lateral sclerosis
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Reinhard Dengler, Susanne Abdulla, Sonja Körner, Peter J. Nestor, Grazyna Debska-Vielhaber, Katja Kollewe, Wolfram S. Kunz, Stefan Vielhaber, Peter Körtvelyessy, Judith Machts, Siegfried Kropf, Susanne Petri, Frank Schreiber, and Stefanie Schreiber
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0301 basic medicine ,Pathology ,medicine.medical_specialty ,Physiology ,Serum albumin ,Blood–brain barrier ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,0302 clinical medicine ,Atrophy ,Cerebrospinal fluid ,Forearm ,Physiology (medical) ,medicine ,Amyotrophic lateral sclerosis ,Ulnar nerve ,biology ,business.industry ,medicine.disease ,Peripheral ,030104 developmental biology ,medicine.anatomical_structure ,biology.protein ,Neurology (clinical) ,business ,Neuroscience ,030217 neurology & neurosurgery - Abstract
Introduction: We aimed to investigate whether sonographic peripheral cross-sectional nerve area (CSA) and progranulin (PGRN), a neuritic growth factor, are related to each other and whether they interact to predict clinical and paraclinical measures in amyotrophic lateral sclerosis (ALS). Methods: We included 55 ALS patients who had forearm median and ulnar nerve CSA, cerebrospinal fluid (CSF) PGRN and serum PGRN measures available. CSF PGRN was normalized against the CSF/serum albumin ratio (Qalb). Using age, sex, height and weight adjusted general linear models we examined CSA x CSF PGRN interaction effects on various measures. Results: There was a medium-effect size inverse relationship between CSA and CSF PGRN, but not between CSA and serum PGRN. Lower CSA values together with higher CSF PGRN levels were linked to smaller motor amplitudes. Discussion: In ALS, the constellation of peripheral nerve atrophy together with higher CSF PGRN levels indicates pronounced axonal damage. This article is protected by copyright. All rights reserved.
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- 2017
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24. Homozygous mutation in TXNRD1 is associated with genetic generalized epilepsy
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Noelia Fradejas-Villar, Ann-Kathrin Ruppert, Yvonne G. Weber, Alexander Grote, Herbert Schulz, Christian E. Elger, Gregor Baron, Ulrich Schweizer, Elias S.J. Arnér, Gábor Zsurka, Sandra Seeher, Kevin G. Hampel, Lutz Schomburg, Peter Nürnberg, Alexei P. Kudin, Holger Lerche, Wolfram S. Kunz, Qing Cheng, Holger Thiele, and Thomas Sander
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Adult ,Male ,0301 basic medicine ,Thioredoxin Reductase 1 ,Adolescent ,Mutant ,Biology ,medicine.disease_cause ,Biochemistry ,law.invention ,03 medical and health sciences ,symbols.namesake ,0302 clinical medicine ,Western blot ,law ,Generalized seizures ,TXNRD1 ,Physiology (medical) ,Exome Sequencing ,medicine ,Humans ,Genetic Predisposition to Disease ,Child ,Muscle, Skeletal ,Sanger sequencing ,chemistry.chemical_classification ,Mutation ,Epilepsy ,medicine.diagnostic_test ,Homozygote ,Glutathione ,Molecular biology ,Blot ,Oxidative Stress ,030104 developmental biology ,Enzyme ,chemistry ,Oxidative stress ,Child, Preschool ,Recombinant DNA ,symbols ,Epilepsy, Generalized ,Female ,Reactive Oxygen Species ,030217 neurology & neurosurgery - Abstract
Increased oxidative stress has been widely implicated in the pathogenesis in various forms of human epilepsy. Here, we report a homozygous mutation in TXNRD1 (thioredoxin reductase 1) in a family with genetic generalized epilepsy. TXNRD1 is an essential selenium-containing enzyme involved in detoxification of reactive oxygen species (ROS) and redox signaling. The TXNRD1 mutation p.Pro190Leu affecting a highly conserved amino acid residue was identified by whole-exome sequencing of blood DNA from the index patient. The detected mutation and its segregation within the family- all siblings of the index patient were homozygous and the parents heterozygous-were confirmed by Sanger sequencing. TXNRD1 activity was determined in subcellular fractions from a skeletal muscle biopsy and skin fibroblasts of the index patient and the expression levels of the mutated protein were assessed by Se-75 labeling and Western blot analysis. As result of the mutation, the activity of TXNRD1 was reduced in the patient's fibroblasts and skeletal muscle (to 34 +/- 3% and 16 +/- 8% of controls, respectively). In fibroblasts, we detected reduced Se-75-labeling of the enzyme (41 +/- 3% of controls). An in-depth in vitro kinetic analysis of the recombinant mutated TXNRD1 indicated 30-40% lowered k(cat)/Se values. Therefore, a reduced activity of the enzyme in the patient's tissue samples is explained by (i) lower enzyme turnover and (ii) reduced abundance of the mutated enzyme as confirmed by Western blotting and Se-75 labeling. The mutant fibroblasts were also found to be less resistant to a hydrogen peroxide challenge. Our data agree with a potential role of insufficient ROS detoxification for disease manifestation in genetic generalized epilepsy.
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- 2017
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25. Genomic and clinical predictors of lacosamide response in refractory epilepsies
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Heavin, Sinéad B., McCormack, Mark, Wolking, Stefan, Slattery, Lisa, Walley, Nicole, Avbersek, Andreja, Novy, Jan, Sinha, Saurabh R., Radtke, Rod, Doherty, Colin, Auce, Pauls, Craig, John, Johnson, Michael R., Koeleman, Bobby P. C., Krause, Roland, Kunz, Wolfram S., Marson, Anthony G., O'Brien, Terence J., Sander, Josemir W., Sills, Graeme J., Stefansson, Hreinn, Striano, Pasquale, Zara, Federico, EPIGEN Consortium, EpiPGX Consortium, Depondt, Chantal, Sisodiya, Sanjay, Goldstein, David, Lerche, Holger, Cavalleri, Gianpiero L., Delanty, Norman, EPIGEN Consortium, EpiPGX Consortium, Wellcome Trust, Imperial College Healthcare NHS Trust- BRC Funding, Commission of the European Communities, and Medical Research Council (MRC)
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Oncology ,medicine.medical_specialty ,Candidate gene ,lacosamide ,Lacosamide ,Neurology [D14] [Human health sciences] ,Clinical Neurology ,Genome-wide association study ,lcsh:RC346-429 ,03 medical and health sciences ,0302 clinical medicine ,Refractory ,Internal medicine ,Medicine ,GWAS ,EpiPGX Consortium ,Exome ,lcsh:Neurology. Diseases of the nervous system ,030304 developmental biology ,Genetic association ,pharmacogenomics ,0303 health sciences ,Neurologie [D14] [Sciences de la santé humaine] ,business.industry ,EPIGEN Consortium ,Généralités ,pharmacoresistance ,refractory ,3. Good health ,Neurology ,Pharmacogenomics ,Cohort ,Full‐length Original Research ,Neurology (clinical) ,business ,030217 neurology & neurosurgery ,medicine.drug - Abstract
Objective: Clinical and genetic predictors of response to antiepileptic drugs (AEDs) are largely unknown. We examined predictors of lacosamide response in a real-world clinical setting. Methods: We tested the association of clinical predictors with treatment response using regression modeling in a cohort of people with refractory epilepsy. Genetic assessment for lacosamide response was conducted via genome-wide association studies and exome studies, comprising 281 candidate genes. Results: Most patients (479/483) were treated with LCM in addition to other AEDs. Our results corroborate previous findings that patients with refractory genetic generalized epilepsy (GGE) may respond to treatment with LCM. No clear clinical predictors were identified. We then compared 73 lacosamide responders, defined as those experiencing greater than 75% seizure reduction or seizure freedom, to 495 nonresponders (, SCOPUS: ar.j, info:eu-repo/semantics/published
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- 2019
26. Mammalian mitochondrial mutational spectrum as a hallmark of cellular and organismal aging
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Jacques Fellay, Alexandre Reymond, Sofia Annis, Masashi Tanaka, Evgenii Tretyakov, Andrei Iurchenko, Alina A. Mikhailova, Irina Gostimskaya, Sergey Nikolaev, Evgeny M. Zdobnov, Melissa Franco, Kristina E. Ushakova, Dmitry A. Knorre, Alina G. Mikhailova, Konstantin Gunbin, Zoe Fleischmann, Vsevolod J. Makeev, Kevin Wasko, Konstantin Popadin, Viktor A. Shamanskiy, Konstantin Khrapko, I. O. Mazunin, Wolfram S. Kunz, Marianna Zazhytska, and V. A. Yurov
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Asynchronous replication ,chemistry.chemical_classification ,Genetics ,Mitochondrial DNA ,Nuclear gene ,media_common.quotation_subject ,Longevity ,Mitochondrion ,Biology ,Oocyte ,chemistry.chemical_compound ,medicine.anatomical_structure ,chemistry ,medicine ,Nucleotide ,DNA ,media_common - Abstract
Mutational spectrum of the mitochondrial genome (mtDNA) does not resemble signatures of any known mutagens and variation in mtDNA mutational spectra between different tissues and organisms is still incomprehensible. Since mitochondria is tightly involved in aerobic energy production, it is expected that mtDNA mutational spectra may be affected by the oxidative damage which is increasing with cellular and organismal aging. However, the well-documented mutational signature of the oxidative damage, G>T substitutions, is typical only for the nuclear genome while it is extremely rare and age-independent in mtDNA. Thus it is still unclear if there is a mitochondria - specific mutational signature of the oxidative damage. Here, reconstructing mtDNA mutational spectra for human cancers originated from 21 tissues with various cell turnover rate, human oocytes fertilized at different ages, and 424 mammalian species with variable generation length which is a proxy for oocyte age, we observed that the frequency of AH>GHsubstitutions (H- heavy chain notation) is positively correlated with cellular and organismal longevity. Moreover, this mutational bias from AHto GHaffects nucleotide content at the fourfold degenerative synonymous positions leading to a deficit of AHand excess of GH, which is especially pronounced in long-lived mammals. Taking into account additionally, that AH>GHis sensitive to time being single stranded during mtDNA asynchronous replication and A>G is associated with oxidative damage of single-stranded DNA in recent bacterial experiments we propose that AH>GHis a mutational signature of oxidative damage in mtDNA.
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- 2019
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27. No evidence for a <scp>BRD</scp> 2 promoter hypermethylation in blood leukocytes of Europeans with juvenile myoclonic epilepsy
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Amedeo Bianchi, Ann-Kathrin Ruppert, Saul A. Mullen, Hande Caglayan, Wolfram S. Kunz, Herbert Schulz, Despina Tsortouktzidis, Ingrid E. Scheffer, Holger Lerche, Per Hoffmann, Yvonne G. Weber, Pasquale Striano, Francesca Madia, Rikke S. Møller, Felicitas Becker, Michele Iacomino, Carlo Minetti, Ganna Balagura, Carla Marini, Maria Stella Vari, Susannah T. Bellows, Samuel F. Berkovic, Claudia Kapser, Renzo Guerrini, Thomas Sander, Federico Zara, Karen Oliver, Ugur Ozbek, Albert J. Becker, Christoph J. Schankin, Sara Schramm, and Acibadem University Dspace
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0301 basic medicine ,Medizin ,Single-nucleotide polymorphism ,Biology ,association analysis ,BRD2 ,DNA methylation ,genetic generalized epilepsy ,juvenile myoclonic epilepsy ,neurology ,neurology (clinical) ,03 medical and health sciences ,0302 clinical medicine ,medicine ,Epigenetics ,Allele ,610 Medicine & health ,Genetic association ,Genetics ,Methylation ,medicine.disease ,030104 developmental biology ,Neurology ,Myoclonic epilepsy ,Neurology (clinical) ,Juvenile myoclonic epilepsy ,030217 neurology & neurosurgery - Abstract
Juvenile myoclonic epilepsy (JME) is a common syndrome of genetic generalized epilepsies (GGEs). Linkage and association studies suggest that the gene encoding the bromodomain-containing protein 2 (BRD2) may increase risk of JME. The present methylation and association study followed up a recent report highlighting that the BRD2 promoter CpG island (CpG76) is differentially hypermethylated in lymphoblastoid cells from Caucasian patients with JME compared to patients with other GGE subtypes and unaffected relatives. In contrast, we found a uniform low average percentage of methylation (
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- 2019
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28. Ultra-Rare Genetic Variation in the Epilepsies: A Whole-Exome Sequencing Study of 17,606 Individuals
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Yen-Chen Anne Feng, Daniel P. Howrigan, Liam E. Abbott, Katherine Tashman, Felecia Cerrato, Tarjinder Singh, Henrike Heyne, Andrea Byrnes, Claire Churchhouse, Nick Watts, Matthew Solomonson, Dennis Lal, Erin L. Heinzen, Ryan S. Dhindsa, Kate E. Stanley, Gianpiero L. Cavalleri, Hakon Hakonarson, Ingo Helbig, Roland Krause, Patrick May, Sarah Weckhuysen, Slavé Petrovski, Sitharthan Kamalakaran, Sanjay M. Sisodiya, Patrick Cossette, Chris Cotsapas, Peter De Jonghe, Tracy Dixon-Salazar, Renzo Guerrini, Patrick Kwan, Anthony G. Marson, Randy Stewart, Chantal Depondt, Dennis J. Dlugos, Ingrid E. Scheffer, Pasquale Striano, Catharine Freyer, Kevin McKenna, Brigid M. Regan, Susannah T. Bellows, Costin Leu, Caitlin A. Bennett, Esther M.C. Johns, Alexandra Macdonald, Hannah Shilling, Rosemary Burgess, Dorien Weckhuysen, Melanie Bahlo, Terence J. O’Brien, Marian Todaro, Hannah Stamberger, Danielle M. Andrade, Tara R. Sadoway, Kelly Mo, Heinz Krestel, Sabina Gallati, Savvas S. Papacostas, Ioanna Kousiappa, George A. Tanteles, Katalin Štěrbová, Markéta Vlčková, Lucie Sedláčková, Petra Laššuthová, Karl Martin Klein, Felix Rosenow, Philipp S. Reif, Susanne Knake, Wolfram S. Kunz, Gábor Zsurka, Christian E. Elger, Jürgen Bauer, Michael Rademacher, Manuela Pendziwiat, Hiltrud Muhle, Annika Rademacher, Andreas van Baalen, Sarah von Spiczak, Ulrich Stephani, Zaid Afawi, Amos D. Korczyn, Moien Kanaan, Christina Canavati, Gerhard Kurlemann, Karen Müller-Schlüter, Gerhard Kluger, Martin Häusler, Ilan Blatt, Johannes R. Lemke, Ilona Krey, Yvonne G. Weber, Stefan Wolking, Felicitas Becker, Christian Hengsbach, Sarah Rau, Ana F. Maisch, Bernhard J. Steinhoff, Andreas Schulze-Bonhage, Susanne Schubert-Bast, Herbert Schreiber, Ingo Borggräfe, Christoph J. Schankin, Thomas Mayer, Rudolf Korinthenberg, Knut Brockmann, Dieter Dennig, Rene Madeleyn, Reetta Kälviäinen, Pia Auvinen, Anni Saarela, Tarja Linnankivi, Anna-Elina Lehesjoki, Mark I. Rees, Seo-Kyung Chung, William O. Pickrell, Robert Powell, Natascha Schneider, Simona Balestrini, Sara Zagaglia, Vera Braatz, Michael R. Johnson, Pauls Auce, Graeme J. Sills, Larry W. Baum, Pak C. Sham, Stacey S. Cherny, Colin H.T. Lui, Nina Barišić, Norman Delanty, Colin P. Doherty, Arif Shukralla, Mark McCormack, Hany El-Naggar, Laura Canafoglia, Silvana Franceschetti, Barbara Castellotti, Tiziana Granata, Federico Zara, Michele Iacomino, Francesca Madia, Maria Stella Vari, Maria Margherita Mancardi, Vincenzo Salpietro, Francesca Bisulli, Paolo Tinuper, Laura Licchetta, Tommaso Pippucci, Carlotta Stipa, Raffaella Minardi, Antonio Gambardella, Angelo Labate, Grazia Annesi, Lorella Manna, Monica Gagliardi, Elena Parrini, Davide Mei, Annalisa Vetro, Claudia Bianchini, Martino Montomoli, Viola Doccini, Carla Marini, Toshimitsu Suzuki, Yushi Inoue, Kazuhiro Yamakawa, Birute Tumiene, Lynette G. Sadleir, Chontelle King, Emily Mountier, S. Hande Caglayan, Mutluay Arslan, Zuhal Yapıcı, Uluc Yis, Pınar Topaloglu, Bulent Kara, Dilsad Turkdogan, Aslı Gundogdu-Eken, Nerses Bebek, Sibel Uğur-İşeri, Betül Baykan, Barış Salman, Garen Haryanyan, Emrah Yücesan, Yeşim Kesim, Çiğdem Özkara, Annapurna Poduri, Beth R. Shiedley, Catherine Shain, Russell J. Buono, Thomas N. Ferraro, Michael R. Sperling, Warren Lo, Michael Privitera, Jacqueline A. French, Steven Schachter, Ruben I. Kuzniecky, Orrin Devinsky, Manu Hegde, Pouya Khankhanian, Katherine L. Helbig, Colin A. Ellis, Gianfranco Spalletta, Fabrizio Piras, Federica Piras, Tommaso Gili, Valentina Ciullo, Andreas Reif, Andrew McQuillin, Nick Bass, Andrew McIntosh, Douglas Blackwood, Mandy Johnstone, Aarno Palotie, Michele T. Pato, Carlos N. Pato, Evelyn J. Bromet, Celia Barreto Carvalho, Eric D. Achtyes, Maria Helena Azevedo, Roman Kotov, Douglas S. Lehrer, Dolores Malaspina, Stephen R. Marder, Helena Medeiros, Christopher P. Morley, Diana O. Perkins, Janet L. Sobell, Peter F. Buckley, Fabio Macciardi, Mark H. Rapaport, James A. Knowles, Ayman H. Fanous, Steven A. McCarroll, Namrata Gupta, Stacey B. Gabriel, Mark J. Daly, Eric S. Lander, Daniel H. Lowenstein, David B. Goldstein, Holger Lerche, Samuel F. Berkovic, Benjamin M. Neale, Wellcome Trust, Department of Health, Institute of Neurology, UCL, Imperial College Healthcare NHS Trust- BRC Funding, Commission of the European Communities, Medical Research Council (MRC), Feng Y.-C.A., Howrigan D.P., Abbott L.E., Tashman K., Cerrato F., Singh T., Heyne H., Byrnes A., Churchhouse C., Watts N., Solomonson M., Lal D., Heinzen E.L., Dhindsa R.S., Stanley K.E., Cavalleri G.L., Hakonarson H., Helbig I., Krause R., May P., Weckhuysen S., Petrovski S., Kamalakaran S., Sisodiya S.M., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Kwan P., Marson A.G., Stewart R., Depondt C., Dlugos D.J., Scheffer I.E., Striano P., Freyer C., McKenna K., Regan B.M., Bellows S.T., Leu C., 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., 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., Tumiene B., 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., Poduri A., Shiedley B.R., Shain C., 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., Reif A., McQuillin A., Bass N., McIntosh A., Blackwood D., Johnstone M., Palotie A., Pato M.T., Pato C.N., Bromet E.J., Carvalho C.B., Achtyes E.D., Azevedo M.H., Kotov R., Lehrer D.S., Malaspina D., Marder S.R., Medeiros H., Morley C.P., Perkins D.O., Sobell J.L., Buckley P.F., Macciardi F., Rapaport M.H., Knowles J.A., Fanous A.H., McCarroll S.A., Gupta N., Gabriel S.B., Daly M.J., Lander E.S., Lowenstein D.H., Goldstein D.B., Lerche H., Berkovic S.F., Neale B.M., Epi25 Collaborative, YÜCESAN, EMRAH, Institute for Molecular Medicine Finland, Children's Hospital, HUS Children and Adolescents, Department of Medical and Clinical Genetics, University Management, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, and Genomics of Neurological and Neuropsychiatric Disorders
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s.berkovic@unimelb.edu.au [Epi25 Collaborative. Electronic address] ,0301 basic medicine ,GAMMA-2-SUBUNIT ,burden analysi ,DNA Mutational Analysis ,PROTEIN ,Neurodegenerative ,VARIANTS ,SUSCEPTIBILITY ,Medical and Health Sciences ,Epilepsy ,0302 clinical medicine ,2.1 Biological and endogenous factors ,EPIDEMIOLOGY ,Missense mutation ,Exome ,Aetiology ,Genetics (clinical) ,Exome sequencing ,11 Medical and Health Sciences ,seizures ,GABRG2 ,Genetics ,Genetics & Heredity ,0303 health sciences ,biology ,COMMON EPILEPSIES ,1184 Genetics, developmental biology, physiology ,sequencing ,Biological Sciences ,Epi25 Collaborative ,Phenotype ,GENOME ,epileptic encephalopathy ,burden analysis ,Neurological ,Biotechnology ,Genetic Markers ,seizure ,EEF1A2 ,Burden analysis ,epilepsy ,exome ,Article ,03 medical and health sciences ,Clinical Research ,Exome Sequencing ,Genetic variation ,medicine ,Humans ,Genetic Predisposition to Disease ,Gene ,EPILEPTIC SEIZURES ,METAANALYSIS ,030304 developmental biology ,Human Genome ,Neurosciences ,Genetic Variation ,06 Biological Sciences ,medicine.disease ,Brain Disorders ,030104 developmental biology ,Genetic marker ,DE-NOVO MUTATIONS ,Case-Control Studies ,biology.protein ,3111 Biomedicine ,Human medicine ,030217 neurology & neurosurgery - Abstract
Sequencing-based studies have identified novel risk genes for rare, severe epilepsies and revealed a role of rare deleterious variation in common epilepsies. To identify the shared and distinct ultra-rare genetic risk factors for rare and common epilepsies, we performed a whole-exome sequencing (WES) analysis of 9,170 epilepsy-affected individuals and 8,364 controls of European ancestry. We focused on three phenotypic groups; the rare but severe developmental and epileptic encephalopathies (DEE), and the commoner phenotypes of genetic generalized epilepsy (GGE) and non-acquired focal epilepsy (NAFE). We observed that compared to controls, individuals with any type of epilepsy carried an excess of ultra-rare, deleterious variants in constrained genes and in genes previously associated with epilepsy, with the strongest enrichment seen in DEE and the least in NAFE. Moreover, we found that inhibitory GABAA receptor genes were enriched for missense variants across all three classes of epilepsy, while no enrichment was seen in excitatory receptor genes. The larger gene groups for the GABAergic pathway or cation channels also showed a significant mutational burden in DEE and GGE. Although no single gene surpassed exome-wide significance among individuals with GGE or NAFE, highly constrained genes and genes encoding ion channels were among the top associations, including CACNA1G, EEF1A2, and GABRG2 for GGE and LGI1, TRIM3, and GABRG2 for NAFE. Our study confirms a convergence in the genetics of common and rare epilepsies associated with ultra-rare coding variation and highlights a ubiquitous role for GABAergic inhibition in epilepsy etiology in the largest epilepsy WES study to date.
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- 2019
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29. Mutant desmin substantially perturbs mitochondrial morphology, function and maintenance in skeletal muscle tissue
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Christoph S. Clemen, Viktoriya Peeva, Harald Herrmann, Britta Eggers, Carolin Berwanger, Lilli Winter, Cornelia Kornblum, Wolfram S. Kunz, Katalin Barkovits, Valentina Strecker, Rolf Schröder, Ilka Wittig, Rudolf A. Kley, Juliana Heidler, Katrin Marcus, and Frédéric Chevessier
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0301 basic medicine ,Mitochondrial DNA ,Proteome ,Intermediate Filaments ,Clinical Neurology ,Respiratory chain ,Myofibrillar myopathy ,Mice, Transgenic ,macromolecular substances ,Mitochondrion ,Biology ,medicine.disease_cause ,Desmin ,Pathology and Forensic Medicine ,03 medical and health sciences ,Cellular and Molecular Neuroscience ,0302 clinical medicine ,Muscular Diseases ,medicine ,Animals ,Humans ,Intermediate Filament Protein ,Muscle, Skeletal ,Cytoskeleton ,Intermediate filament ,Original Paper ,Mutation ,Desmin knock-out ,mtDNA ,Desminopathy ,Protein aggregate myopathy ,Molecular biology ,Mitochondria ,030104 developmental biology ,R350P desmin ,Neurology (clinical) ,R349P desmin knock-in ,030217 neurology & neurosurgery - Abstract
Secondary mitochondrial dysfunction is a feature in a wide variety of human protein aggregate diseases caused by mutations in different proteins, both in the central nervous system and in striated muscle. The functional relationship between the expression of a mutated protein and mitochondrial dysfunction is largely unknown. In particular, the mechanism how this dysfunction drives the disease process is still elusive. To address this issue for protein aggregate myopathies, we performed a comprehensive, multi-level analysis of mitochondrial pathology in skeletal muscles of human patients with mutations in the intermediate filament protein desmin and in muscles of hetero- and homozygous knock-in mice carrying the R349P desmin mutation. We demonstrate that the expression of mutant desmin causes disruption of the extrasarcomeric desmin cytoskeleton and extensive mitochondrial abnormalities regarding subcellular distribution, number and shape. At the molecular level, we uncovered changes in the abundancy and assembly of the respiratory chain complexes and supercomplexes. In addition, we revealed a marked reduction of mtDNA- and nuclear DNA-encoded mitochondrial proteins in parallel with large-scale deletions in mtDNA and reduced mtDNA copy numbers. Hence, our data demonstrate that the expression of mutant desmin causes multi-level damage of mitochondria already in early stages of desminopathies. Electronic supplementary material The online version of this article (doi:10.1007/s00401-016-1592-7) contains supplementary material, which is available to authorized users.
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- 2016
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30. Mesial temporal lobe epilepsy associated with KCNT1 mutation
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Wolfram S. Kunz, Niels Hansen, Guido Widman, Elke Hattingen, and Christian E. Elger
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Adult ,Male ,0301 basic medicine ,Potassium Channels ,Cerebellar Ataxia ,Nerve Tissue Proteins ,Potassium Channels, Sodium-Activated ,Bioinformatics ,03 medical and health sciences ,Epilepsy ,0302 clinical medicine ,Text mining ,Intellectual Disability ,Humans ,Medicine ,business.industry ,Siblings ,Brain ,General Medicine ,medicine.disease ,Phenotype ,030104 developmental biology ,Epilepsy, Temporal Lobe ,Neurology ,Mutation ,Mutation (genetic algorithm) ,Female ,Neurology (clinical) ,business ,030217 neurology & neurosurgery ,Mesial temporal lobe epilepsy - Published
- 2017
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31. Heme is required for carbon monoxide activation of mitochondrial BKCa channel
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Piotr Koprowski, Bogusz Kulawiak, Wolfram S. Kunz, Piotr Bednarczyk, Daria Rotko, and Adam Szewczyk
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0301 basic medicine ,Pharmacology ,Hemeprotein ,Heme binding ,Cell ,Mitochondrion ,03 medical and health sciences ,chemistry.chemical_compound ,030104 developmental biology ,0302 clinical medicine ,Membrane ,medicine.anatomical_structure ,chemistry ,medicine ,Biophysics ,Inner mitochondrial membrane ,Heme ,030217 neurology & neurosurgery ,Carbon monoxide - Abstract
Carbon monoxide (CO) is an endogenously synthesized gaseous mediator and is involved in the regulation of numerous physiological processes. Mitochondria, in which hemoproteins are abundant, are among the targets for CO action. Large-conductance calcium-activated (mitoBKCa) channels in the inner mitochondrial membrane share multiple biophysical similarities with the BKCa channels of the plasma membrane and could be a potential target for CO. To test this hypothesis, the activity of the mitoBKCa channels in human astrocytoma U-87 MG cell mitochondria was assessed with the patch-clamp technique. The effects of CO-releasing molecules (CORMs), such as CORM-2, CORM-401, and CORM-A1, were compared to the application of a CO-saturated solution to the mitoBKCa channels in membrane patches. The applied CORMs showed pleiotropic effects including channel inhibition, while the CO-containing solution did not significantly modulate channel activity. Interestingly, CO applied to the mitoBKCa channels, which were inhibited by exogenously added heme, stimulated the channel. To summarize, our findings indicate a requirement of heme binding to the mitoBKCa channel for channel modulation by CO and suggest that CORMs might have complex unspecific effects on mitoBKCa channels.
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- 2020
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32. Genome-wide mega-analysis identifies 16 loci and highlights diverse biological mechanisms in the common epilepsies
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Christian E. Elger, Wolfgang Lieb, Claudia B. Catarino, Pasquale Striano, Andreja Avbersek, Daniel H. Lowenstein, Philip E. M. Smith, G. Neil Thomas, Dick Lindhout, Erin L. Heinzen, Sanjay M. Sisodiya, Orrin Devinsky, Alexander R. H. Smith, Rainer Surges, Stefan Wolking, Patrick Cossette, Annapurna Poduri, Eric B. Geller, Stacey S. Cherny, Maria Stella Vari, Peter De Jonghe, Kevin Haas, Andres Ingason, Reetta Kälviäinen, Krishna Chinthapalli, Dennis Lal, Graeme J. Sills, Martina Moerzinger, Jonathan P. Bradfield, Mark R Newton, Federico Zara, Sheryl R. Haut, Warren D. Lo, Holger Lerche, Felix Rosenow, Robert C. Knowlton, Mark McCormack, Sarah Rau, Felicitas Becker, Andre Franke, Heidi E. Kirsch, Patrick Kwan, Remi Stevelink, Rodney A. Radtke, Michele Iacomino, Faith Pangilinan, Ulrich Stephani, David F. Smith, Eva M. Reinthaler, Chantal Depondt, Hiltrud Muhle, Russell J. Buono, Alison J. Coffey, Ellen Campbell, Marvin Johnson, Bernhard J. Steinhoff, Sarah von Spiczak, Yvonne G. Weber, Ping-Wing Ng, Kerstin Hallmann, Philipp S. Reif, David Goldstein, Bettina Schmitz, Antonietta Coppola, Jerry J. Shih, Karen Oliver, Anne-Mari Kantanen, Rossana Tozzi, Markus Wolff, Albert J. Becker, Anne M. Molloy, Lisa Slattery, James L. Mills, Judith L.Z. Weisenberg, Jacqueline A. French, Lawrence C. Brody, Int League Against Epilepsy Conso, Peter Widdess-Walsh, Helle Hjalgrim, Christian Hengsbach, Christoph J. Schankin, Johan G. Eriksson, Tracy A. Glauser, Yu-Lung Lau, Larry Baum, Anna-Elina Lehesjoki, Nicole M. Walley, Josemir W. Sander, Markus M. Noethen, Simon Glynn, Jennifer Jamnadas-Khoda, Thomas Bast, Susanne Schoch, Iscia Lopes-Cendes, Doug Speed, Anja C M Sonsma, John Craig, Ingo Helbig, Marian Todaro, Gregory D. Cascino, Steven C. Schachter, Fritz Zimprich, Samuel F. Berkovic, Michael Privitera, Ben Francis, Martin Krenn, Rikke S. Møller, Eileen P.G. Vining, Martha Feucht, Bobby P. C. Koeleman, Ruben Kuzniecky, Christian Gieger, K. Meng Tan, Dalia Kasperaviciute, Pauls Auce, Gianpiero L. Cavalleri, Melanie Bahlo, Zhi Wei, Nasir Mirza, David J. Balding, Mike Smith, Liu Lin Thio, Alastair Compston, Katja E. Boysen, Gerrit-Jan de Haan, Hongsheng Gui, Hakon Hakonarson, Christopher D. Whelan, Colin P. Doherty, Youling Guo, Aarno Palotie, Wolfram S. Kunz, Slavé Petrovski, Thomas Sander, Frank Visscher, Bianca Berghuis, Costin Leu, Verena Gaus, Dennis J. Dlugos, Ingrid E. Scheffer, Alberto Malovini, Konstantin Strauch, Wanling Yang, Saskia Freytag, H. Stroink, Pak C. Sham, Norman Delanty, Terence J. O'Brien, Carolien G.F. de Kovel, Thomas U. Mayer, Anthony G Marson, Bassel Abou-Khalil, Thomas N. Ferraro, Dorothée G.A. Kasteleijn-Nolst Trenité, Roland Krause, Sarah Peter, Peter Nuernberg, Theresa Scattergood, Michael R. Sperling, Johan Eriksson / Principal Investigator, Department of General Practice and Primary Health Care, Clinicum, Department of Medical and Clinical Genetics, Medicum, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Genomics of Neurological and Neuropsychiatric Disorders, Int League Against Epilepsy Conso, Abou-Khalil, Bassel, Auce, Paul, Avbersek, Andreja, Bahlo, Melanie, J Balding, David, Bast, Thoma, Baum, Larry, J Becker, Albert, Becker, Felicita, Berghuis, Bianca, F Berkovic, Samuel, E Boysen, Katja, P Bradfield, Jonathan, C Brody, Lawrence, J Buono, Russell, Campbell, Ellen, D Cascino, Gregory, B Catarino, Claudia, L Cavalleri, Gianpiero, S Cherny, Stacey, Chinthapalli, Krishna, J Coffey, Alison, Compston, Alastair, Coppola, Antonietta, Cossette, Patrick, J Craig, John, de Haan, Gerrit-Jan, De Jonghe, Peter, F de Kovel, Carolien G, Delanty, Norman, Depondt, Chantal, Devinsky, Orrin, J Dlugos, Denni, P Doherty, Colin, E Elger, Christian, G Eriksson, Johan, N Ferraro, Thoma, Feucht, Martha, Francis, Ben, Franke, Andre, A French, Jacqueline, Freytag, Saskia, Gaus, Verena, B Geller, Eric, Gieger, Christian, Glauser, Tracy, Glynn, Simon, B Goldstein, David, Gui, Hongsheng, Guo, Youling, F Haas, Kevin, Hakonarson, Hakon, Hallmann, Kerstin, Haut, Sheryl, L Heinzen, Erin, Helbig, Ingo, Hengsbach, Christian, Hjalgrim, Helle, Iacomino, Michele, Ingason, André, Jamnadas-Khoda, Jennifer, R Johnson, Michael, Kälviäinen, Reetta, Kantanen, Anne-Mari, Kasperavičiūte, Dalia, Kasteleijn-Nolst Trenite, Dorothee, E Kirsch, Heidi, C Knowlton, Robert, C Koeleman, Bobby P, Krause, Roland, Krenn, Martin, S Kunz, Wolfram, Kuzniecky, Ruben, Kwan, Patrick, Lal, Denni, Lau, Yu-Lung, Lehesjoki, Anna-Elina, Lerche, Holger, Leu, Costin, Lieb, Wolfgang, Lindhout, Dick, D Lo, Warren, Lopes-Cendes, Iscia, H Lowenstein, Daniel, Malovini, Alberto, G Marson, Anthony, Mayer, Thoma, Mccormack, Mark, L Mills, Jame, Mirza, Nasir, Moerzinger, Martina, S Møller, Rikke, M Molloy, Anne, Muhle, Hiltrud, Newton, Mark, Ng, Ping-Wing, M Nöthen, Marku, Nürnberg, Peter, J O'Brien, Terence, L Oliver, Karen, Palotie, Aarno, Pangilinan, Faith, Peter, Sarah, Petrovski, Slavé, Poduri, Annapurna, Privitera, Michael, Radtke, Rodney, Rau, Sarah, S Reif, Philipp, M Reinthaler, Eva, Rosenow, Felix, W Sander, Josemir, Sander, Thoma, Scattergood, Theresa, C Schachter, Steven, J Schankin, Christoph, E Scheffer, Ingrid, Schmitz, Bettina, Schoch, Susanne, C Sham, Pak, J Shih, Jerry, J Sills, Graeme, M Sisodiya, Sanjay, Slattery, Lisa, Smith, Alexander, F Smith, David, C Smith, Michael, E Smith, Philip, M Sonsma, Anja C, Speed, Doug, R Sperling, Michael, J Steinhoff, Bernhard, Stephani, Ulrich, Stevelink, Remi, Strauch, Konstantin, Striano, Pasquale, Stroink, Han, Surges, Rainer, Meng Tan, K, Lin Thio, Liu, Neil Thomas, G, Todaro, Marian, Tozzi, Rossana, S Vari, Maria, G Vining, Eileen P, Visscher, Frank, von Spiczak, Sarah, M Walley, Nicole, G Weber, Yvonne, Wei, Zhi, Weisenberg, Judith, D Whelan, Christopher, Widdess-Walsh, Peter, Wolff, Marku, Wolking, Stefan, Yang, Wanling, Zara, Federico, Zimprich, Fritz, Wellcome Trust, GlaxoSmithKline Services Unlimited, Commission of the European Communities, Medical Research Council (MRC), and Imperial College Healthcare NHS Trust- BRC Funding
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0301 basic medicine ,Linkage disequilibrium ,LD SCORE REGRESSION ,Neurology [D14] [Human health sciences] ,General Physics and Astronomy ,Genome-wide association study ,ILAE COMMISSION ,Neurodegenerative ,Genome ,Linkage Disequilibrium ,Epilepsy ,Gene Frequency ,Missing heritability problem ,2.1 Biological and endogenous factors ,Aetiology ,lcsh:Science ,International League Against Epilepsy Consortium on Complex Epilepsies ,Multidisciplinary ,Genetic Predisposition to Disease/genetics ,Chromosome Mapping ,ASSOCIATION ,Epilepsy/classification ,Single Nucleotide ,ABSENCE ,3. Good health ,Technologie de l'environnement, contrôle de la pollution ,SNP HERITABILITY ,Neurological ,Genome-Wide Association Study/methods ,Case-Control Studie ,Engineering sciences. Technology ,Human ,Biotechnology ,EXPRESSION ,SUSCEPTIBILITY LOCI ,Genotype ,Science ,Quantitative Trait Loci ,610 Medicine & health ,Computational biology ,Biology ,Quantitative trait locus ,Polymorphism, Single Nucleotide ,General Biochemistry, Genetics and Molecular Biology ,Article ,GENETIC ARCHITECTURE ,03 medical and health sciences ,MD Multidisciplinary ,medicine ,Genetics ,SNP ,Chimie ,FRONTAL-LOBE ,Humans ,Genetic Predisposition to Disease ,Polymorphism ,METAANALYSIS ,Neurologie [D14] [Sciences de la santé humaine] ,Physique ,Human Genome ,Neurosciences ,General Chemistry ,Astronomie ,medicine.disease ,Genetic architecture ,Brain Disorders ,030104 developmental biology ,Gene Expression Regulation ,Case-Control Studies ,epilepsy ,lcsh:Q ,3111 Biomedicine ,Quantitative Trait Loci/genetics ,Genome-Wide Association Study - Abstract
The epilepsies affect around 65 million people worldwide and have a substantial missing heritability component. We report a genome-wide mega-analysis involving 15,212 individuals with epilepsy and 29,677 controls, which reveals 16 genome-wide significant loci, of which 11 are novel. Using various prioritization criteria, we pinpoint the 21 most likely epilepsy genes at these loci, with the majority in genetic generalized epilepsies. These genes have diverse biological functions, including coding for ion-channel subunits, transcription factors and a vitamin-B6 metabolism enzyme. Converging evidence shows that the common variants associated with epilepsy play a role in epigenetic regulation of gene expression in the brain. The results show an enrichment for monogenic epilepsy genes as well as known targets of antiepileptic drugs. Using SNP-based heritability analyses we disentangle both the unique and overlapping genetic basis to seven different epilepsy subtypes. Together, these findings provide leads for epilepsy therapies based on underlying pathophysiology., SCOPUS: ar.j, info:eu-repo/semantics/published
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- 2018
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33. P.79Malignant cardiac phenotype after pressure overload in autosomal-dominant desminopathies: Lessons from heterozygous R349P desmin knock-in mice
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Tobias Radecke, J W Schrickel, Carolin Berwanger, Viktoriya Peeva, Christoph S. Clemen, Lars Eichhorn, Thomas Beiert, Wolfram S. Kunz, Florian Stöckigt, Georg Nickenig, Vincent Knappe, Rolf Schröder, and Martin Steinmetz
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Pressure overload ,medicine.medical_specialty ,Endocrinology ,Neurology ,Gene knockin ,Internal medicine ,Pediatrics, Perinatology and Child Health ,medicine ,Desmin ,Neurology (clinical) ,Biology ,Cardiac phenotype ,Genetics (clinical) - Published
- 2019
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34. Evaluation and timing optimization of CT perfusion first pass analysis in comparison to maximum slope model in pancreatic adenocarcinoma
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Neha Vats, Philipp Mayer, Franziska Kortes, Miriam Klauß, Lars Grenacher, Wolfram Stiller, Hans-Ulrich Kauczor, and Stephan Skornitzke
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Medicine ,Science - Abstract
Abstract For implementation, performance evaluation and timing optimization of CT perfusion first pass analysis (FPA) by correlation with maximum slope model (MSM) in pancreatic adenocarcinoma, dynamic CT perfusion acquisitions of 34 time-points were performed in 16 pancreatic adenocarcinoma patients. Regions of interest were marked in both parenchyma and carcinoma. FPA, a low radiation exposure CT perfusion technique, was implemented. Blood flow (BF) perfusion maps were calculated using FPA and MSM. Pearson’s correlation between FPA and MSM was calculated at each evaluated time-point to determine optimum timing for FPA. Differences in BF between parenchyma and carcinoma were calculated. Average BF for MSM was 106.8 ± 41.5 ml/100 ml/min in parenchyma and 42.0 ± 24.8 ml/100 ml/min in carcinoma, respectively. For FPA, values ranged from 85.6 ± 37.5 ml/100 ml/min to 117.7 ± 44.5 ml/100 ml/min in parenchyma and from 27.3 ± 18.8 ml/100 ml/min to 39.5 ± 26.6 ml/100 ml/min in carcinoma, depending on acquisition timing. A significant difference (p value 0.90) and 94% reduction in the radiation dose compared to MSM. CT perfusion FPA, where the first scan is obtained after the arterial input function exceeds a threshold of 120 HU, followed by a second scan after 15.5–20.0 s, could be used as a potential imaging biomarker with low radiation exposure for diagnosing and evaluating pancreatic carcinoma in clinical practice, showing high correlation with MSM and the ability to differentiate between parenchyma and carcinoma.
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- 2023
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35. Loss of the smallest subunit of cytochrome c oxidase, COX8A, causes Leigh-like syndrome and epilepsy
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Cornelia Rüb, Kerstin Hallmann, Stephan Waltz, Gábor Zsurka, Burkhard Stüve, Holger Thiele, Jens Kopatz, Cornelia Kornblum, Jens Reimann, Peter Nürnberg, Elke Hattingen, Wolfgang Voos, Alexei P. Kudin, Wolfram S. Kunz, and Harald Neumann
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0301 basic medicine ,Enzyme complex ,Protein subunit ,Respiratory chain ,medicine.disease_cause ,COX8A ,Electron Transport Complex IV ,03 medical and health sciences ,Fatal Outcome ,medicine ,Humans ,Cytochrome c oxidase ,SURF1 ,Child ,Genetics ,Mutation ,Epilepsy ,Splice site mutation ,biology ,Molecular biology ,Protein Subunits ,030104 developmental biology ,biology.protein ,Female ,Neurology (clinical) ,Leigh Disease - Abstract
Isolated cytochrome c oxidase (complex IV) deficiency is one of the most frequent respiratory chain defects in humans and is usually caused by mutations in proteins required for assembly of the complex. Mutations in nuclear-encoded structural subunits are very rare. In a patient with Leigh-like syndrome presenting with leukodystrophy and severe epilepsy, we identified a homozygous splice site mutation in COX8A, which codes for the ubiquitously expressed isoform of subunit VIII, the smallest nuclear-encoded subunit of complex IV. The mutation, affecting the last nucleotide of intron 1, leads to aberrant splicing, a frame-shift in the highly conserved exon 2, and decreased amount of the COX8A transcript. The loss of the wild-type COX8A protein severely impairs the stability of the entire cytochrome c oxidase enzyme complex and manifests in isolated complex IV deficiency in skeletal muscle and fibroblasts, similar to the frequent c.845_846delCT mutation in the assembly factor SURF1 gene. Stability and activity of complex IV could be rescued in the patient’s fibroblasts by lentiviral expression of wild-type COX8A. Our findings demonstrate that COX8A is indispensable for function of human complex IV and its mutation causes human disease.
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- 2015
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36. Mitochondrial dysfunction and seizures: the neuronal energy crisis
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Wolfram S. Kunz and Gábor Zsurka
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Neurons ,Neurotransmitter transporter ,Membrane potential ,medicine.medical_treatment ,Brain ,Biology ,Neurotransmission ,Mitochondrion ,medicine.disease ,medicine.disease_cause ,Mitochondria ,Oxidative Stress ,Epilepsy ,Anticonvulsant ,Seizures ,medicine ,Animals ,Humans ,Neurology (clinical) ,Energy Metabolism ,Neuroscience ,Oxidative stress ,Homeostasis - Abstract
Seizures are often the key manifestation of neurological diseases caused by pathogenic mutations in 169 of the genes that have so far been identified to affect mitochondrial function. Mitochondria are the main producers of ATP needed for normal electrical activities of neurons and synaptic transmission. Additionally, they have a central role in neurotransmitter synthesis, calcium homoeostasis, redox signalling, production and modulation of reactive oxygen species, and neuronal death. Hypotheses link mitochondrial failure to seizure generation through changes in calcium homoeostasis, oxidation of ion channels and neurotransmitter transporters by reactive oxygen species, a decrease in neuronal plasma membrane potential, and reduced network inhibition due to interneuronal dysfunction. Seizures, irrespective of their origin, represent an excessive acute energy demand in the brain. Accordingly, secondary mitochondrial dysfunction has been described in various epileptic disorders, including disorders that are mainly of non-mitochondrial origin. An understanding of the reciprocal relation between mitochondrial dysfunction and epilepsy is crucial to select appropriate anticonvulsant treatment and has the potential to open up new therapeutic approaches in the subset of epileptic disorders caused by mitochondrial dysfunction.
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- 2015
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37. Do Glut1 (glucose transporter type 1) defects exist in epilepsy patients responding to a ketogenic diet?
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Yvonne G. Weber, Jürgen Sperner, Steffen Grüninger, Sarah Weckhuysen, Julian Schubert, Kerstin Hallmann, Wolfram S. Kunz, Anne Hofmann-Peters, Elisabeth Korn-Merker, René Madeleyen, Christian E. Elger, Felicitas Becker, Arvid Suls, Helen Cross, and Holger Lerche
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Adult ,Male ,Drug Resistant Epilepsy ,medicine.medical_specialty ,Deficiency syndrome ,Adolescent ,medicine.medical_treatment ,Cohort Studies ,Young Adult ,Epilepsy ,Internal medicine ,medicine ,Humans ,Child ,Glucose Transporter Type 1 ,biology ,business.industry ,Glucose transporter ,Transporter ,medicine.disease ,3. Good health ,carbohydrates (lipids) ,Endocrinology ,Neurology ,Dyskinesia ,Child, Preschool ,Mutation ,biology.protein ,Female ,GLUT1 ,Human medicine ,Neurology (clinical) ,medicine.symptom ,Diet, Ketogenic ,business ,Ketogenic diet - Abstract
In the recent years, several neurological syndromes related to defects of the glucose transporter type 1 (Glut1) have been descried. They include the glucose transporter deficiency syndrome (Glut1-DS) as the most severe form, the paroxysmal exertion-induced dyskinesia (FED), a form of spastic paraparesis (CSE) as well as the childhood (CAE) and the early-onset absence epilepsy (EOAE). Glut1, encoded by the gene SLC2A1, is the most relevant glucose transporter in the brain. All Glut1 syndromes respond well to a ketogenic diet (KD) and most of the patients show a rapid seizure control. Ketogenic Diet developed to an established treatment for other forms of pharmaco-resistant epilepsies. Since we were interested in the question if those patients might have an underlying Glut1 defect, we sequenced SLC2A1 in a cohort of 28 patients with different forms of pharmaco-resistant epilepsies responding well to a KD. Unfortunately, we could not detect any mutations in SLC2A1. The exact action mechanisms of MD in pharmaco-resistant epilepsy are not well understood, but bypassing the Glut1 transporter seems not to play an important role. (C) 2015 Elsevier B.V. All rights reserved.
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- 2015
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38. Metabolic Epilepsies-Commemorative Issue in Honor of Professor Uwe Heinemann
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Wolfram S. Kunz and Richard Kovács
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0301 basic medicine ,Gerontology ,medicine.medical_specialty ,macromolecular substances ,Neurological disorder ,Catalysis ,lcsh:Chemistry ,Inorganic Chemistry ,Very frequent ,03 medical and health sciences ,Epilepsy ,medicine ,Humans ,Physical and Theoretical Chemistry ,Psychiatry ,lcsh:QH301-705.5 ,Molecular Biology ,Spectroscopy ,Disease burden ,business.industry ,musculoskeletal, neural, and ocular physiology ,Organic Chemistry ,Brain ,General Medicine ,medicine.disease ,Computer Science Applications ,n/a ,030104 developmental biology ,Editorial ,lcsh:Biology (General) ,lcsh:QD1-999 ,nervous system ,Honor ,business - Abstract
Epilepsy is a very frequent, severe, and disabling neurological disorder with has a considerable disease burden worldwide [...].
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- 2017
39. Mitochondrial Liver Toxicity of Valproic Acid and Its Acid Derivatives Is Related to Inhibition of α-Lipoamide Dehydrogenase
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Arik Eisenkraft, Christian E. Elger, Alexei P. Kudin, Wolfram S. Kunz, Hafiz Mawasi, and Meir Bialer
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0301 basic medicine ,Pyruvate decarboxylation ,Valpromide ,Pyruvate transport ,mitochondrial epilepsy ,Mitochondria, Liver ,Pharmacology ,Mitochondrion ,Catalysis ,Article ,Inorganic Chemistry ,lcsh:Chemistry ,03 medical and health sciences ,chemistry.chemical_compound ,0302 clinical medicine ,Pyruvic Acid ,medicine ,Valnoctamide ,Animals ,Physical and Theoretical Chemistry ,Molecular Biology ,lcsh:QH301-705.5 ,Spectroscopy ,analogues of valproic acid ,Dihydrolipoamide Dehydrogenase ,Dihydrolipoamide dehydrogenase ,Chemistry ,Valproic Acid ,Organic Chemistry ,General Medicine ,medicine.disease ,liver toxicity ,Amides ,valproic acid ,metabolic epilepsy ,Computer Science Applications ,Mitochondria ,Rats ,Mitochondrial toxicity ,030104 developmental biology ,Biochemistry ,lcsh:Biology (General) ,lcsh:QD1-999 ,Liver ,lipids (amino acids, peptides, and proteins) ,Pyruvic acid ,030217 neurology & neurosurgery ,medicine.drug - Abstract
The liver toxicity of valproic acid (VPA) is an established side effect of this widely used antiepileptic drug, which is extremely problematic for patients with metabolic epilepsy and particularly epilepsy due to mitochondrial dysfunction. In the present report, we investigated the reason for liver mitochondrial toxicity of VPA and several acid and amide VPA analogues. While the pyruvate and 2-oxoglutarate oxidation rates of rat brain mitochondria were nearly unaffected by VPA, rat liver mitochondrial pyruvate and 2-oxoglutarate oxidation was severely impaired by VPA concentrations above 100 µM. Among the reactions involved in pyruvate oxidation, pyruvate transport and dehydrogenation steps were not affected by VPA, while α-lipoamide dehydrogenase was strongly inhibited. Strong inhibition of α-lipoamide dehydrogenase was also noted for the VPA one-carbon homolog sec -butylpropylacetic acid (SPA) and to a lesser extent for the VPA constitutional isomer valnoctic acid (VCA), while the corresponding amides of the above three acids valpromide (VPD), sec -butylpropylacetamide (SPD) and valnoctamide (VCD) showed only small effects. We conclude that the active inhibitors of pyruvate and 2-oxoglutarate oxidation are the CoA conjugates of VPA and its acid analogues affecting selectively α-lipoamide dehydrogenase in liver. Amide analogues of VPA, like VCD, show low inhibitory effects on mitochondrial oxidative phosphorylation in the liver, which might be relevant for treatment of patients with mitochondrial epilepsy.
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- 2017
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40. Hemin inhibits the large conductance potassium channel in brain mitochondria: A putative novel mechanism of neurodegeneration
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Adam Szewczyk, Bartłomiej Augustynek, Piotr Bednarczyk, Alexei P. Kudin, and Wolfram S. Kunz
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Patch-Clamp Techniques ,Astrocytoma ,Mitochondrion ,Pathogenesis ,chemistry.chemical_compound ,Developmental Neuroscience ,Cell Line, Tumor ,Potassium Channel Blockers ,medicine ,Animals ,Humans ,Large-Conductance Calcium-Activated Potassium Channels ,Membrane Potential, Mitochondrial ,Dose-Response Relationship, Drug ,Neurodegeneration ,Brain ,Conductance ,Hydrogen Peroxide ,medicine.disease ,Cytoprotection ,Potassium channel ,Mitochondria ,Rats ,Cell biology ,Neurology ,Biochemistry ,chemistry ,Cell culture ,Hemin ,Benzimidazoles ,Calcium ,Peptides ,Reactive Oxygen Species - Abstract
Intracerebral hemorrhage (ICH) is a pathological condition that accompanies certain neurological diseases like hemorrhagic stroke or brain trauma. Its effects are severely destructive to the brain and can be fatal. There is an entire spectrum of harmful factors which are associated with the pathogenesis of ICH. One of them is a massive release of hemin from the decomposed erythrocytes. It has been previously shown, that hemin can inhibit the large-conductance Ca(2+)-regulated potassium channel in the plasma membrane. However, it remained unclear whether this phenomenon applies also to the mitochondrial large-conductance Ca(2+)-regulated potassium channel. The aim of the present study was to determine the impact of hemin on the activity of the large conductance Ca(2+)-regulated potassium channel in the brain mitochondria (mitoBKCa). In order to do so, we have used a patch-clamp technique and shown that hemin inhibits mitoBKCa in human astrocytoma U-87 MG cell line mitochondria. Since opening of the mitochondrial potassium channels is known to be cytoprotective, we have elucidated whether hemin can attenuate some of the beneficiary effects of potassium channel opening. We have studied the effect of hemin on reactive oxygen species synthesis, and mild mitochondrial uncoupling in isolated rat brain mitochondria. Taken together, our data show that hemin inhibits mitoBKCa and partially abolishes some of the cytoprotective properties of potassium channel opening. Considering the role of the mitoBKCa in cytoprotection, it can be presumed that its inhibition by hemin may be a novel mechanism contributing to the severity of the ICH symptoms. However, the validity of the presented results shall be further verified in an experimental model of ICH.
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- 2014
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41. Exonic microdeletions of the gephyrin gene impair GABAergic synaptic inhibition in patients with idiopathic generalized epilepsy
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Borislav Dejanovic, Dennis Lal, Claudia B. Catarino, Sita Arjune, Abdel A. Belaidi, Holger Trucks, Christian Vollmar, Rainer Surges, Wolfram S. Kunz, Susanne Motameny, Janine Altmüller, Anna Köhler, Bernd A. Neubauer, null EPICURE Consortium, Peter Nürnberg, Soheyl Noachtar, Günter Schwarz, and Thomas Sander
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Adult ,Male ,Idiopathic generalized epilepsy ,GPHN ,Neurotransmission ,Inhibitory postsynaptic potential ,Epileptogenesis ,lcsh:RC321-571 ,Frameshift mutation ,Young Adult ,Epilepsy ,Risk Factors ,medicine ,Humans ,RNA, Messenger ,GABAergic Neurons ,lcsh:Neurosciences. Biological psychiatry. Neuropsychiatry ,Sequence Deletion ,Genetics ,Gephyrin ,biology ,Membrane Proteins ,Exons ,medicine.disease ,Pedigree ,Neurology ,Synapses ,biology.protein ,Microdeletion ,GABAergic ,Epilepsy, Generalized ,Female ,Carrier Proteins ,Neuroscience - Abstract
Gephyrin is a postsynaptic scaffolding protein, essential for the clustering of glycine and γ-aminobutyric acid type-A receptors (GABAARs) at inhibitory synapses. An impairment of GABAergic synaptic inhibition represents a key pathway of epileptogenesis. Recently, exonic microdeletions in the gephyrin (GPHN) gene have been associated with neurodevelopmental disorders including autism spectrum disorder, schizophrenia and epileptic seizures. Here we report the identification of novel exonic GPHN microdeletions in two patients with idiopathic generalized epilepsy (IGE), representing the most common group of genetically determined epilepsies. The identified GPHN microdeletions involve exons 5–9 (Δ5–9) and 2–3 (Δ2–3), both affecting the gephyrin G-domain. Molecular characterization of the GPHN Δ5–9 variant demonstrated that it perturbs the clustering of regular gephyrin at inhibitory synapses in cultured mouse hippocampal neurons in a dominant-negative manner, resulting in a significant loss of γ2-subunit containing GABAARs. GPHN Δ2–3 causes a frameshift resulting in a premature stop codon (p.V22Gfs*7) leading to haplo-insufficiency of the gene. Our results demonstrate that structural exonic microdeletions affecting the GPHN gene constitute a rare genetic risk factor for IGE and other neuropsychiatric disorders by an impairment of the GABAergic inhibitory synaptic transmission.
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- 2014
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42. Asynchronous calibration of quantitative computed tomography bone mineral density assessment for opportunistic osteoporosis screening: phantom-based validation and parameter influence evaluation
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Stephan Skornitzke, Neha Vats, Taisiya Kopytova, Elizabeth Wai Yee Tong, Tobias Hofbauer, Tim Frederik Weber, Christoph Rehnitz, Oyunbileg von Stackelberg, Klaus Maier-Hein, Wolfram Stiller, Jürgen Biederer, Hans-Ulrich Kauczor, Claus-Peter Heußel, Mark Wielpütz, and Viktoria Palm
- Subjects
Medicine ,Science - Abstract
Abstract Asynchronous calibration could allow opportunistic screening based on routine CT for early osteoporosis detection. In this phantom study, a bone mineral density (BMD) calibration phantom and multi-energy CT (MECT) phantom were imaged on eight different CT scanners with multiple tube voltages (80–150 kVp) and image reconstruction settings (e.g. soft/hard kernel). Reference values for asynchronous BMD estimation were calculated from the BMD-phantom and validated with six calcium composite inserts of the MECT-phantom with known ground truth. Relative errors/changes in estimated BMD were calculated and investigated for influence of tube voltage, CT scanner and reconstruction setting. Reference values for 282 acquisitions were determined, resulting in an average relative error between calculated BMD and ground truth of − 9.2% ± 14.0% with a strong correlation (R 2 = 0.99; p
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- 2022
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43. Microglial CD33-Related Siglec-E Inhibits Neurotoxicity by Preventing the Phagocytosis-Associated Oxidative Burst
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Harald Neumann, Janine Claude, Bettina Linnartz-Gerlach, Wolfram S. Kunz, and Alexei P. Kudin
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Male ,Phagocytosis ,Sialic Acid Binding Ig-like Lectin 3 ,Biology ,Neuroprotection ,Glycocalyx ,Mice ,chemistry.chemical_compound ,Antigens, CD ,medicine ,Animals ,Cells, Cultured ,Respiratory Burst ,Neurons ,chemistry.chemical_classification ,Reactive oxygen species ,Microglia ,General Neuroscience ,SIGLEC ,respiratory system ,Molecular biology ,Coculture Techniques ,Sialic acid ,Respiratory burst ,Antigens, Differentiation, B-Lymphocyte ,Mice, Inbred C57BL ,Neuroprotective Agents ,medicine.anatomical_structure ,nervous system ,chemistry ,Female ,Brief Communications ,Protein Binding - Abstract
Sialic acid-binding Ig-like lectins (Siglecs) are members of the Ig superfamily that recognize sialic acid residues of glycoproteins. Siglec-E is a mouse CD33-related Siglec that preferentially binds to sialic acid residues of the cellular glycocalyx. Here, we demonstrate gene transcription and protein expression of Siglec-E by cultured mouse microglia. Siglec-E on microglia inhibited phagocytosis of neural debris and prevented the production of superoxide radicals induced by challenge with neural debris. Soluble extracellular Siglec-E receptor protein bound to the neural glycocalyx. Coculture of mouse microglia and neurons demonstrated a neuroprotective effect of microglial Siglec-E that was dependent on neuronal sialic acid residues. Increased neurotoxicity of microglia after knockdown ofSiglecemRNA was neutralized by the reactive oxygen species scavenger Trolox. Data suggest that Siglec-E recognizes the intact neuronal glycocalyx and has neuroprotective function by preventing phagocytosis and the associated oxidative burst.
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- 2013
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44. Sustained seizure remission on perampanel in progressive myoclonic epilepsy (Lafora disease)☆
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Wolfram S. Kunz, Felix Rosenow, Adam Strzelczyk, Kathrin Schorlemmer, Sebastian Bauer, Philipp S. Reif, Anke Hermsen, Marcus Belke, Susanne Knake, Karl Martin Klein, and Wolfgang H. Oertel
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Myoclonus ,congenital, hereditary, and neonatal diseases and abnormalities ,medicine.medical_specialty ,Pediatrics ,EPM2A ,Case Report ,Progressive myoclonus epilepsy ,Progressive myoclonic epilepsy ,Perampanel ,Lafora disease ,Behavioral Neuroscience ,chemistry.chemical_compound ,Epilepsy ,medicine ,Lafora ,Psychiatry ,business.industry ,medicine.disease ,Neurology ,chemistry ,Neurology (clinical) ,medicine.symptom ,business - Abstract
Aim The aim of this report is to provide initial evidence that add-on treatment with perampanel might be highly effective in progressive myoclonic epilepsy such as Lafora disease. Case report We report on a 21-year-old woman suffering from persistent myoclonus and generalized tonic–clonic seizures for more than seven years. Additionally, ataxia, a disturbance in speech and gait, as well as a cognitive decline were rapidly progressing. Subsequently, the diagnosis of Lafora disease was confirmed by the identification of a novel homozygous missense mutation in exon 3 of the EPM2A gene (c.538C>G; p.L180V). Adjunctive therapy with perampanel was started in this patient with advanced Lafora disease and was titrated up to 8 mg/day. A sustained and reproducible remission of myoclonus and GTCS could be achieved for a follow-up of three months. After dosage reduction to 6 mg/day, seizures recurred; however, on increasing the daily dose to 10 mg, seizures stopped for another three months. The patient also regained her ability to walk with help and the aid of a walker. Conclusions Perampanel is a selective, noncompetitive antagonist of AMPA-type glutamate receptors and recently licensed as adjunctive therapy for the treatment of refractory focal onset seizures. There is evidence for its effectiveness in generalized epilepsies, and phase III studies for this indication are on the way. Our case illustrates the possibility that perampanel might be a valuable option for treatment in PME. Considering its impressive efficacy in this case, we suggest a prospective, multicenter study evaluating perampanel in PME.
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- 2013
45. Mutation in the mitochondrial tRNAIle gene causes progressive myoclonus epilepsy
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Yvonne G. Weber, Gábor Zsurka, Holger Lerche, Wolfram S. Kunz, Felicitas Becker, Hans-Jürgen Gdynia, and Markus Heinen
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Adult ,Male ,Pathology ,medicine.medical_specialty ,Mitochondrial DNA ,Clinical Neurology ,Progressive myoclonus epilepsy ,Biology ,MERRF ,Epilepsy ,Progressive ,RNA, Transfer ,Photosensitivity ,medicine ,Humans ,Muscle, Skeletal ,Myoclonic epilepsy with ragged red fibres ,Muscle biopsy ,medicine.diagnostic_test ,Skeletal muscle ,Electroencephalography ,General Medicine ,medicine.disease ,Myoclonic Epilepsies, Progressive ,Magnetic Resonance Imaging ,Heteroplasmy ,Mitochondria, Muscle ,medicine.anatomical_structure ,Metabolism ,Neurology ,Mutation ,Myoclonic epilepsy ,Neurology (clinical) ,Chronic progressive external ophthalmoplegia ,Myoclonic - Abstract
A B S T R A C T Purpose: The group of the rare progressive myoclonic epilepsies (PME) include a wide spectrum of mitochondrial and metabolic diseases. In juvenile and adult ages, MERRF (myoclonic epilepsy with ragged red fibres) is the most common form. The underlying genetic defect in most patients with the syndrome of MERRF is a mutation in the tRNALys gene, but mutations were also detected in the tRNAPhe gene. Method: Here, we describe a 40 year old patient with prominent myoclonic seizures since 39 years of age without a mutation in the known genes who underwent intensive clinical, genetic and functional workup. Results: The patient had a slight mental retardation and a severe progressive hearing loss based on a defect of the inner ear on both sides. Ictal electroencephalography (EEG) showed bilateral occipital and generalized spikes and polyspikes induced and aggravated by photostimulation. A cranial magnetic resonance imaging (cMRI) detected a global cortical atrophy of the brain and mild periventricular white matter lesions. The electromyography (EMG) was normal but the muscle biopsy showed abundant ragged red fibres. Sequencing of the mitochondrial DNA from the skeletal muscle biopsy revealed a novel heteroplasmic mutation (m.4279A>G) in the tRNAIle gene which was functionally relevant as tested in single skeletal muscle fibre investigations. Conclusion: Mutations in tRNAIle were described in patients with chronic progressive external ophthalmoplegia (CPEO), prominent deafness or cardiomyopathy but, up to now, not in patients with myoclonic epilepsy. The degree of heteroplasmy of this novel mitochondrial DNA mutation was 70% in skeletal muscle but only 15% in blood, pointing to the diagnostic importance of a skeletal muscle biopsy also in patients with myoclonic epilepsy.
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- 2013
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46. Sonography of the median nerve in CMT1A, CMT2A, CMTX, and HNPP
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Reinhard Dengler, Christian Mawrin, C. Scherlach, Stefanie Schreiber, Wolfram S. Kunz, Sibylle Jakubiczka, Andreas Oldag, Ariel Schoenfeld, Helmut Feistner, Michael Goertler, Frank Schreiber, Katja Kollewe, Cornelia Kornblum, Stefan Vielhaber, Siegfried Kropf, and Claus Tempelmann
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Neural Conduction ,congenital, hereditary, and neonatal diseases and abnormalities ,Pathology ,medicine.medical_specialty ,Physiology ,business.industry ,Ultrasound ,Axonal loss ,Anatomy ,Fascicle ,Median nerve ,Cellular and Molecular Neuroscience ,medicine.anatomical_structure ,Forearm ,Physiology (medical) ,medicine ,Entrapment Neuropathy ,Neurology (clinical) ,business ,Sensory nerve - Abstract
Introduction: In this study we compare the ultrasound features in the median nerve in patients with different types of Charcot–Marie–Tooth (CMT) disease and hereditary neuropathies with liability to pressure palsies (HNPP) as a typical entrapment neuropathy. Methods: Median nerve ultrasound and conduction studies were performed in patients with CMT1A (n = 12), MFN2-associated CMT2A (n = 7), CMTX (n = 5), and HNPP (n = 5), and in controls (n = 28). Results: Median nerve cross-sectional area (CSA) was significantly increased in CMT1A, whereas, in axonal CMT2A, fascicle diameter (FD) was enlarged. CSA correlated with nerve conduction slowing in CMT1A and with axonal loss, as shown by motor and sensory nerve amplitudes in both CMT1A and CMT2A. A relatively low wrist-to-forearm-ratio (WFR 1.8) appeared to be unlikely in MFN2 and Cx32 mutations of CMT2A and CMTX, respectively. Conclusion: Differences in CSA, FD, and WFR of the median nerve can be helpful in defining subtypes of hereditary neuropathies. Muscle Nerve 47:385-395, 2013
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- 2013
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47. Mitochondrial involvement in neurodegenerative diseases
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Wolfram S. Kunz and Gábor Zsurka
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Programmed cell death ,Mitochondrial DNA ,Clinical Biochemistry ,Presynaptic Terminals ,Oxidative phosphorylation ,Mitochondrion ,medicine.disease_cause ,DNA, Mitochondrial ,Biochemistry ,Oxidative Phosphorylation ,Mitochondrial Proteins ,Adenosine Triphosphate ,Genetics ,medicine ,Humans ,Molecular Biology ,Mutation ,Cell Death ,ATP synthase ,biology ,Neurodegeneration ,Neurodegenerative Diseases ,Cell Biology ,medicine.disease ,Mitochondria ,Cell biology ,Oxidative Stress ,Disease Progression ,biology.protein ,Reactive Oxygen Species ,Oxidative stress - Abstract
The classical bioenergetical view of the involvement of mitochondria in neurogeneration is based on the fact that mitochondria are the central players of ATP synthesis in neurons and their failure leads to neuronal dysfunction and eventually to cell death. Mutations in at least 39 genes in inherited neurodegenerative disorders seem to alter directly or indirectly mitochondrial function. Most of these mutations do not directly affect oxidative phosphorylation, but act through disturbed mitochondrial dynamics and quality control. This, however, does not invalidate the bioenergetic hypothesis. Neurodegeneration is not necessarily associated with a gross failure of ATP production, but might rather be a consequence of local insufficiencies of ATP supply in critical compartments of neurons, like the presynaptic terminal. We hypothesize that slow disease progression, at least in a subgroup of neurodegenerative diseases, can be explained by the parallel action of subcellular ATP insufficiency and clonal expansion of somatic mitochondrial DNA mutations, and particularly deletions.
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- 2013
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48. Biallelic Mutations of VAC14 in Pediatric-Onset Neurological Disease
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Miriam H. Meisler, David A. Hsu, Anna Walczak, Grazyna Debska-Vielhaber, Rafał Płoski, Piotr Stawiński, Stefan Vielhaber, Wolfram S. Kunz, Guy M. Lenk, Kerstin Hallmann, Sonja Buehring, Małgorzata Rydzanicz, Monika Bekiesińska-Figatowska, and Krystyna Szymańska
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0301 basic medicine ,Proband ,Male ,Heterozygote ,Mutation, Missense ,Genes, Recessive ,Neurological disorder ,Biology ,Compound heterozygosity ,03 medical and health sciences ,0302 clinical medicine ,Report ,medicine ,Polymicrogyria ,Genetics ,Missense mutation ,Humans ,Genetics(clinical) ,Exome ,Amino Acid Sequence ,Age of Onset ,Child ,Genetics (clinical) ,Exome sequencing ,Alleles ,Dystonia ,Intracellular Signaling Peptides and Proteins ,Infant ,Membrane Proteins ,Exons ,medicine.disease ,Pedigree ,030104 developmental biology ,Child, Preschool ,Mutation ,Female ,Age of onset ,Nervous System Diseases ,030217 neurology & neurosurgery - Abstract
In the PI(3,5)P2 biosynthetic complex, the lipid kinase PIKFYVE and the phosphatase FIG4 are bound to the dimeric scaffold protein VAC14, which is composed of multiple heat-repeat domains. Mutations of FIG4 result in the inherited disorders Charcot-Marie-Tooth disease type 4J, Yunis-Varon syndrome, and polymicrogyria with seizures. We here describe inherited variants of VAC14 in two unrelated children with sudden onset of a progressive neurological disorder and regression of developmental milestones. Both children developed impaired movement with dystonia, became nonambulatory and nonverbal, and exhibited striatal abnormalities on MRI. A diagnosis of Leigh syndrome was rejected due to normal lactate profiles. Exome sequencing identified biallelic variants of VAC14 that were inherited from unaffected heterozygous parents in both families. Proband 1 inherited a splice-site variant that results in skipping of exon 13, p.Ile459Profs(∗)4 (not reported in public databases), and the missense variant p.Trp424Leu (reported in the ExAC database in a single heterozygote). Proband 2 inherited two missense variants in the dimerization domain of VAC14, p.Ala582Ser and p.Ser583Leu, that have not been previously reported. Cultured skin fibroblasts exhibited the accumulation of vacuoles that is characteristic of PI(3,5)P2 deficiency. Vacuolization of fibroblasts was rescued by transfection of wild-type VAC14 cDNA. The similar age of onset and neurological decline in the two unrelated children define a recessive disorder resulting from compound heterozygosity for deleterious variants of VAC14.
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- 2016
49. The contribution of thioredoxin-2 reductase and glutathione peroxidase to H2O2 detoxification of rat brain mitochondria
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Richard Kovács, Wolfram S. Kunz, Alexei P. Kudin, Bartłomiej Augustynek, and Anja Lehmann
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Male ,GPX1 ,Thioredoxin-Disulfide Reductase ,Antioxidant ,medicine.medical_treatment ,Biophysics ,Hydrogen peroxide metabolism ,Digitonin ,Nerve Tissue Proteins ,Hippocampus ,Biochemistry ,Mitochondrial Proteins ,chemistry.chemical_compound ,Thioredoxins ,Auranofin ,Dinitrochlorobenzene ,medicine ,Animals ,Rats, Wistar ,Hydrogen peroxide ,chemistry.chemical_classification ,Reactive oxygen species ,biology ,Glutathione peroxidase ,Hydrogen Peroxide ,Glutathione ,Cell Biology ,Catalase ,Mitochondria ,Rats ,Thioredoxin-2 reductase ,chemistry ,Antirheumatic Agents ,Astrocytes ,Rat brain mitochondria ,biology.protein ,Indicators and Reagents ,Microglia ,Thioredoxin - Abstract
Brain mitochondria are not only major producers of reactive oxygen species but they also considerably contribute to the removal of toxic hydrogen peroxide by the glutathione (GSH) and thioredoxin-2 (Trx2) antioxidant systems. In this work we estimated the relative contribution of both systems and catalase to the removal of intrinsically produced hydrogen peroxide (H 2 O 2 ) by rat brain mitochondria. By using the specific inhibitors auranofin and 1-chloro-2,4-dinitrobenzene (DNCB), the contribution of Trx2- and GSH-systems to reactive oxygen species (ROS) detoxification in rat brain mitochondria was determined to be 60 ± 20% and 20 ± 15%, respectively. Catalase contributed to a non-significant extent only, as revealed by aminotriazole inhibition. In digitonin-treated rat hippocampal homogenates inhibition of Trx2- and GSH-systems affected mitochondrial hydrogen peroxide production rates to a much higher extent than the endogenous extramitochondrial hydrogen peroxide production, pointing to a strong compartmentation of ROS metabolism. Imaging experiments of hippocampal slice cultures showed on single cell level substantial heterogeneity of hydrogen peroxide detoxification reactions. The strongest effects of inhibition of hydrogen peroxide removal by auranofin or DNCB were detected in putative interneurons and microglial cells, while pyramidal cells and astrocytes showed lower effects. Thus, our data underline the important contribution of the Trx2-system to hydrogen peroxide detoxification in rat hippocampus. This article is part of a Special Issue entitled: 17th European Bioenergetics Conference (EBEC 2012).
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- 2012
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50. The association between AED-induced cutaneous adverse drug reactions and the HLA-A, -B, and -DRB1 alleles among Caucasian patients: a pilot multicenter study
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Hermann Stefan, Hajo M. Hamer, Xintong Wu, Friedhelm C. Schmitt, Dong Zhou, Wolfram S. Kunz, Gerhard Kurlemann, Wolfgang Graf, Marcel Heers, and Burkhard S. Kasper
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medicine.medical_specialty ,business.industry ,Carbamazepine ,Human leukocyte antigen ,Dermatology ,HLA-A ,Genetic marker ,Pediatrics, Perinatology and Child Health ,Genotype ,Immunology ,medicine ,Neurology (clinical) ,Typing ,Allele ,business ,Genotyping ,medicine.drug - Abstract
A strong association has been reported between HLA-B*1502 and severe cutaneous adverse drug reactions (CADRs) induced by carbamazepine (CBZ) in Han Chinese patients. However, some investigations showed that the HLA-B*1502 allele is not the universal marker for CADRs in European patients. Moreover, HLA-A*3101 was found to be associated with CBZ-induced hypersensitivity reactions among subjects of northern European ancestry. This study aimed to find out the correlation between the human leukocyte antigen (HLA-A, -B, and -DRB1) alleles and antiepileptic drug (AED)-induced CADRs in Caucasian patients. Sixteen patients with AED-induced mild CADRs and eight AED-tolerant controls were enrolled. HLA genotyping was performed by the polymerase chain reaction (PCR) sequence-based typing (SBT) method. On the basis of frequency, 13 HLA-A alleles, 15 HLA-B, and 15 HLA-DRB1 alleles were detected by genotyping. HLA-B*1502 was not detected in any of the subjects. In the CADRs group, HLA-B*0801 had the highest frequency compared with other alleles, without a statistical difference between CADRs and the AED-tolerant group. Only two patients with CADRs had the HLA-A*3101 allele. HLA-B*1502 is probably not the genetic marker for Caucasian patients with AED-induced CADRs. The frequency of HLA-B*0801 was highest in patients with AED-induced mild CADRs. Nevertheless, statistically, no confirmed correlation between HLA-A, -B, and -DRB1 and Caucasian patients with AED-induced CADRs could be made. Because the number of Caucasian subjects was limited in this pilot study, further studies are planned in Germany.
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- 2012
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