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3. Psychometric properties of the KoCoN-V

Author

Schmidt, P., primary, Zernikow, B., additional, Hartenstein-Pinter, A., additional, Wager, J., additional, Bertolini, A., additional, Blankenburg, M., additional, Classen, G., additional, von der Hagen, M., additional, Hamelmann, E., additional, Raffler, S., additional, Schallner, J., additional, Schimmel, M., additional, Springer, S., additional, Wendel, E., additional, and Rostasy, K., additional

Published
2023
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5. Deflazacort vs prednisone treatment for Duchenne muscular dystrophy: A meta‐analysis of disease progression rates in recent multicenter clinical trials

Author

McDonald CM, A238., Sajeev, G, Yao, Z, Mcdonnell, E, Elfring, G, Souza, M, Peltz, Sw, Darras, Bt, Shieh, Pb, Cox, Da, Landry, J, Signorovitch, J, Campbell, C, Torricelli, Re, Finkel, Rs, Flanigan, Km, Goemans, N, Heydemann, P, Kaminska, A, Kirschner, J, Muntoni, F, Osorio, An, Schara, U, Sejersen, T, Sweeney, Hl, Topaloglu, H, Tulinius, M, Vilchez, Jj, Voit, T, Wong, B, Alfano, Ln, Eagle, M, James, Mk, Lowes, L, Mayhew, A, Mazzone, Es, Nelson, L, Rose, Kj, Abdel-Hamid, Hz, Apkon, Sd, Barohn, Rj, Bertini, E, Bloetzer, C, de Vaud LC, Butterfield, Rj, Chabrol, B, Chae, Jh, Jongno-Gu, Dr, Comi, Gp, Dastgir, J, Desguerre, I, Escobar, Rg, Finanger, E, Guglieri, M, Hughes, I, Iannaccone, St, Jones, Kj, Karachunski, P, Kudr, M, Lotze, T, Mah, Jk, Mathews, K, Nevo, Y, Parsons, J, Péréon, Y, de Queiroz Campos Araujo AP, Renfroe, Jb, de Mbd, R, Ryan, M, Selby, K, Tennekoon, G, Vita, G, Abdel-Hamid, H, Apkon, S, Barohn, R, Belousova, E, Brandsema, J, Bruno, C, Burnette, W, Butterfield, R, Byrne, B, Carlo, J, Chandratre, S, Comi, G, Connolly, A, De Groot, I, Deconinck, N, Dooley, J, Dubrovsky, A, Durigneux, J, Finkel, R, Frank, Lm, Harper, A, Hattori, A, Herguner, O, Iannaccone, S, Janas, J, Jong, Yj, Komaki, H, Kuntz, N, Lee, Wt, Leung, E, Mah, J, Cm, M, Mercuri, E, Mcmillan, H, Mueller-Felber, W, Lopez de Munain, A, Nakamura, A, Niks, E, Ogata, K, Pascual, S, Pegoraro, E, Pereon, Y, Renfroe, B, Sanka, Rb, Schallner, J, Sendra, Ii, Servais, L, Smith, E, Sparks, S, Victor, R, Wicklund, M, Wilichoswki, E, and Wong, B.

Subjects
Male, Duchenne muscular dystrophy, 0301 basic medicine, medicine.medical_specialty, Physiology, medicine.drug_class, Prednisolone, Anti-Inflammatory Agents, Walking, 030105 genetics & heredity, Placebo, prednisone/prednisolone, ambulatory function, deflazacort, meta-analysis, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Pregnenediones, Prednisone, Physiology (medical), Internal medicine, Humans, Multicenter Studies as Topic, Medicine, Child, Clinical Research Articles, Randomized Controlled Trials as Topic, Clinical Research Article, business.industry, medicine.disease, Confidence interval, Muscular Dystrophy, Duchenne, Deflazacort, Treatment Outcome, meta‐analysis, Ambulatory, Disease Progression, Corticosteroid, Neurology (clinical), business, 030217 neurology & neurosurgery, medicine.drug
Abstract

Introduction In this study we characterized disease progression over 48 weeks among boys receiving deflazacort vs prednisone/prednisolone placebo arm treatment in two recent Duchenne muscular dystrophy (DMD) clinical trials. Methods Ambulatory boys with DMD receiving placebo in the phase 3 ataluren (N = 115) and tadalafil (N = 116) trials were included. The trials required at least 6 months of prior corticosteroid use and stable baseline dosing. Associations between corticosteroid use and 48‐week changes in ambulatory function were estimated using mixed models. Adjusted differences between corticosteroid groups were pooled in a meta‐analysis. Results In the meta‐analysis, deflazacort‐treated patients vs prednisone/prednisolone‐treated patients experienced, on average, lower declines of 28.3 meters on 6‐minute walk distance (95% confidence interval [CI], 5.7, 50.9; 2.9 seconds on rise from supine [95% CI, 0.9, 4.9 seconds]; 2.3 seconds on 4‐stair climb [95% CI, 0.5, 4.1 seconds]; and 2.9 [95% CI, 0.1, 5.8] points on the North Star Ambulatory Assessment linearized score). Discussion Deflazacort‐treated patients experienced significantly lower functional decline over 48 weeks.

Published
2019

7. Towards regulatory endorsement of drug development tools to promote the application of model-informed drug development in Duchenne muscular dystrophy

Author

Conrado, D. J., Larkindale, J., Berg, A., Hill, M., Burton, J., Abrams, K. R., Abresch, R. T., Bronson, A., Chapman, D., Crowther, M., Duong, T., Gordish-Dressman, H., Harnisch, L., Henricson, E., Kim, S., Mcdonald, C. M., Schmidt, S., Vong, C., Wang, X., Wong, B. L., Yong, F., Romero, K., Vishwanathan, V., Chidambaranathan, S., Douglas Biggar, W., Mcadam, L. C., Mah, J. K., Tulinius, M., Cnaan, A., Morgenroth, L. P., Leshner, R., Tesi-Rocha, C., Thangarajh, M., Kornberg, A., Ryan, M., Nevo, Y., Dubrovsky, A., Clemens, P. R., Abdel-Hamid, H., Connolly, A. M., Pestronk, A., Teasley, J., Bertorini, T. E., Webster, R., Kolski, H., Kuntz, N., Driscoll, S., Bodensteiner, J. B., Gorni, K., Lotze, T., Day, J. W., Karachunski, P., Henricson, E. K., Joyce, N. C., Campbell, C., Torricelli, R. E., Finkel, R. S., Flanigan, K. M., Goemans, N., Heydemann, P., Kaminska, A., Kirschner, J., Muntoni, F., Osorio, A. N., Schara, U., Sejersen, T., Shieh, P. B., Sweeney, H. L., Topaloglu, H., Vilchez, J. J., Voit, T., Wong, B., Alfano, L. N., Eagle, M., James, M. K., Lowes, L., Mayhew, A., Mazzone, E. S., Nelson, L., Rose, K. J., Abdel-Hamid, H. Z., Apkon, S. D., Barohn, R. J., Bertini, E., Bloetzer, C., Devaud, L. C., Butterfield, R. J., Chabrol, B., Chae, J. H., Jongno-Gu, D. R., Comi, G. P., Darras, B. T., Dastgir, J., Desguerre, I., Escobar, R. G., Finanger, E., Guglieri, M., Hughes, I., Iannaccone, S. T., Jones, K. J., Kudr, M., Mathews, K., Parsons, J., Pereon, Y., de Queiroz Campos Araujo, A. P., Renfroe, J. B., de Resende, M. B. D., Selby, K., Tennekoon, G., Vita, G., Apkon, S., Barohn, R., Belousova, E., Brandsema, J., Bruno, C., Burnette, W., Butterfield, R., Byrne, B., Carlo, J., Chandratre, S., Comi, G., Connolly, A., De Groot I, I., Deconinck, N., Dooley, J., Durigneux, J., Finkel, R., Frank, L. M., Harper, A., Hattori, A., Herguner, O., Iannaccone, S., Janas, J., Jong, Y. J., Komaki, H., Lee, W. T., Leung, E., Mah, J., Mercuri, E., Mcmillan, H., Mueller-Felber, W., de Munain A, L., Nakamura, A., Niks, E., Ogata, K., Pascual, S., Pegoraro, E., Renfroe, B., Sanka, R. B., Schallner, J., Sendra, I. I., Servais, L., Smith, E., Sparks, S., Victor, R., Wicklund, M., Wilichoswki, E., Carter, G. T., and Servais, LJP

Subjects
Orphan Drug Production, Duchenne muscular dystrophy, Pharmacy, Model-informed drug development, 030226 pharmacology & pharmacy, Models, Biological, Food and drug administration, 03 medical and health sciences, 0302 clinical medicine, Models, medicine, Humans, Regulatory science, Computer Simulation, Muscular Dystrophy, Drug development tools, Duchenne muscular dystrophy consortium (D-RSC), Rare diseases, Regulatory endorsement, Clinical Trials as Topic, Muscular Dystrophy, Duchenne, United States, United States Food and Drug Administration, Pharmacology, Protocol (science), business.industry, Duchenne, Biological, medicine.disease, Clinical trial, Risk analysis (engineering), Drug development, 030220 oncology & carcinogenesis, Aggregate data, Business
Abstract

Drug development for rare diseases is challenged by small populations and limited data. This makes development of clinical trial protocols difficult and contributes to the uncertainty around whether or not a potential therapy is efficacious. The use of data standards to aggregate data from multiple sources, and the use of such integrated databases to develop statistical models can inform protocol development and reduce the risks in developing new therapies. Achieving regulatory endorsement of such models through defined pathways at the US Food and Drug Administration and European Medicines Authority allows such tools to be used by the drug development community for defined contexts of use without further need for discussion of the underlying model(s). The Duchenne Regulatory Science Consortium (D-RSC) has brought together multiple stakeholders to develop a clinical trial simulation tool for Duchenne muscular dystrophy using such an approach. Here we describe the work of D-RSC as an example of how such an approach may be effective at reducing uncertainty in drug development for rare diseases, and thus bringing effective therapies to patients faster.

Published
2019

9. STXBP1 encephalopathy: A neurodevelopmental disorder including epilepsy

Author

Stamberger, H., Nikanorova, M., Willemsen, M.H., Accorsi, P., Angriman, M., Baier, H., Benkel-Herrenbrueck, I., Benoit, V., Budetta, M., Caliebe, A., Cantalupo, G., Capovilla, G., Casara, G., Courage, C., Deprez, M., Destree, A., Dilena, R., Erasmus, C.E., Fannemel, M., Fjaer, R., Giordano, L., Helbig, K.L., Heyne, H.O., Klepper, J., Kluger, G.J., Lederer, D., Lodi, M., Maier, O., Merkenschlager, A., Michelberger, N., Minetti, C., Muhle, H., Phalin, J., Ramsey, K., Romeo, A., Schallner, J., Schanze, I., Shinawi, M., Sleegers, K., Sterbova, K., Syrbe, S., Traverso, M., Tzschach, A., Uldall, P., Coster, R. van, Verhelst, H., Viri, M., Winter, S., Wolff, M., Zenker, M., Zoccante, L., Jonghe, P. De, Helbig, I., Striano, P., Lemke, J.R., Moller, R.S., Weckhuysen, S., Stamberger, H., Nikanorova, M., Willemsen, M.H., Accorsi, P., Angriman, M., Baier, H., Benkel-Herrenbrueck, I., Benoit, V., Budetta, M., Caliebe, A., Cantalupo, G., Capovilla, G., Casara, G., Courage, C., Deprez, M., Destree, A., Dilena, R., Erasmus, C.E., Fannemel, M., Fjaer, R., Giordano, L., Helbig, K.L., Heyne, H.O., Klepper, J., Kluger, G.J., Lederer, D., Lodi, M., Maier, O., Merkenschlager, A., Michelberger, N., Minetti, C., Muhle, H., Phalin, J., Ramsey, K., Romeo, A., Schallner, J., Schanze, I., Shinawi, M., Sleegers, K., Sterbova, K., Syrbe, S., Traverso, M., Tzschach, A., Uldall, P., Coster, R. van, Verhelst, H., Viri, M., Winter, S., Wolff, M., Zenker, M., Zoccante, L., Jonghe, P. De, Helbig, I., Striano, P., Lemke, J.R., Moller, R.S., and Weckhuysen, S.

Abstract

Contains fulltext : 168130.pdf (publisher's version ) (Closed access), OBJECTIVE: To give a comprehensive overview of the phenotypic and genetic spectrum of STXBP1 encephalopathy (STXBP1-E) by systematically reviewing newly diagnosed and previously reported patients. METHODS: We recruited newly diagnosed patients with STXBP1 mutations through an international network of clinicians and geneticists. Furthermore, we performed a systematic literature search to review the phenotypes of all previously reported patients. RESULTS: We describe the phenotypic features of 147 patients with STXBP1-E including 45 previously unreported patients with 33 novel STXBP1 mutations. All patients have intellectual disability (ID), which is mostly severe to profound (88%). Ninety-five percent of patients have epilepsy. While one-third of patients presented with Ohtahara syndrome (21%) or West syndrome (9.5%), the majority has a nonsyndromic early-onset epilepsy and encephalopathy (53%) with epileptic spasms or tonic seizures as main seizure type. We found no correlation between severity of seizures and severity of ID or between mutation type and seizure characteristics or cognitive outcome. Neurologic comorbidities including autistic features and movement disorders are frequent. We also report 2 previously unreported adult patients with prominent extrapyramidal features. CONCLUSION: De novo STXBP1 mutations are among the most frequent causes of epilepsy and encephalopathy. Most patients have severe to profound ID with little correlation among seizure onset, seizure severity, and the degree of ID. Accordingly, we hypothesize that seizure severity and ID present 2 independent dimensions of the STXBP1-E phenotype. STXBP1-E may be conceptualized as a complex neurodevelopmental disorder rather than a primary epileptic encephalopathy.

Published
2016

13. Characteristic brain magnetic resonance imaging pattern in patients with macrocephaly and PTEN mutations

Author

Vanderver, A., Tonduti, D., Kahn, I., Schmidt, J., Medne, L., Vento, J., Chapman, K.A., Lanpher, B., Pearl, P., Gropman, A., Lourenco, C., Bamforth, J.S., Sharpe, C., Pineda, M., Schallner, J., Bodamer, O., Orcesi, S., Oberstein, S.A., Sistermans, E.A., Yntema, H.G., Bonnemann, C., Waldman, A.T., Knaap, M.S. van der, Vanderver, A., Tonduti, D., Kahn, I., Schmidt, J., Medne, L., Vento, J., Chapman, K.A., Lanpher, B., Pearl, P., Gropman, A., Lourenco, C., Bamforth, J.S., Sharpe, C., Pineda, M., Schallner, J., Bodamer, O., Orcesi, S., Oberstein, S.A., Sistermans, E.A., Yntema, H.G., Bonnemann, C., Waldman, A.T., and Knaap, M.S. van der

Abstract

Item does not contain fulltext, We describe an MRI phenotype seen in a series of patients with mutations in PTEN who have clinical features consistent with PTEN hamartoma tumor syndrome (PHTS). Retrospective review of clinical data and MRI was performed in 23 subjects evaluated in four different tertiary care centers with clinical programs in inherited disorders of the white matter. Patients were referred due to abnormal MRI features and abnormal PTEN sequencing was identified. All subjects had significant macrocephaly (on average >4 SD above the mean), developmental delay with or without autism spectrum disorder and uniform MRI features of enlarged perivascular spaces and multifocal periventricular white matter abnormalities. The phenotype of PHTS may include MRI abnormalities such as multifocal periventricular white matter abnormalities and enlarged perivascular spaces. These neuroimaging findings, in association with macrocephaly and developmental delay, should prompt consideration of PTEN as a diagnostic possibility. (c) 2013 Wiley Periodicals, Inc.

Published
2014

22. Facing the genetic heterogeneity in neuromuscular disorders: Linkage analysis as an economic diagnostic approach towards the molecular diagnosis

Author

von der Hagen, M., primary, Schallner, J., additional, Kaindl, A.M., additional, Koehler, K., additional, Mitzscherling, P., additional, Abicht, A., additional, Grieben, U., additional, Korinthenberg, R., additional, Kress, W., additional, von Moers, A., additional, Müller, J.S., additional, Schara, U., additional, Vorgerd, M., additional, Walter, M.C., additional, Müller-Reible, C., additional, Hübner, C., additional, Lochmüller, H., additional, and Huebner, A., additional

Published
2006
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23. Recurrent de novo missense variants in GNB2 can cause syndromic intellectual disability

Author

Stephen J. Guter, Laurie A. Demmer, Jasmine Lf Fung, Gerarda Cappuccio, Naomichi Matsumoto, Nicola Brunetti-Pierri, Catherine Sarret, Hamish S. Scott, Lynn Pais, Alison Yeung, Ken Saida, Christopher P. Barnett, Felix Boschann, Andre Heinen, Noriko Miyake, Jenny C. Taylor, Jonathan Gadian, Cyril Mignot, Boris Keren, Sandra Whalen, Hagar Mor-Shaked, Matteo P. Ferla, John Christodoulou, Raffaele Iorio, Alistair T. Pagnamenta, Tiong Yang Tan, Brian Hy Chung, Marcus Cy Chan, Susan M. White, Ruth Sheffer, Dana Mittag, Edwin H. Cook, Jens Schallner, Alicia B. Byrne, Rachel Stapleton, Natalie B Tan, Alison Kraus, Fabiola Di Dato, Tan, Natalie B, Pagnamenta, Alistair T, Ferla, Matteo P, Gadian, Jonathan, Byrne, Alicia B, White, Sue, Institut Pascal (IP), Centre National de la Recherche Scientifique (CNRS)-Université Clermont Auvergne (UCA)-Institut national polytechnique Clermont Auvergne (INP Clermont Auvergne), Université Clermont Auvergne (UCA)-Université Clermont Auvergne (UCA), Tan, N. B., Pagnamenta, A. T., Ferla, M. P., Gadian, J., Chung, B. H. Y., Chan, M. C. Y., Fung, J. L. F., Cook, E., Guter, S., Boschann, F., Heinen, A., Schallner, J., Mignot, C., Keren, B., Whalen, S., Sarret, C., Mittag, D., Demmer, L., Stapleton, R., Saida, K., Matsumoto, N., Miyake, N., Sheffer, R., Mor-Shaked, H., Barnett, C. P., Byrne, A. B., Scott, H. S., Kraus, A., Cappuccio, G., Brunetti Pierri, N., Iorio, R., Di Dato, F., Pais, L. S., Yeung, A., Tan, T. Y., Taylor, J. C., Christodoulou, J., and White, S.

Subjects
medicine.medical_specialty, Genomics, Biology, 03 medical and health sciences, 0302 clinical medicine, Neurodevelopmental disorder, GNB2, Intellectual disability, Genetics, medicine, Missense mutation, Gene, ComputingMilieux_MISCELLANEOUS, Genetics (clinical), Exome sequencing, 030304 developmental biology, 0303 health sciences, G-beta protein, medicine.disease, developmental delay, intellectual disability, Medical genetics, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Human genome, 030217 neurology & neurosurgery
Abstract

PurposeBinding proteins (G-proteins) mediate signalling pathways involved in diverse cellular functions and comprise Gα and Gβγ units. Human diseases have been reported for all five Gβ proteins. A de novo missense variant in GNB2 was recently reported in one individual with developmental delay/intellectual disability (DD/ID) and dysmorphism. We aim to confirm GNB2 as a neurodevelopmental disease gene, and elucidate the GNB2-associated neurodevelopmental phenotype in a patient cohort.MethodsWe discovered a GNB2 variant in the index case via exome sequencing and sought individuals with GNB2 variants via international data-sharing initiatives. In silico modelling of the variants was assessed, along with multiple lines of evidence in keeping with American College of Medical Genetics and Genomics guidelines for interpretation of sequence variants.ResultsWe identified 12 unrelated individuals with five de novo missense variants in GNB2, four of which are recurrent: p.(Ala73Thr), p.(Gly77Arg), p.(Lys89Glu) and p.(Lys89Thr). All individuals have DD/ID with variable dysmorphism and extraneurologic features. The variants are located at the universally conserved shared interface with the Gα subunit, which modelling suggests weaken this interaction.ConclusionMissense variants in GNB2 cause a congenital neurodevelopmental disorder with variable syndromic features, broadening the spectrum of multisystem phenotypes associated with variants in genes encoding G-proteins.

Published
2021

24. Cognitive function in SMA patients with 2 or 3 SMN2 copies treated with SMN-modifying or gene addition therapy during the first year of life.

Author

Steffens P, Weiss D, Perez A, Appel M, Weber P, Weiss C, Stoltenburg C, Ehinger U, von der Hagen M, Schallner J, Claussen B, Lode I, Hahn A, Schuler R, Ruß L, Ziegler A, Denecke J, and Johannsen J

Subjects
Humans, Male, Female, Child, Preschool, Infant, Genetic Therapy methods, Cognitive Dysfunction etiology, Cognitive Dysfunction therapy, Cognition physiology, Muscular Atrophy, Spinal genetics, Muscular Atrophy, Spinal therapy, Survival of Motor Neuron 2 Protein genetics, Spinal Muscular Atrophies of Childhood therapy, Spinal Muscular Atrophies of Childhood genetics, Spinal Muscular Atrophies of Childhood psychology
Abstract

Background: Spinal muscular atrophy (SMA) is a neuromuscular disease, causing progressive muscle weakness due to loss of lower motoneurons. Since 2017, three therapies, two modifying gene transcription and one adding the defective gene, have been approved with comparable efficacy on motor outcome. Data on cognitive outcomes of treated SMA type 1 patients is limited. The aim of this study was to evaluate cognitive function in symptomatic and presymptomatic SMA type 1 patients with two or three SMN2 copies who received SMN-modifying or gene-addition therapy in the first year of life., Methods: Cognitive testing was performed in 20 patients, including 19 symptomatic SMA type 1 patients with up to three SMN2 copies and 1 pre-symptomatically treated patient. Children were tested using Bayley Scales of Infant Development (BSID-III) at the age of 2 or 3 years or the Wechsler Preschool and Primary Scale of Intelligence (WPSII-IV) at the of age of 5 years., Results: 11/20 patients showed subnormal cognitive development. Boys had significantly lower cognitive scores. Patients requiring assisted ventilation or feeding support were more likely to have cognitive deficits. Achieving more motor milestones was associated with a better cognitive outcome., Conclusion: Treated patients with SMA type 1 have heterogeneous cognitive function with 55 % of patients showing deficits. Risk factors for cognitive impairment in our cohort were male gender and need for assisted ventilation or feeding support. Therefore, cognitive assessment should be included in the standard of care to allow early identification of deficits and potential therapeutic interventions., Competing Interests: Declaration of competing interest JJ, AZ and AH received compensation for advisory boards and funding for travel or speaker honoraria from Avexis/Novartis, Biogen, Roche, PTC, Pfizer and Sarepta Therapeutics. DW received compensation for advisory boards and speaker honoraria from Roche. JDe received speaker honoraria from Biogen and Roche. CW received compensation for advisory boards and funding for travel or speaker honoraria from Avexis/Novartis, BiogenRS and Roche.MvH received compensation for advisory boards and speaker honoraria from Pfizer, Roche and Novartis. PS, AP, MA, PW, CS, UE, JS, BC, IL, RS, LR have nothing to declare., (© 2024 Published by Elsevier Ltd on behalf of European Paediatric Neurology Society.)

Published
2024
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27. Broadening the phenotypic and molecular spectrum of FINCA syndrome: Biallelic NHLRC2 variants in 15 novel individuals.

Author

Sczakiel HL, Zhao M, Wollert-Wulf B, Danyel M, Ehmke N, Stoltenburg C, Damseh N, Al-Ashhab M, Balci TB, Osmond M, Andrade A, Schallner J, Porrmann J, McDonald K, Liao M, Oppermann H, Platzer K, Dierksen N, Mojarrad M, Eslahi A, Bakaeean B, Calame DG, Lupski JR, Firoozfar Z, Seyedhassani SM, Mohammadi SA, Anwaar N, Rahman F, Seelow D, Janz M, Horn D, Maroofian R, and Boschann F

Subjects
Humans, Disease Progression, Fibrosis, HEK293 Cells, Phenotype, Seizures genetics, Syndrome, Intellectual Disability genetics, Movement Disorders
Abstract

FINCA syndrome [MIM: 618278] is an autosomal recessive multisystem disorder characterized by fibrosis, neurodegeneration and cerebral angiomatosis. To date, 13 patients from nine families with biallelic NHLRC2 variants have been published. In all of them, the recurrent missense variant p.(Asp148Tyr) was detected on at least one allele. Common manifestations included lung or muscle fibrosis, respiratory distress, developmental delay, neuromuscular symptoms and seizures often followed by early death due to rapid disease progression.Here, we present 15 individuals from 12 families with an overlapping phenotype associated with nine novel NHLRC2 variants identified by exome analysis. All patients described here presented with moderate to severe global developmental delay and variable disease progression. Seizures, truncal hypotonia and movement disorders were frequently observed. Notably, we also present the first eight cases in which the recurrent p.(Asp148Tyr) variant was not detected in either homozygous or compound heterozygous state.We cloned and expressed all novel and most previously published non-truncating variants in HEK293-cells. From the results of these functional studies, we propose a potential genotype-phenotype correlation, with a greater reduction in protein expression being associated with a more severe phenotype.Taken together, our findings broaden the known phenotypic and molecular spectrum and emphasize that NHLRC2-related disease should be considered in patients presenting with intellectual disability, movement disorders, neuroregression and epilepsy with or without pulmonary involvement., (© 2023. The Author(s).)

Published
2023
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28. Gain-of-function mutations in KCNK3 cause a developmental disorder with sleep apnea.

Author

Sörmann J, Schewe M, Proks P, Jouen-Tachoire T, Rao S, Riel EB, Agre KE, Begtrup A, Dean J, Descartes M, Fischer J, Gardham A, Lahner C, Mark PR, Muppidi S, Pichurin PN, Porrmann J, Schallner J, Smith K, Straub V, Vasudevan P, Willaert R, Carpenter EP, Rödström KEJ, Hahn MG, Müller T, Baukrowitz T, Hurles ME, Wright CF, and Tucker SJ

Subjects
Child, Developmental Disabilities, Humans, Mutation genetics, Nerve Tissue Proteins, Potassium Channels, Tandem Pore Domain, Gain of Function Mutation, Sleep Apnea Syndromes genetics
Abstract

Sleep apnea is a common disorder that represents a global public health burden. KCNK3 encodes TASK-1, a K + channel implicated in the control of breathing, but its link with sleep apnea remains poorly understood. Here we describe a new developmental disorder with associated sleep apnea (developmental delay with sleep apnea, or DDSA) caused by rare de novo gain-of-function mutations in KCNK3. The mutations cluster around the 'X-gate', a gating motif that controls channel opening, and produce overactive channels that no longer respond to inhibition by G-protein-coupled receptor pathways. However, despite their defective X-gating, these mutant channels can still be inhibited by a range of known TASK channel inhibitors. These results not only highlight an important new role for TASK-1 K + channels and their link with sleep apnea but also identify possible therapeutic strategies., (© 2022. The Author(s).)

Published
2022
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29. Recurrent de novo missense variants in GNB2 can cause syndromic intellectual disability.

Author

Tan NB, Pagnamenta AT, Ferla MP, Gadian J, Chung BH, Chan MC, Fung JL, Cook E, Guter S, Boschann F, Heinen A, Schallner J, Mignot C, Keren B, Whalen S, Sarret C, Mittag D, Demmer L, Stapleton R, Saida K, Matsumoto N, Miyake N, Sheffer R, Mor-Shaked H, Barnett CP, Byrne AB, Scott HS, Kraus A, Cappuccio G, Brunetti-Pierri N, Iorio R, Di Dato F, Pais LS, Yeung A, Tan TY, Taylor JC, Christodoulou J, and White SM

Subjects
GTP-Binding Proteins genetics, Humans, Mutation, Missense genetics, Phenotype, Exome Sequencing, Intellectual Disability genetics, Neurodevelopmental Disorders genetics
Abstract

Purpose: Binding proteins (G-proteins) mediate signalling pathways involved in diverse cellular functions and comprise Gα and Gβγ units. Human diseases have been reported for all five Gβ proteins. A de novo missense variant in GNB2 was recently reported in one individual with developmental delay/intellectual disability (DD/ID) and dysmorphism. We aim to confirm GNB2 as a neurodevelopmental disease gene, and elucidate the GNB2 -associated neurodevelopmental phenotype in a patient cohort., Methods: We discovered a GNB2 variant in the index case via exome sequencing and sought individuals with GNB2 variants via international data-sharing initiatives. In silico modelling of the variants was assessed, along with multiple lines of evidence in keeping with American College of Medical Genetics and Genomics guidelines for interpretation of sequence variants., Results: We identified 12 unrelated individuals with five de novo missense variants in GNB2 , four of which are recurrent: p.(Ala73Thr), p.(Gly77Arg), p.(Lys89Glu) and p.(Lys89Thr). All individuals have DD/ID with variable dysmorphism and extraneurologic features. The variants are located at the universally conserved shared interface with the Gα subunit, which modelling suggests weaken this interaction., Conclusion: Missense variants in GNB2 cause a congenital neurodevelopmental disorder with variable syndromic features, broadening the spectrum of multisystem phenotypes associated with variants in genes encoding G-proteins., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2022. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2022
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30. Serum neurofilament light chain in pediatric spinal muscular atrophy patients and healthy children.

Author

Nitz E, Smitka M, Schallner J, Akgün K, Ziemssen T, von der Hagen M, and Tüngler V

Subjects
Adolescent, Biomarkers blood, Child, Child, Preschool, Cohort Studies, Female, Humans, Infant, Infant, Newborn, Male, Muscular Atrophy, Spinal cerebrospinal fluid, Muscular Atrophy, Spinal genetics, Neurofilament Proteins cerebrospinal fluid, Muscular Atrophy, Spinal blood, Muscular Atrophy, Spinal diagnosis, Neurofilament Proteins blood
Abstract

Objective: The aim of this study was to evaluate neurofilament light chain as blood biomarker for disease activity in children and adolescents with different types of spinal muscular atrophy (SMA) and establish pediatric reference values., Methods: We measured neurofilament light chain levels in serum (sNfL) and cerebral spinal fluid (cNfL) of 18 children with SMA and varying numbers of SMN2 copies receiving nusinersen by single-molecule array (SiMoA) assay and analyzed correlations with baseline characteristics and motor development. Additionally, we examined sNfL in 97 neurologically healthy children., Results: Median sNfL levels in treatment-naïve SMA patients with 2 SMN2 copies are higher than in those with >2 SMN2 copies (P < 0.001) as well as age-matched controls (P = 0.010) and decline during treatment. The median sNfL concentration of healthy controls is 4.73 pg/mL with no differences in sex (P = 0.486) but age (P < 0.001). In all children with SMA, sNfL levels correlate strongly with cNfL levels (r = 0.7, P < 0.001). In children with SMA and 2 SMN2 copies, sNfL values correlate with motor function (r = -0.6, P = 0.134), in contrast to older SMA children with >2 SMN2 copies (r = -0.1, P = 0.744)., Interpretation: Reference sNfL values of our large pediatric control cohort may be applied for future studies. Strong correlations between sNfL and cNfL together with motor function suggest that sNfL may be a suitable biomarker for disease activity in children with 2 SMN2 copies and those with >2 SMN2 copies within their initial stages during early childhood., (© 2021 The Authors. Annals of Clinical and Translational Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published
2021
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31. Proximal variants in CCND2 associated with microcephaly, short stature, and developmental delay: A case series and review of inverse brain growth phenotypes.

Author

Pirozzi F, Lee B, Horsley N, Burkardt DD, Dobyns WB, Graham JM Jr, Dentici ML, Cesario C, Schallner J, Porrmann J, Di Donato N, Sanchez-Lara PA, and Mirzaa GM

Subjects
Adolescent, Adult, Child, Female, Humans, Hydrocephalus genetics, Infant, Male, Megalencephaly genetics, Polydactyly genetics, Polymicrogyria genetics, Brain abnormalities, Cyclin D2 genetics, Hydrocephalus pathology, Megalencephaly pathology, Mutation, Polydactyly pathology, Polymicrogyria pathology
Abstract

Cyclin D2 (CCND2) is a critical cell cycle regulator and key member of the cyclin D2-CDK4 (DC) complex. De novo variants of CCND2 clustering in the distal part of the protein have been identified as pathogenic causes of brain overgrowth (megalencephaly, MEG) and severe cortical malformations in children including the megalencephaly-polymicrogyria-polydactyly-hydrocephalus (MPPH) syndrome. Megalencephaly-associated CCND2 variants are localized to the terminal exon and result in accumulation of degradation-resistant protein. We identified five individuals from three unrelated families with novel variants in the proximal region of CCND2 associated with microcephaly, mildly simplified cortical gyral pattern, symmetric short stature, and mild developmental delay. Identified variants include de novo frameshift variants and a dominantly inherited stop-gain variant segregating with the phenotype. This is the first reported association between proximal CCND2 variants and microcephaly, to our knowledge. This series expands the phenotypic spectrum of CCND2-related disorders and suggests that distinct classes of CCND2 variants are associated with reciprocal effects on human brain growth (microcephaly and megalencephaly due to possible loss or gain of protein function, respectively), adding to the growing paradigm of inverse phenotypes due to dysregulation of key brain growth genes., (© 2021 Wiley Periodicals LLC.)

Published
2021
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32. The clinical-phenotype continuum in DYNC1H1-related disorders-genomic profiling and proposal for a novel classification.

Author

Becker LL, Dafsari HS, Schallner J, Abdin D, Seifert M, Petit F, Smol T, Bok L, Rodan L, Krapels I, Spranger S, Weschke B, Johnson K, Straub V, Kaindl AM, Di Donato N, von der Hagen M, and Cirak S

Subjects
Brain abnormalities, Brain pathology, DNA Mutational Analysis, Female, Humans, Infant, Lower Extremity diagnostic imaging, Lower Extremity pathology, Lower Extremity Deformities, Congenital diagnostic imaging, Lower Extremity Deformities, Congenital genetics, Lower Extremity Deformities, Congenital pathology, Male, Muscular Atrophy, Spinal classification, Muscular Atrophy, Spinal diagnostic imaging, Muscular Atrophy, Spinal pathology, Mutation, Missense genetics, Phenotype, Brain diagnostic imaging, Cytoplasmic Dyneins genetics, Genomics, Muscular Atrophy, Spinal genetics
Abstract

Mutations in the cytoplasmic dynein 1 heavy chain gene (DYNC1H1) have been identified in rare neuromuscular (NMD) and neurodevelopmental (NDD) disorders such as spinal muscular atrophy with lower extremity dominance (SMALED) and autosomal dominant mental retardation syndrome 13 (MRD13). Phenotypes and genotypes of ten pediatric patients with pathogenic DYNC1H1 variants were analyzed in a multi-center study. Data mining of large-scale genomic variant databases was used to investigate domain-specific vulnerability and conservation of DYNC1H1. We identified ten patients with nine novel mutations in the DYNC1H1 gene. These patients exhibit a broad spectrum of clinical findings, suggesting an overlapping disease manifestation with intermixed phenotypes ranging from neuropathy (peripheral nervous system, PNS) to severe intellectual disability (central nervous system, CNS). Genomic profiling of healthy and patient variant datasets underlines the domain-specific effects of genetic variation in DYNC1H1, specifically on toleration towards missense variants in the linker domain. A retrospective analysis of all published mutations revealed domain-specific genotype-phenotype correlations, i.e., mutations in the dimerization domain with reductions in lower limb strength in DYNC1H1-NMD and motor domain with cerebral malformations in DYNC1H1-NDD. We highlight that the current classification into distinct disease entities does not sufficiently reflect the clinical disease manifestation that clinicians face in the diagnostic work-up of DYNC1H1-related disorders. We propose a novel clinical classification for DYNC1H1-related disorders encompassing a spectrum from DYNC1H1-NMD with an exclusive PNS phenotype to DYNC1H1-NDD with concomitant CNS involvement.

Published
2020
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34. Novel VPS33B mutation in a patient with autosomal recessive keratoderma-ichthyosis-deafness syndrome.

Author

Alter S, Hotz A, Jahn A, Di Donato N, Schröck E, Smitka M, von der Hagen M, Schallner J, Menschikowski M, Gillitzer C, Laass MW, Fischer J, and Tzschach A

Subjects
Biomarkers, Child, Chromosome Aberrations, Comparative Genomic Hybridization, Genetic Association Studies, High-Throughput Nucleotide Sequencing, Humans, Male, Pedigree, Phenotype, Syndrome, Genes, Recessive, Hearing Loss, Sensorineural diagnosis, Hearing Loss, Sensorineural genetics, Ichthyosis diagnosis, Ichthyosis genetics, Keratoderma, Palmoplantar diagnosis, Keratoderma, Palmoplantar genetics, Mutation, Vesicular Transport Proteins genetics
Abstract

Autosomal recessive keratoderma-ichthyosis-deafness (ARKID) syndrome is a rare multisystem disorder caused by biallelic mutations in VPS33B; only three patients have been reported to date. ARKID syndrome is allelic to arthrogryposis-renal dysfunction-cholestasis (ARC) syndrome (MIM #208085), a severe disorder with early lethality whose phenotypic characteristics also include ichthyosis, hearing loss, severe failure to thrive, platelet dysfunction and osteopenia. We report on an 11-year-old male patient with ARKID syndrome and compound heterozygous VPS33B mutations, one of which [c.1440delG; p.(Arg481Glyfs*11)] was novel. Clinical features of this patient included ichthyosis, palmoplantar keratosis, hearing loss, intellectual disability, unilateral hip dislocation, microcephaly and short stature. He also had copper hepatopathy and exocrine pancreatic insufficiency, features that have so far been associated with neither ARKID nor ARC syndrome. The patient broadens the clinical and molecular spectrum of ARKID syndrome and contributes to genotype-phenotype associations of this rare disorder., (© 2018 Wiley Periodicals, Inc.)

Published
2018
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35. Diagnostic value of partial exome sequencing in developmental disorders.

Author

Gieldon L, Mackenroth L, Kahlert AK, Lemke JR, Porrmann J, Schallner J, von der Hagen M, Markus S, Weidensee S, Novotna B, Soerensen C, Klink B, Wagner J, Tzschach A, Jahn A, Kuhlee F, Hackmann K, Schrock E, Di Donato N, and Rump A

Subjects
Abnormalities, Multiple genetics, Child, Cohort Studies, DNA Mutational Analysis, Female, Genes, Recessive, Genetic Variation, Humans, Intellectual Disability genetics, Male, Mutation, Nervous System Malformations genetics, Phenotype, Pregnancy, Sequence Analysis, DNA, Syndrome, Developmental Disabilities diagnosis, Developmental Disabilities genetics, Exome genetics, Exome Sequencing methods
Abstract

Although intellectual disability is one of the major indications for genetic counselling, there are no homogenous diagnostic algorithms for molecular testing. While whole exome sequencing is increasingly applied, we questioned whether analyzing a partial exome, enriched for genes associated with Mendelian disorders, might be a valid alternative approach that yields similar detection rates but requires less sequencing capacities. Within this context 106 patients with different intellectual disability forms were analyzed for mutations in 4.813 genes after pre-exclusion of copy number variations by array-CGH. Subsequent variant interpretation was performed in accordance with the ACMG guidelines. By this, a molecular diagnosis was established in 34% of cases and candidate mutations were identified in additional 24% of patients. Detection rates of causative mutations were above 30%, regardless of further symptoms, except for patients with seizures (23%). We did not detect an advantage from partial exome sequencing for patients with severe intellectual disability (36%) as compared to those with mild intellectual disability (44%). Specific clinical diagnoses pre-existed for 20 patients. Of these, 5 could be confirmed and an additional 6 cases could be solved, but showed mutations in other genes than initially suspected. In conclusion partial exome sequencing solved >30% of intellectual disability cases, which is similar to published rates obtained by whole exome sequencing. The approach therefore proved to be a valid alternative to whole exome sequencing for molecular diagnostics in this cohort. The method proved equally suitable for both syndromic and non-syndromic intellectual disability forms of all severity grades., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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36. Novel PRPS1 gain-of-function mutation in a patient with congenital hyperuricemia and facial anomalies.

Author

Porrmann J, Betcheva-Krajcir E, Di Donato N, Kahlert AK, Schallner J, Rump A, Schröck E, Dobritzsch D, Roelofsen J, van Kuilenburg ABP, and Tzschach A

Subjects
Child, Face pathology, Humans, Hyperuricemia pathology, Male, Purine-Pyrimidine Metabolism, Inborn Errors genetics, Purine-Pyrimidine Metabolism, Inborn Errors metabolism, Ribose-Phosphate Pyrophosphokinase metabolism, Face abnormalities, Gain of Function Mutation, Hyperuricemia congenital, Hyperuricemia genetics, Ribose-Phosphate Pyrophosphokinase genetics
Abstract

Phosphoribosylpyrophosphate synthetase (PRPPS) superactivity (OMIM 300661) is a rare inborn error of purine metabolism that is caused by gain-of-function mutations in the X-chromosomal gene PRPS1 (Xq22.3). Clinical characteristics include congenital hyperuricemia and hyperuricosuria, gouty arthritis, urolithiasis, developmental delay, hypotonia, recurrent infections, short stature, and hearing loss. Only eight families with PRPPS superactivity and PRPS1 gain-of-function mutations have been reported to date. We report on a 7-year-old boy with congenital hyperuricemia, urolithiasis, developmental delay, short stature, hypospadias, and facial dysmorphisms. His mother also suffered from hyperuricemia that was diagnosed at age 13 years. A novel PRPS1 missense mutation (c.573G>C, p.[Leu191Phe]) was detected in the proband and his mother. Enzyme activity analysis confirmed superactivity of PRPP synthetase. Analysis of the crystal structure of human PRPPS suggests that the Leu191Phe mutation affects the architecture of both allosteric sites, thereby preventing the allosteric inhibition of the enzyme. The family reported here broadens the clinical spectrum of PRPPS superactivity and indicates that this rare metabolic disorder might be associated with a recognizable facial gestalt., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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37. Skewed X-inactivation in a family with DLG3-associated X-linked intellectual disability.

Author

Gieldon L, Mackenroth L, Betcheva-Krajcir E, Rump A, Beck-Wödl S, Schallner J, Di Donato N, Schröck E, and Tzschach A

Subjects
Chromosomes, Human, X genetics, Female, Genetic Diseases, X-Linked physiopathology, Heterozygote, Humans, Intellectual Disability physiopathology, Male, Mental Retardation, X-Linked physiopathology, Mutation, Pedigree, X Chromosome Inactivation genetics, Genetic Diseases, X-Linked genetics, Intellectual Disability genetics, Mental Retardation, X-Linked genetics, Nuclear Proteins genetics, Transcription Factors genetics
Abstract

Mutations in DLG3 are a rare cause of non-syndromic X-linked intellectual disability (XLID) (MRX90, OMIM *300189). Only ten DLG3 mutations have been reported to date. The majority of female heterozygous mutation carriers was healthy and had random X-inactivation patterns. We report on an XLID family with a novel DLG3 mutation. The 12-year-old male index patient had moderate intellectual disability (ID) and dysmorphic features. The mutation was also present in four female relatives. A maternal aunt had moderate ID and significantly skewed X-inactivation favorably inactivating the normal DLG3 allele. The proband's healthy mother also had skewed X-inactivation but in the opposite direction (i.e., inactivation of the mutated allele). Two other female relatives had intermediate cognitive phenotypes and random X-inactivation. This family broadens the mutational and phenotypical spectrum of DLG3-associated XLID and demonstrates that heterozygous female mutation carriers can be as severely affected as males. Reports of additional families will be needed to elucidate the causes of unfavorable skewing in female XLID patients., (© 2017 Wiley Periodicals, Inc.)

Published
2017
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38. New gain-of-function mutation shows CACNA1D as recurrently mutated gene in autism spectrum disorders and epilepsy.

Author

Pinggera A, Mackenroth L, Rump A, Schallner J, Beleggia F, Wollnik B, and Striessnig J

Subjects
Calcium Channels, L-Type metabolism, Child, Epilepsy genetics, Epilepsy metabolism, Gain of Function Mutation genetics, Humans, Ion Channel Gating physiology, Male, Mutation, Mutation, Missense, Patch-Clamp Techniques, Seizures genetics, Autism Spectrum Disorder genetics, Calcium Channels, L-Type genetics
Abstract

CACNA1D encodes the pore-forming α1-subunit of Cav1.3, an L-type voltage-gated Ca2+-channel. Despite the recent discovery of two de novo missense gain-of-function mutations in Cav1.3 in two individuals with autism spectrum disorder (ASD) and intellectual disability CACNA1D has not been considered a prominent ASD-risk gene in large scale genetic analyses, since such studies primarily focus on likely-disruptive genetic variants. Here we report the discovery and characterization of a third de novo missense mutation in CACNA1D (V401L) in a patient with ASD and epilepsy. For the functional characterization we introduced mutation V401L into two major C-terminal long and short Cav1.3 splice variants, expressed wild-type or mutant channel complexes in tsA-201 cells and performed whole-cell patch-clamp recordings. Mutation V401L, localized within the channel's activation gate, significantly enhanced current densities, shifted voltage dependence of activation and inactivation to more negative voltages and reduced channel inactivation in both Cav1.3 splice variants. Altogether, these gating changes are expected to result in enhanced Ca2+-influx through the channel, thus representing a strong gain-of-function phenotype. Additionally, we also found that mutant channels retained full sensitivity towards the clinically available Ca2+ -channel blocker isradipine. Our findings strengthen the evidence for CACNA1D as a novel candidate autism risk gene and encourage experimental therapy with available channel-blockers for this mutation. The additional presence of seizures and neurological abnormalities in our patient define a novel phenotype partially overlapping with symptoms in two individuals with PASNA (congenital primary aldosteronism, seizures and neurological abnormalities) caused by similar Cav1.3 gain-of-function mutations., (© The Author 2017. Published by Oxford University Press.)

Published
2017
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39. Heterozygous truncation mutations of the SMC1A gene cause a severe early onset epilepsy with cluster seizures in females: Detailed phenotyping of 10 new cases.

Author

Symonds JD, Joss S, Metcalfe KA, Somarathi S, Cruden J, Devlin AM, Donaldson A, DiDonato N, Fitzpatrick D, Kaiser FJ, Lampe AK, Lees MM, McLellan A, Montgomery T, Mundada V, Nairn L, Sarkar A, Schallner J, Pozojevic J, Parenti I, Tan J, Turnpenny P, Whitehouse WP, and Zuberi SM

Subjects
Child, Child, Preschool, Electroencephalography, Epilepsy complications, Female, Heterozygote, Humans, Male, Seizures complications, Cell Cycle Proteins genetics, Chromosomal Proteins, Non-Histone genetics, Epilepsy genetics, Mutation genetics, Seizures genetics
Abstract

Objective: The phenotype of seizure clustering with febrile illnesses in infancy/early childhood is well recognized. To date the only genetic epilepsy consistently associated with this phenotype is PCDH19, an X-linked disorder restricted to females, and males with mosaicism. The SMC1A gene, which encodes a structural component of the cohesin complex is also located on the X chromosome. Missense variants and small in-frame deletions of SMC1A cause approximately 5% of Cornelia de Lange Syndrome (CdLS). Recently, protein truncating mutations in SMC1A have been reported in five females, all of whom have been affected by a drug-resistant epilepsy, and severe developmental impairment. Our objective was to further delineate the phenotype of SMC1A truncation., Method: Female cases with de novo truncation mutations in SMC1A were identified from the Deciphering Developmental Disorders (DDD) study (n = 8), from postmortem testing of an affected twin (n = 1), and from clinical testing with an epilepsy gene panel (n = 1). Detailed information on the phenotype in each case was obtained., Results: Ten cases with heterozygous de novo mutations in the SMC1A gene are presented. All 10 mutations identified are predicted to result in premature truncation of the SMC1A protein. All cases are female, and none had a clinical diagnosis of CdLS. They presented with onset of epileptic seizures between <4 weeks and 28 months of age. In the majority of cases, a marked preponderance for seizures to occur in clusters was noted. Seizure clusters were associated with developmental regression. Moderate or severe developmental impairment was apparent in all cases., Significance: Truncation mutations in SMC1A cause a severe epilepsy phenotype with cluster seizures in females. These mutations are likely to be nonviable in males., (Wiley Periodicals, Inc. © 2017 International League Against Epilepsy.)

Published
2017
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40. Alternating Hemiplegia of Childhood as a New Presentation of Adenylate Cyclase 5-Mutation-Associated Disease: A Report of Two Cases.

Author

Westenberger A, Max C, Brüggemann N, Domingo A, Grütz K, Pawlack H, Weissbach A, Kühn AA, Spiegler J, Lang AE, Sperner J, Fung VSC, Schallner J, Gillessen-Kaesbach G, Münchau A, and Klein C

Subjects
Adolescent, Child, Humans, Male, Mutation, Adenylyl Cyclases genetics, Hemiplegia genetics
Abstract

Mutations in the adenylate cyclase 5 (ADCY5) gene recently have been identified as the cause of a childhood-onset disorder characterized by persistent or paroxysmal choreic, myoclonic, and/or dystonic movements. The 2 novel mutations we identified expand the clinical spectrum of ADCY5 mutations to include alternating hemiplegia of childhood., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published
2017
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41. Mutations in EXOSC2 are associated with a novel syndrome characterised by retinitis pigmentosa, progressive hearing loss, premature ageing, short stature, mild intellectual disability and distinctive gestalt.

Author

Di Donato N, Neuhann T, Kahlert AK, Klink B, Hackmann K, Neuhann I, Novotna B, Schallner J, Krause C, Glass IA, Parnell SE, Benet-Pages A, Nissen AM, Berger W, Altmüller J, Thiele H, Weber BH, Schrock E, Dobyns WB, Bier A, and Rump A

Subjects
DNA Mutational Analysis methods, Exome genetics, Female, Genetic Predisposition to Disease genetics, Humans, Male, Pedigree, Phenotype, Syndrome, Aging, Premature genetics, Dwarfism genetics, Exosome Multienzyme Ribonuclease Complex genetics, Hearing Loss genetics, Intellectual Disability genetics, Mutation, Missense genetics, RNA-Binding Proteins genetics, Retinitis Pigmentosa genetics
Abstract

Background: Retinitis pigmentosa in combination with hearing loss can be a feature of different Mendelian disorders. We describe a novel syndrome caused by biallelic mutations in the 'exosome component 2' (EXOSC2) gene., Methods: Clinical ascertainment of three similar affected patients followed by whole exome sequencing., Results: Three individuals from two unrelated German families presented with a novel Mendelian disorder encompassing childhood myopia, early onset retinitis pigmentosa, progressive sensorineural hearing loss, hypothyroidism, short stature, brachydactyly, recognisable facial gestalt, premature ageing and mild intellectual disability. Whole exome sequencing revealed homozygous or compound heterozygous missense variants in the EXOSC2 gene in all three patients. EXOSC2 encodes the 'ribosomal RNA-processing protein 4' (RRP4)-one of the core components of the RNA exosome. The RNA exosome is a multiprotein complex that plays key roles in RNA processing and degradation. Intriguingly, the EXOSC2-associated phenotype shows only minimal overlap with the previously reported diseases associated with mutations in the RNA exosome core component genes EXOSC3 and EXOSC8., Conclusion: We report a novel condition that is probably caused by altered RNA exosome function and expands the spectrum of clinical consequences of impaired RNA metabolism., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://www.bmj.com/company/products-services/rights-and-licensing/)

Published
2016
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42. STXBP1 encephalopathy: A neurodevelopmental disorder including epilepsy.

Author

Stamberger H, Nikanorova M, Willemsen MH, Accorsi P, Angriman M, Baier H, Benkel-Herrenbrueck I, Benoit V, Budetta M, Caliebe A, Cantalupo G, Capovilla G, Casara G, Courage C, Deprez M, Destrée A, Dilena R, Erasmus CE, Fannemel M, Fjær R, Giordano L, Helbig KL, Heyne HO, Klepper J, Kluger GJ, Lederer D, Lodi M, Maier O, Merkenschlager A, Michelberger N, Minetti C, Muhle H, Phalin J, Ramsey K, Romeo A, Schallner J, Schanze I, Shinawi M, Sleegers K, Sterbova K, Syrbe S, Traverso M, Tzschach A, Uldall P, Van Coster R, Verhelst H, Viri M, Winter S, Wolff M, Zenker M, Zoccante L, De Jonghe P, Helbig I, Striano P, Lemke JR, Møller RS, and Weckhuysen S

Subjects
Adolescent, Adult, Brain Diseases diagnosis, Brain Diseases epidemiology, Child, Child, Preschool, Epilepsy diagnosis, Epilepsy epidemiology, Female, Humans, Infant, Male, Middle Aged, Mutation genetics, Neurodevelopmental Disorders diagnosis, Neurodevelopmental Disorders epidemiology, Young Adult, Brain Diseases genetics, Epilepsy genetics, Munc18 Proteins genetics, Neurodevelopmental Disorders genetics
Abstract

Objective: To give a comprehensive overview of the phenotypic and genetic spectrum of STXBP1 encephalopathy (STXBP1-E) by systematically reviewing newly diagnosed and previously reported patients., Methods: We recruited newly diagnosed patients with STXBP1 mutations through an international network of clinicians and geneticists. Furthermore, we performed a systematic literature search to review the phenotypes of all previously reported patients., Results: We describe the phenotypic features of 147 patients with STXBP1-E including 45 previously unreported patients with 33 novel STXBP1 mutations. All patients have intellectual disability (ID), which is mostly severe to profound (88%). Ninety-five percent of patients have epilepsy. While one-third of patients presented with Ohtahara syndrome (21%) or West syndrome (9.5%), the majority has a nonsyndromic early-onset epilepsy and encephalopathy (53%) with epileptic spasms or tonic seizures as main seizure type. We found no correlation between severity of seizures and severity of ID or between mutation type and seizure characteristics or cognitive outcome. Neurologic comorbidities including autistic features and movement disorders are frequent. We also report 2 previously unreported adult patients with prominent extrapyramidal features., Conclusion: De novo STXBP1 mutations are among the most frequent causes of epilepsy and encephalopathy. Most patients have severe to profound ID with little correlation among seizure onset, seizure severity, and the degree of ID. Accordingly, we hypothesize that seizure severity and ID present 2 independent dimensions of the STXBP1-E phenotype. STXBP1-E may be conceptualized as a complex neurodevelopmental disorder rather than a primary epileptic encephalopathy., (© 2016 American Academy of Neurology.)

Published
2016
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43. 6q22.33 microdeletion in a family with intellectual disability, variable major anomalies, and behavioral abnormalities.

Author

Mackenroth L, Hackmann K, Beyer A, Schallner J, Novotna B, Klink B, Schröck E, and Di Donato N

Subjects
Adult, Child, Child, Preschool, Facies, Family, Female, Humans, Infant, Infant, Newborn, Male, Pedigree, Abnormalities, Multiple genetics, Behavior, Chromosome Deletion, Chromosomes, Human, Pair 6 genetics, Intellectual Disability complications, Intellectual Disability genetics
Abstract

Interstitial deletions on the long arm of chromosome six have been described for several regions including 6q16, 6q22.1, and 6q21q22.1, and with variable phenotypes such as intellectual disability/developmental delay, growth retardation, major and minor facial anomalies. However, an isolated microdeletion of the sub-band 6q22.33 has not been reported so far and thus, no information about the specific phenotype associated with such a copy number variant is available. Here, we define the clinical picture of an isolated 6q22.33 microdeletion based on the phenotype of six members of one family with loss of approximately 1 Mb in this region. Main clinical features include mild intellectual disability and behavioral abnormalities as well as microcephaly, heart defect, and cleft lip and palate., (© 2015 Wiley Periodicals, Inc.)

Published
2015
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44. Characteristic brain magnetic resonance imaging pattern in patients with macrocephaly and PTEN mutations.

Author

Vanderver A, Tonduti D, Kahn I, Schmidt J, Medne L, Vento J, Chapman KA, Lanpher B, Pearl P, Gropman A, Lourenco C, Bamforth JS, Sharpe C, Pineda M, Schallner J, Bodamer O, Orcesi S, Oberstein SA, Sistermans EA, Yntema HG, Bonnemann C, Waldman AT, and van der Knaap MS

Subjects
Brain pathology, Cephalometry, Child, Preschool, Female, Hamartoma Syndrome, Multiple diagnosis, Hamartoma Syndrome, Multiple genetics, Humans, Infant, Infant, Newborn, Male, Magnetic Resonance Imaging, Megalencephaly diagnosis, Megalencephaly genetics, Mutation, PTEN Phosphohydrolase genetics
Abstract

We describe an MRI phenotype seen in a series of patients with mutations in PTEN who have clinical features consistent with PTEN hamartoma tumor syndrome (PHTS). Retrospective review of clinical data and MRI was performed in 23 subjects evaluated in four different tertiary care centers with clinical programs in inherited disorders of the white matter. Patients were referred due to abnormal MRI features and abnormal PTEN sequencing was identified. All subjects had significant macrocephaly (on average >4 SD above the mean), developmental delay with or without autism spectrum disorder and uniform MRI features of enlarged perivascular spaces and multifocal periventricular white matter abnormalities. The phenotype of PHTS may include MRI abnormalities such as multifocal periventricular white matter abnormalities and enlarged perivascular spaces. These neuroimaging findings, in association with macrocephaly and developmental delay, should prompt consideration of PTEN as a diagnostic possibility., Competing Interests: none., (© 2013 Wiley Periodicals, Inc.)

Published
2014
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45. Severe intellectual disability, West syndrome, Dandy-Walker malformation, and syndactyly in a patient with partial tetrasomy 17q25.3.

Author

Hackmann K, Stadler A, Schallner J, Franke K, Gerlach EM, Schrock E, Rump A, Fauth C, Tinschert S, and Oexle K

Subjects
Child, Chromosome Breakpoints, Chromosomes, Human, Pair 17 genetics, Dandy-Walker Syndrome physiopathology, Female, Forkhead Transcription Factors genetics, Humans, Infant, Newborn, Intellectual Disability physiopathology, Spasms, Infantile physiopathology, Syndactyly physiopathology, Tetrasomy genetics, Tetrasomy physiopathology, Dandy-Walker Syndrome genetics, Intellectual Disability genetics, Spasms, Infantile genetics, Syndactyly genetics
Abstract

We report on a de novo 0.5 Mb triplication (partial tetrasomy) of chromosome 17q25.3 in a 10-year-old girl with severe intellectual disability, infantile seizures (West syndrome), moderate hearing loss, Dandy-Walker malformation, microcephaly, craniofacial dysmorphism, striking cutaneous syndactyly (hands 3-4, feet 2-3), joint laxity, and short stature. The triplication resulted from the unusual combination of a terminal duplication at 17qter and a cryptic translocation of an extra copy of the same segment onto chromosome 10qter. The breakpoint at 17q25.3 was located within the FOXK2 gene. SNP chip analysis suggested that the rearrangement occurred during paternal meiosis involving both paternal chromosomes 17., (© 2013 Wiley Periodicals, Inc.)

Published
2013
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46. [Evaluation of haemostasis in children treated with valproic acid].

Author

Schädlich D, Friebel D, Schallner J, Gehrisch S, Siegert G, Kuhlisch E, and Knöfler R

Subjects
Adenosine Triphosphate blood, Anticonvulsants pharmacology, Anticonvulsants therapeutic use, Blood Coagulation drug effects, Child, Factor VIII drug effects, Factor VIII metabolism, Factor XIII drug effects, Factor XIII metabolism, Fibrinogen drug effects, Fibrinogen metabolism, Humans, Platelet Aggregation drug effects, Thrombin drug effects, Thrombin metabolism, Valproic Acid pharmacology, Blood Coagulation physiology, Hemostasis drug effects, Valproic Acid therapeutic use
Abstract

Unlabelled: Coagulation parameters were determined in children with valproic acid mono- and valproic acid-lamotrigin combination therapy., Patients, Methods: Monotherapy group (n = 22; mean age: 10.5 years) was compared to combination therapy (n = 7; 12.9 years) and a control group (n = 22; 8.7 years). The following parameters were measured: aggregation and ATP-release in whole blood (ADP: 20 μmol/l, collagen: 1 μg/ml, thrombin: 0.5 U/ml), PFA-100® closure times (CT), blood cell counts, global tests, VWF:Ag, VWF:CBA, factors VIII and XIII as well as fibrinogen. Bleeding symptoms were evaluated by using a questionnaire., Results: For ADP- and collagen-induced aggregation as well as for ATP release no significant differences between the groups were detected. The combined therapy group showed significantly prolonged CT. Von Willebrand disease was not detected in any of the patients. The platelet count was significantly decreased in the monotherapy group. In six children a mild bleeding tendency was observed, mostly epistaxis., Conclusion: A clinically relevant influence of valproic acid on haemostasis was found only in few cases. However, before surgical procedures an extended coagulation diagnostics is recommended in patients with valproic acid therapy.

Published
2010

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