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101. Correction: Diagnostic value of partial exome sequencing in developmental disorders

Author

Gieldon, Laura, primary, Mackenroth, Luisa, additional, Kahlert, Anne-Karin, additional, Lemke, Johannes R., additional, Porrmann, Joseph, additional, Schallner, Jens, additional, von der Hagen, Maja, additional, Markus, Susanne, additional, Weidensee, Sabine, additional, Novotna, Barbara, additional, Soerensen, Charlotte, additional, Klink, Barbara, additional, Wagner, Johannes, additional, Tzschach, Andreas, additional, Jahn, Arne, additional, Kuhlee, Franziska, additional, Hackmann, Karl, additional, Schrock, Evelin, additional, Di Donato, Nataliya, additional, and Rump, Andreas, additional

Published
2020
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102. A clinical and molecular genetic study of 112 Iranian families with primary microcephaly

Author

Darvish, H, Esmaeeli-Nieh, S, Monajemi, G B, Mohseni, M, Ghasemi-Firouzabadi, S, Abedini, S S, Bahman, I, Jamali, P, Azimi, S, Mojahedi, F, Dehghan, A, Shafeghati, Y, Jankhah, A, Falah, M, Soltani Banavandi, M J, Ghani-Kakhi, M, Garshasbi, M, Rakhshani, F, Naghavi, A, Tzschach, A, Neitzel, H, Ropers, H H, Kuss, A W, Behjati, F, Kahrizi, K, and Najmabadi, H

Published
2010
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105. Pierpont syndrome: report of a new patient

Author

Joseph Porrmann, Luisa Mackenroth, Evelin Schröck, Anne-Karin Kahlert, Andreas Rump, Sabine Weidensee, Nataliya Di Donato, and Andreas Tzschach

Subjects
Male, 0301 basic medicine, medicine.medical_specialty, Hearing loss, Microphthalmia, Pathology and Forensic Medicine, 03 medical and health sciences, Pendular nystagmus, PIERPONT SYNDROME, medicine, Humans, Missense mutation, Abnormalities, Multiple, Genetics (clinical), business.industry, Specific mutation, Infant, Newborn, Infant, Dystrophy, Syndrome, General Medicine, medicine.disease, Dermatology, 030104 developmental biology, Child, Preschool, Pediatrics, Perinatology and Child Health, Mutation (genetic algorithm), Anatomy, medicine.symptom, business
Abstract

Pierpont syndrome (OMIM #602342) is a rare disorder characterized by developmental delay, characteristic facial gestalt, hearing loss, and abnormal fat distribution in the distal limbs. A specific mutation in TBL1XR1 [c.1337A>G; p.(Tyr446Cys)] has been described recently in six unrelated patients with Pierpont syndrome. We report on a male child with developmental delay, distinctive facial dysmorphic features, dystrophy, and abnormal fat distribution in the feet, in whom we identified the identical TBL1XR1 mutation. This patient also had additional clinical features including microphthalmia, pendular nystagmus, cryptorchidism, dermal sinus, and peripheral joint laxity, which had not been reported previously in association with Pierpont syndrome. This patient corroborates the assumption that Pierpont syndrome is exclusively caused by the specific TBL1XR1 missense mutation p.(Tyr446Cys) and the additional features broaden the phenotypic spectrum of this rare disorder.

Published
2017

106. Mutations of the aminoacyl-tRNA-synthetases SARS and WARS2 are implicated in the etiology of autosomal recessive intellectual disability

Author

Henning Stehr, Luciana Musante, Kimia Kahrizi, Hao Hu, Masoud Garshasbi, Hossein Najmabadi, Lars R. Jensen, Andreas Tzschach, Payman Jamali, Lucia Püttmann, Bettina Lipkowitz, Hans-Hilger Ropers, Thomas F. Wienker, Sabine Otto, and Andreas W. Kuss

Subjects
Adult, Male, 0301 basic medicine, Adolescent, Mutant, Nonsense mutation, Mutation, Missense, Iran, Biology, medicine.disease_cause, Compound heterozygosity, Amino Acyl-tRNA Synthetases, 03 medical and health sciences, chemistry.chemical_compound, Mutant protein, Intellectual Disability, Genetics, medicine, Humans, Missense mutation, Child, Genetics (clinical), Mutation, Aminoacyl tRNA synthetase, Homozygote, RNA-Binding Proteins, Molecular biology, Neoplasm Proteins, Nonsense Mediated mRNA Decay, Pedigree, HEK293 Cells, 030104 developmental biology, chemistry, Transfer RNA, Cytokines, Female
Abstract

Intellectual disability (ID) is the hallmark of an extremely heterogeneous group of disorders that comprises a wide variety of syndromic and non-syndromic phenotypes. Here we report on mutations in two aminoacyl-tRNA synthetases that are associated with ID in two unrelated Iranian families. In the first family, we identified a homozygous missense mutation (c.514G>A, p.Asp172Asn) in the cytoplasmic seryl-tRNA synthetase (SARS) gene. The mutation affects the enzymatic core domain of the protein and impairs its enzymatic activity, probably leading to reduced cytoplasmic tRNASer concentrations. The mutant protein was predicted to be unstable, which could be substantiated by investigating ectopic mutant SARS in transfected HEK293T cells. In the second family, we found a compound heterozygous genotype of the mitochondrial tryptophanyl-tRNA synthetase (WARS2) gene, comprising a nonsense mutation (c.325delA, p.Ser109Alafs*15), which very likely entails nonsense-mediated mRNA decay, and a missense mutation (c.37T>G, p.Trp13Gly). The latter affects the mitochondrial localization signal of WARS2, causing protein mislocalization. Including AIMP1, which we have recently implicated in the aetiology of ID, three genes with a role in tRNA-aminoacylation are now associated with this condition. We therefore suggest that the functional integrity of tRNAs in general is an important factor in the development and maintenance of human cognitive functions. This article is protected by copyright. All rights reserved

Published
2017

111. A Balanced Chromosomal Translocation Disrupting ARHGEF9 Is Associated With Epilepsy, Anxiety, Aggression, and Mental Retardation

Author

Kalscheuer, Vera M., Musante, Luciana, Fang, Cheng, Hoffmann, Kirsten, Fuchs, Celine, Carta, Eloisa, Deas, Emma, Venkateswarlu, Kanamarlapudi, Menzel, Corinna, Ullmann, Reinhard, Tommerup, Niels, Dalprà, Leda, Tzschach, Andreas, Selicorni, Angelo, Lüscher, Bernhard, Ropers, Hans-Hilger, Harvey, Kirsten, and Harvey, Robert J.

Published
2009
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117. Posterior amorphous corneal dystrophy in a patient with 12q21.33 deletion

Author

Martin Smitka, Frederik Raiskup, Joseph Porrmann, Andreas Tzschach, Karl Hackmann, Janine Lenk, Evelin Schröck, Ines Eger, and Robert Herber

Subjects
Male, 0301 basic medicine, Posterior amorphous corneal dystrophy, Lumican, congenital, hereditary, and neonatal diseases and abnormalities, medicine.medical_specialty, Chromosomal translocation, Corneal dystrophy, Haploinsufficiency, Chromosomal rearrangement, 030105 genetics & heredity, Contiguous gene syndrome, 03 medical and health sciences, 0302 clinical medicine, Decreased corneal thickness, Ophthalmology, medicine, Humans, Child, Genetics (clinical), Corneal Dystrophies, Hereditary, Small Leucine-Rich Proteoglycans, Chromosomes, Human, Pair 12, business.industry, Prognosis, medicine.disease, Chromosome Band, Pediatrics, Perinatology and Child Health, 030221 ophthalmology & optometry, Proteoglycans, Chromosome Deletion, Decorin, business
Abstract

Posterior amorphous corneal dystrophy (PACD) (OMIM 612868) is a rare autosomal dominant disorder characterized by partial or complete posterior lamellar corneal opacification, decreased corneal thickness and flattening of the corneal curvature. PACD is associated with heterozygous deletions in chromosome band 12q21.33 harboring DCN, KERA, LUM, and EPYC which encode small leucine-rich proteoglycans.We report on a 7-year-old male patient with PACD who had an interstitial deletion of 1.3 Mb in 12q21.33. His mother carried a balanced insertional translocation involving this 12q21.33 segment which was inserted into the proximal part of the long arm of one chromosome 13.The patient corroborates previous observations that PACD is a contiguous gene syndrome caused by combined haploinsufficiency of DCN, KERA, LUM, and EPYC and provides the first example of a balanced chromosome rearrangement involving 12q21.33 in an unaffected parent.

Published
2018

118. Clinical Presentation of a Complex Neurodevelopmental Disorder Caused by Mutations in ADNP

Author

Dijck, A. van, Vulto-van Silfhout, A.T., Cappuyns, E., Werf, I.M. van der, Mancini, G.M., Tzschach, A., Bernier, R., Gozes, I., Eichler, E.E., Romano, C., Lindstrand, A., Nordgren, A., Kvarnung, M., Kleefstra, T., Vries, B.B.A. de, Kury, S., Rosenfeld, J.A., Meuwissen, M.E., Vandeweyer, G., Kooy, R.F., Bakshi, M., Wilson, M., Berman, Y., Dickson, R., Fransen, E., Helsmoortel, C., Ende, J. van den, Aa, N. van der, Wijdeven, M.J. van de, Rosenblum, J., Monteiro, F., Kok, F., Quercia, N., Bowdin, S., Dyment, D., Chitayat, D., Alkhunaizi, E., Boonen, S.E., Keren, B., Jacquette, A., Faivre, L., Bezieau, S., Isidor, B., Riess, A., Moog, U., Lynch, S.A., McVeigh, T., Elpeleg, O., Smeland, M.F., Fannemel, M., Haeringen, A. van, Maas, S.M., Veenstra-Knol, H.E., Schouten, M., Willemsen, M.H., Marcelis, C.L., Ockeloen, C., Burgt, I. van der, Feenstra, I., Smagt, J. van der, Jezela-Stanek, A., Krajewska-Walasek, M., Gonzalez-Lamuno, D., Anderlid, B.M., Malmgren, H., Nordenskjold, M., Clement, E., Hurst, J., Metcalfe, K., Mansour, S., Lachlan, K., Clayton-Smith, J., Hendon, L.G., Abdulrahman, O.A., Morrow, E., McMillan, C., Gerdts, J., Peeden, J., Vergano, S.A.S., Valentino, C., Chung, W.K., Ozmore, J.R., Bedrosian-Sermone, S., Dennis, A., Treat, K., Hughes, S.S., Safina, N., Pichon, J.B. le, McGuire, M., Infante, E., Madan-Khetarpal, S., Desai, S., Benke, P., Krokosky, A., Cristian, I., Baker, L., Gripp, K., Stessman, H.A., Eichenberger, J., Jayakar, P., Pizzino, A., Manning, M.A., Slattery, L., ADNP Consortium, Universidad de Cantabria, ADNP Consortium, Human Genetics, ANS - Complex Trait Genetics, and Clinical Genetics

Subjects
Male, 0301 basic medicine, Pediatrics, Autism Spectrum Disorder, Autism, Intellectual disability, Cohort Studies, Epilepsy, 0302 clinical medicine, Genotype-phenotype distinction, Neurodevelopmental disorder, Neurodevelopmental Disorder, Helsmoortel-Van der Aa syndrome, Child, ADNP, Syndrome, Hypotonia, Autism spectrum disorder, Child, Preschool, Cohort, Female, Abnormalities, medicine.symptom, Multiple, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9], Adult, medicine.medical_specialty, Adolescent, Nerve Tissue Proteins, Article, Young Adult, 03 medical and health sciences, Intellectual Disability, Helsmoortel-Van der Aa Síndrome, medicine, Genetics, Humans, Abnormalities, Multiple, Preschool, Biology, Biological Psychiatry, Homeodomain Proteins, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], business.industry, Infant, medicine.disease, 030104 developmental biology, Neurodevelopmental Disorders, Mutation, Human medicine, business, 030217 neurology & neurosurgery
Abstract

Background In genome-wide screening studies for de novo mutations underlying autism and intellectual disability, mutations in the ADNP gene are consistently reported among the most frequent. ADNP mutations have been identified in children with autism spectrum disorder comorbid with intellectual disability, distinctive facial features, and deficits in multiple organ systems. However, a comprehensive clinical description of the Helsmoortel-Van der Aa syndrome is lacking. Methods We identified a worldwide cohort of 78 individuals with likely disruptive mutations in ADNP from January 2014 to October 2016 through systematic literature search, by contacting collaborators, and through direct interaction with parents. Clinicians filled in a structured questionnaire on genetic and clinical findings to enable correlations between genotype and phenotype. Clinical photographs and specialist reports were gathered. Parents were interviewed to complement the written questionnaires. Results We report on the detailed clinical characterization of a large cohort of individuals with an ADNP mutation and demonstrate a distinctive combination of clinical features, including mild to severe intellectual disability, autism, severe speech and motor delay, and common facial characteristics. Brain abnormalities, behavioral problems, sleep disturbance, epilepsy, hypotonia, visual problems, congenital heart defects, gastrointestinal problems, short stature, and hormonal deficiencies are common comorbidities. Strikingly, individuals with the recurrent p.Tyr719* mutation were more severely affected. Conclusions This overview defines the full clinical spectrum of individuals with ADNP mutations, a specific autism subtype. We show that individuals with mutations in ADNP have many overlapping clinical features that are distinctive from those of other autism and/or intellectual disability syndromes. In addition, our data show preliminary evidence of a correlation between genotype and phenotype. This work was supported by grants from the European Research Area Networks Network of European Funding for Neuroscience Research through the Research Foundation–Flanders and the Chief Scientist Office–Ministry of Health (to RFK, GV, IG). This research was supported, in part, by grants from the Simons Foundation Autism Research Initiative (Grant No. SFARI 303241 to EEE) and National Institutes of Health (Grant No. R01MH101221 to EEE). This work was also supported by the Italian Ministry of Health and ‘5 per mille’ funding (to CR). For many individuals, sequencing was provided by research initiatives like the Care4Rare Research Consortium in Canada or the Deciphering Developmental Disorders (DDD) study in the UK. The DDD Study presents independent research commissioned by the Health Innovation Challenge Fund (Grant No. HICF-1009–003), a parallel funding partnership between the Wellcome Trust and the Department of Health, and the Wellcome Trust Sanger Institute (Grant No. WT098051). The views expressed in this publication are those of the author(s) and not necessarily those of the Wellcome Trust or the Department of Health. The study has UK Research Ethics Committee approval (10/H0305/83, granted by the Cambridge South Research Ethics Committee, and GEN/284/12 granted by the Republic of Ireland Research Ethics Committee). The research team acknowledges the support of the National Institute for Health Research, through the Comprehensive Clinical Research Network.

Published
2019

119. Genetics of intellectual disability in consanguineous families

Author

Sarah Azimi, Leila Nouri Vahid, Krystyna Keleman, Pooneh Nikuei, Tara Akhtarkhavari, Thomas F. Wienker, Beate Albrecht, Hossein Khodaei, Mohammad Reza Ebrahimpour, Mohammad Javad Soltani Banavandi, Marzieh Mohseni, Vanessa Suckow, Aria Jankhah, Milad Bastami, Behzad Davarnia, Vera M. Kalscheuer, Farzaneh Larti, Saeide Akbari, Kimia Kahrizi, Jamileh Rezazadeh Varaghchi, Bettina Lipkowitz, Sanaz Arzhangi, Morteza Oladnabi, Monika Cohen, Sabine Otto, Zohreh Fattahi, Luciana Musante, Payman Jamali, Maryam Beheshtian, Masoumeh Hosseini, Maryam Taghdiri, Wei Chen, Seyedeh Sedigheh Abedini, Bernd Timmermann, Hans-Hilger Ropers, Andreas Tzschach, Gholamreza Bahrami, Birgit Zirn, Hossein Najmabadi, Dagmar Wieczorek, Ingrid Bader, Gabriele Gillessen-Kaesbach, Cornelia Oppitz, Elaheh Papari, Hao Hu, Ralf Herwig, Fatemeh Pourfatemi, Jutta Gärtner, Faezeh Mojahedi, Hossein Dehghani, Sepideh Mehvari, and Seyed Hassan Tonekaboni

Subjects
Adult, Male, 0301 basic medicine, Medizin, Genes, Recessive, Consanguinity, Iran, Biology, DNA sequencing, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Intellectual Disability, Exome Sequencing, Intellectual disability, medicine, Humans, Exome, Family, Protein Interaction Maps, Molecular Biology, Gene, De novo mutations, Affected offspring, Whole genome sequencing, Genetics, Whole Genome Sequencing, Homozygote, High-Throughput Nucleotide Sequencing, Middle Aged, medicine.disease, Pedigree, Psychiatry and Mental health, 030104 developmental biology, Mutation, Female, 030217 neurology & neurosurgery
Abstract

Autosomal recessive (AR) gene defects are the leading genetic cause of intellectual disability (ID) in countries with frequent parental consanguinity, which account for about 1/7th of the world population. Yet, compared to autosomal dominant de novo mutations, which are the predominant cause of ID in Western countries, the identification of AR-ID genes has lagged behind. Here, we report on whole exome and whole genome sequencing in 404 consanguineous predominantly Iranian families with two or more affected offspring. In 219 of these, we found likely causative variants, involving 77 known and 77 novel AR-ID (candidate) genes, 21 X-linked genes, as well as 9 genes previously implicated in diseases other than ID. This study, the largest of its kind published to date, illustrates that high-throughput DNA sequencing in consanguineous families is a superior strategy for elucidating the thousands of hitherto unknown gene defects underlying AR-ID, and it sheds light on their prevalence.

Published
2019

121. KCNC1-related disorders: New de novo variants expand the phenotypic spectrum

Author

Park, Joohyun, Koko, Mahmoud, Hedrich, Ulrike B. S., Hermann, Andreas, Cremer, Kirsten, Haberlandt, Edda, Grimmel, Mona, Alhaddad, Bader, Beck‐Woedl, Stefanie, Harrer, Merle, Karall, Daniela, Kingelhoefer, Lisa, Tzschach, Andreas, Matthies, Lars C., Strom, Tim M., Ringelstein, Erich Bernd, Sturm, Marc, Engels, Hartmut, Wolff, Markus, Lerche, Holger, and Haack, Tobias B.

Subjects
Male, Mutation, Missense, Neurosciences. Biological psychiatry. Neuropsychiatry, Brief Communication, Xenopus laevis, Seizures, physiology [Shaw Potassium Channels], Intellectual Disability, Animals, Humans, ddc:610, RC346-429, Child, Genetic Association Studies, genetics [Shaw Potassium Channels], genetics [Ataxia], Myoclonic Epilepsies, Progressive, genetics [Seizures], Shaw Potassium Channels, Codon, Nonsense, Ataxia, Neurology. Diseases of the nervous system, genetics [Intellectual Disability], Brief Communications, RC321-571
Abstract

A recurrent de novo missense variant in KCNC1, encoding a voltage‐gated potassium channel expressed in inhibitory neurons, causes progressive myoclonus epilepsy and ataxia, and a nonsense variant is associated with intellectual disability. We identified three new de novo missense variants in KCNC1 in five unrelated individuals causing different phenotypes featuring either isolated nonprogressive myoclonus (p.Cys208Tyr), intellectual disability (p.Thr399Met), or epilepsy with myoclonic, absence and generalized tonic‐clonic seizures, ataxia, and developmental delay (p.Ala421Val, three patients). Functional analyses demonstrated no measurable currents for all identified variants and dominant‐negative effects for p.Thr399Met and p.Ala421Val predicting neuronal disinhibition as the underlying disease mechanism.

Published
2019

123. Mutation Frequencies of X-linked Mental Retardation Genes in Families from the EuroMRX Consortium

Author

de Brouwer, Arjan P.M., Yntema, Helger G., Kleefstra, Tjitske, Lugtenberg, Dorien, Oudakker, Astrid R., de Vries, Bert B.A., van Bokhoven, Hans, Van Esch, Hilde, Frints, Suzanne G.M., Froyen, Guy, Fryns, Jean-Pierre, Raynaud, Martine, Moizard, Marie-Pierre, Ronce, Nathalie, Bensalem, Anissa, Moraine, Claude, Poirier, Karine, Castelnau, Laetitia, Saillour, Yoann, Bienvenu, Thierry, Beldjord, Chérif, des Portes, Vincent, Chelly, Jamel, Turner, Gillian, Fullston, Tod, Gecz, Jozef, Kuss, Andreas W., Tzschach, Andreas, Jensen, Lars Riff, Lenzner, Steffen, Kalscheuer, Vera M., Ropers, Hans-Hilger, and Hamel, Ben C.J.

Published
2007
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130. Ready to clone: CNV detection and breakpoint fine-mapping in breast and ovarian cancer susceptibility genes by high-resolution array CGH

Author

Evelin Schröck, Elitza Betcheva-Krajcir, Karl Hackmann, Anne-Karin Kahlert, Barbara Klink, Karin Kast, Luisa Mackenroth, Andreas Tzschach, Andreas Rump, Nataliya Di Donato, Franziska Kuhlee, and Pauline Wimberger

Subjects
0301 basic medicine, clone (Java method), Cancer Research, DNA Copy Number Variations, Breast Neoplasms, Biology, Chromosome Breakpoints, 03 medical and health sciences, Exon, 0302 clinical medicine, Germline mutation, Humans, Genetic Predisposition to Disease, Copy-number variation, CHEK2, Germ-Line Mutation, Ovarian Neoplasms, Genetics, Comparative Genomic Hybridization, Breakpoint, Chromosome Mapping, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA, 030104 developmental biology, Oncology, 030220 oncology & carcinogenesis, RAD51C, Female, Comparative genomic hybridization
Abstract

Detection of predisposing copy number variants (CNV) in 330 families affected with hereditary breast and ovarian cancer (HBOC). In order to complement mutation detection with Illumina’s TruSight Cancer panel, we designed a customized high-resolution 8 × 60k array for CGH (aCGH) that covers all 94 genes from the panel. Copy number variants with immediate clinical relevance were detected in 12 families (3.6%). Besides 3 known CNVs in CHEK2, RAD51C, and BRCA1, we identified 3 novel pathogenic CNVs in BRCA1 (deletion of exons 4–13, deletion of exons 12–18) and ATM (deletion exons 57–63) plus an intragenic duplication of BRCA2 (exons 3–11) and an intronic BRCA1 variant with unknown pathogenicity. The precision of high-resolution aCGH enabled straight forward breakpoint amplification of a BRCA1 deletion which subsequently allowed for fast and economic CNV verification in family members of the index patient. Furthermore, we used our aCGH data to validate an algorithm that was able to detect all identified copy number changes from next-generation sequencing (NGS) data. Copy number detection is a mandatory analysis in HBOC families at least if no predisposing mutations were found by sequencing. Currently, high-resolution array CGH is our first choice of method of analysis due to unmatched detection precision. Although it seems possible to detect CNV from sequencing data, there currently is no satisfying tool to do so in a routine diagnostic setting.

Published
2016

131. Epilepsy is not a mandatory feature of STXBP1 associated ataxia-tremor-retardation syndrome

Author

Martin Schoening, Andreas Tzschach, Peter Bauer, Stefanie Beck-Woedl, Angelika Riess, and Janina Gburek-Augustat

Subjects
0301 basic medicine, Pediatrics, medicine.medical_specialty, Ohtahara syndrome, Movement disorders, Ataxia, 03 medical and health sciences, Epilepsy, Munc18 Proteins, 0302 clinical medicine, Intellectual Disability, Tremor, Intellectual disability, Humans, STXBP1, Medicine, Child, Psychiatry, Genetic testing, medicine.diagnostic_test, business.industry, Electroencephalography, Syndrome, General Medicine, medicine.disease, 030104 developmental biology, Mutation, Pediatrics, Perinatology and Child Health, Mutation (genetic algorithm), Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery
Abstract

Background Mutations in the STXBP1 gene (MUNC18-1) were first described to cause Ohtahara syndrome (Early infantile epileptic encephalopathy, EIEE)12–14 characterized by very early infantile epileptic encephalopathy with frequent tonic spasms and a suppression-burst pattern on electroencephalogram. In the following years a wider phenotype was recognized having milder forms of epilepsies. All patients showed also intellectual disability and movement disorders. Methods Here, we present three female patients with an ataxia-tremor-retardation syndrome caused by a de novo STXBP1 mutation. Two of the girls were diagnosed through next-generation-sequencing as mutations in STXBP1 were not suspected. The third patient was diagnosed by targeted genetic testing due to its clinical features strikingly similar to the first two girls. Results The characteristic feature of our three patients is the lack of epilepsy which is in contrast to the majority of the patients with STXBP1 mutation. Conclusion Hence, epilepsy is not a mandatory feature of patients with a STXBP1 mutation.

Published
2016

132. Novel ADAMTSL2-mutations in a patient with geleophysic dysplasia type I

Author

Luisa Mackenroth, Evelin Schröck, Peter Lorenz, Andreas Rump, and Andreas Tzschach

Subjects
Male, 0301 basic medicine, Genotype, DNA Mutational Analysis, Limb Deformities, Congenital, 030105 genetics & heredity, Pathology and Forensic Medicine, 03 medical and health sciences, ADAMTS Proteins, Text mining, Humans, Medicine, Allele, Alleles, Genetic Association Studies, Genetics (clinical), Genetics, Bone Diseases, Developmental, business.industry, Infant, General Medicine, medicine.disease, Phenotype, 030104 developmental biology, Developmental genetics, Dysplasia, Mutation, Pediatrics, Perinatology and Child Health, Mutation (genetic algorithm), Anatomy, business
Published
2016

133. Interstitial 1q23.3q24.1 deletion in a patient with renal malformation, congenital heart disease, and mild intellectual disability

Author

Luisa Mackenroth, Julia Sara Weber, Andreas Tzschach, Evelin Schröck, Karl Hackmann, Barbara Klink, and Brigitte Mayer

Subjects
Heart Defects, Congenital, 0301 basic medicine, Pathology, medicine.medical_specialty, Microcephaly, Candidate gene, Heart disease, Developmental Disabilities, Kidney, 03 medical and health sciences, Intellectual Disability, Chromosome regions, Intellectual disability, Genetics, medicine, Humans, Abnormalities, Multiple, Renal malformation, Gene, Genetic Association Studies, In Situ Hybridization, Fluorescence, Genetics (clinical), Ultrasonography, Comparative Genomic Hybridization, business.industry, Facies, medicine.disease, Phenotype, 030104 developmental biology, Chromosomes, Human, Pair 1, Echocardiography, Child, Preschool, Female, Chromosomes, Human, Pair 3, Chromosome Deletion, business
Abstract

Interstitial deletions including chromosome region 1q23.3q24.1 are rare. Only eight patients with molecularly characterized deletions have been reported to date. Their phenotype included intellectual disability/developmental delay, growth retardation, microcephaly, congenital heart disease, and renal malformations. We report on a female patient with mild developmental delay, congenital heart disease, and bilateral renal hypoplasia in whom an interstitial de novo deletion of approximately 2.7 Mb in 1q23.3q24.1 was detected by array CGH. This is the smallest deletion described in this region so far. Genotype-phenotype comparison with previously published patients allowed us to propose LMX1A and RXRG as potential candidate genes for intellectual disability, PBX1 as a probable candidate gene for renal malformation, and enabled us to narrow down a chromosome region associated with microcephaly. © 2016 Wiley Periodicals, Inc.

Published
2016

134. KCNC1 ‐related disorders: new de novo variants expand the phenotypic spectrum

Author

Park, Joohyun, Koko, Mahmoud, Hedrich, Ulrike B. S., Hermann, Andreas, Cremer, Kirsten, Haberlandt, Edda, Grimmel, Mona, Alhaddad, Bader, Beck‐Woedl, Stefanie, Harrer, Merle, Karall, Daniela, Kingelhoefer, Lisa, Tzschach, Andreas, Matthies, Lars C., Strom, Tim M., Ringelstein, Erich Bernd, Sturm, Marc, Engels, Hartmut, Wolff, Markus, Lerche, Holger, and Haack, Tobias B.

Subjects
ddc
Published
2018

135. PUF60-SCRIB fusion transcript in a patient with 8q24.3 microdeletion and atypical Verheij syndrome

Author

Evelin Schröck, Andreas Tzschach, Karl Hackmann, Katharina Sarnow, Dalia Abdin, N. Di Donato, and Andreas Rump

Subjects
0301 basic medicine, SCRIB, Microcephaly, Adolescent, 030105 genetics & heredity, Biology, Short stature, Fusion gene, Chromosome Breakpoints, 03 medical and health sciences, Intellectual Disability, Genetics, medicine, Humans, RNA, Messenger, Megalencephaly, Genetics (clinical), Coloboma, Tumor Suppressor Proteins, Breakpoint, Membrane Proteins, Syndrome, General Medicine, medicine.disease, Repressor Proteins, 030104 developmental biology, Scoliosis, Fusion transcript, Female, RNA Splicing Factors, Chromosome Deletion, Gene Fusion, medicine.symptom, Chromosomes, Human, Pair 8
Abstract

Expression of the fusion genes is considered to be an important mechanism of tumorigenesis. However it is hardly ever discussed in relation to the neurodevelopmental disorders. Here we report on an 18-years-old female patient with 13.1 kb deletion of 8q24.3 fusing the 5′-portion of SCRIB with the 3′-portion of PUF60 and presenting with borderline intellectual disability, eye coloboma, short stature, scoliosis, heart defects and interestingly postnatal megalencephaly, in contrast to microcephaly, which is usually associated with 8q24.3 deletion (Verheij syndrome). Using next generation sequencing we mapped the breakpoints at nucleotide resolution and showed that the deletion preserved the reading frame. In contrast to the laborious techniques previously used for the precise mapping of deletion breakpoints, our approach identified an accurate interval very rapidly. We demonstrated the expression of the PUF60-SCRIB fusion gene in patient's cells and suggest that the fusion transcript might be a cause of the atypical clinical presentation.

Published
2019

136. Diagnostic value of partial exome sequencing in developmental disorders

Author

Gieldon, Laura, Mackenroth, Luisa, Kahlert, Anne-Karin, Lemke, Johannes R., Porrmann, Joseph, Schallner, Jens, von der Hagen, Maja, Markus, Susanne, Weidensee, Sabine, Novotna, Barbara, Soerensen, Charlotte, Klink, Barbara, Wagner, Johannes, Tzschach, Andreas, Jahn, Arne, Kuhlee, Franziska, Hackmann, Karl, Schrock, Evelin, Di Donato, Nataliya, and Rump, Andreas

Subjects
Male, Molecular biology, Imaging Techniques, Developmental Disabilities, DNA Mutational Analysis, Gene Identification and Analysis, lcsh:Medicine, Gene Sequencing, Genes, Recessive, Nervous System Malformations, Research and Analysis Methods, Diagnostic Radiology, Cohort Studies, Sequencing techniques, Autosomal Recessive Diseases, Pregnancy, Diagnostic Medicine, Intellectual Disability, Exome Sequencing, Medicine and Health Sciences, Genetics, Humans, Abnormalities, Multiple, Exome, DNA sequencing, lcsh:Science, Child, Mutation Detection, Clinical Genetics, Biology and life sciences, Radiology and Imaging, lcsh:R, Genetic Variation, Human Genetics, Sequence Analysis, DNA, Syndrome, Magnetic Resonance Imaging, Phenotype, Molecular biology techniques, Genetic Diseases, Face, Mutation, lcsh:Q, Female, Anatomy, Head, Research Article
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.

Published
2018

137. Novel VPS33B mutation in a patient with autosomal recessive keratoderma-ichthyosis-deafness syndrome

Author

Jens Schallner, Nataliya Di Donato, Martin W. Laass, Alrun Hotz, Evelin Schröck, Judith Fischer, Claus Gillitzer, Mario Menschikowski, Andreas Tzschach, Maja von der Hagen, Martin Smitka, Arne Jahn, and Svenja Alter

Subjects
0301 basic medicine, Male, medicine.medical_specialty, Microcephaly, Hearing loss, Hearing Loss, Sensorineural, Vesicular Transport Proteins, Genes, Recessive, Compound heterozygosity, Arthrogryposis–renal dysfunction–cholestasis syndrome, Short stature, 03 medical and health sciences, 0302 clinical medicine, Keratoderma, Palmoplantar, otorhinolaryngologic diseases, Genetics, medicine, Humans, Exocrine pancreatic insufficiency, Keratoderma, Child, Genetics (clinical), Genetic Association Studies, Chromosome Aberrations, Comparative Genomic Hybridization, business.industry, Ichthyosis, High-Throughput Nucleotide Sequencing, Syndrome, medicine.disease, Dermatology, Pedigree, 030104 developmental biology, Phenotype, 030220 oncology & carcinogenesis, Mutation, medicine.symptom, business, Biomarkers
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.

Published
2018

138. The power of the Mediator complex-Expanding the genetic architecture and phenotypic spectrum of MED12-related disorders

Author

Andreas Tzschach, W. Hachmann, C Jensen, Magdalena Nawara, Jarosław Poznański, K. Kahrizi, Jerzy Bal, Vera M. Kalscheuer, M Bienek, Andreas Dufke, H. Enders, Johannes R. Lemke, Monika Gos, T. Chilarska, Dorota Hoffman-Zacharska, Agnieszka Charzewska, Hossein Najmabadi, Barbara Oehl-Jaschkowitz, R. Maiwald, and Ewa Obersztyn

Subjects
0301 basic medicine, Male, Models, Molecular, Genotype, FG syndrome, X-linked intellectual disability, Protein Conformation, Mutation, Missense, Biology, MED12, 03 medical and health sciences, Structure-Activity Relationship, Lujan–Fryns syndrome, Genes, X-Linked, X Chromosome Inactivation, Exome Sequencing, Genetics, medicine, Missense mutation, Humans, Genetic Predisposition to Disease, Genetics (clinical), X chromosome, Alleles, Genetic Association Studies, Mediator Complex, Facies, Genetic Variation, medicine.disease, Genetic architecture, Pedigree, 030104 developmental biology, Phenotype, Amino Acid Substitution, Female, Single Palmar Crease
Abstract

MED12 is a member of the large Mediator complex that controls cell growth, development, and differentiation. Mutations in MED12 disrupt neuronal gene expression and lead to at least three distinct X-linked intellectual disability syndromes (FG, Lujan-Fryns, and Ohdo). Here, we describe six families with missense variants in MED12 (p.(Arg815Gln), p.(Val954Gly), p.(Glu1091Lys), p.(Arg1295Cys), p.(Pro1371Ser), and p.(Arg1148His), the latter being first reported in affected females) associated with a continuum of symptoms rather than distinct syndromes. The variants expanded the genetic architecture and phenotypic spectrum of MED12-related disorders. New clinical symptoms included brachycephaly, anteverted nares, bulbous nasal tip, prognathism, deep set eyes, and single palmar crease. We showed that MED12 variants, initially implicated in X-linked recessive disorders in males, may predict a potential risk for phenotypic expression in females, with no correlation of the X chromosome inactivation pattern in blood cells. Molecular modeling (Yasara Structure) performed to model the functional effects of the variants strongly supported the pathogenic character of the variants examined. We showed that molecular modeling is a useful method for in silico testing of the potential functional effects of MED12 variants and thus can be a valuable addition to the interpretation of the clinical and genetic findings.

Published
2018

139. Sema3a plays a role in the pathogenesis of CHARGE syndrome

Author

Peter Wehner, Oliver Bartsch, Janika Möller, Roser Ufartes, Ina Schanze, Monica T. Y. Wong, Conny M. A. van Ravenswaaij-Arts, Janina Schwenty-Lara, Annette Borchers, Andreas Tzschach, Luisa Freese, Christiane Neuhofer, Silke Pauli, and Clinical Cognitive Neuropsychiatry Research Program (CCNP)

Subjects
0301 basic medicine, Embryo, Nonmammalian, Kallmann syndrome, PHENOTYPIC SPECTRUM, medicine.disease_cause, Severity of Illness Index, Epigenesis, Genetic, Pathogenesis, AXON GUIDANCE, CHD7, CHARGE syndrome, Xenopus laevis, 0302 clinical medicine, HYPOGONADOTROPIC HYPOGONADISM, Promoter Regions, Genetic, Genetics (clinical), Genetics, Mutation, General Medicine, Phenotype, DNA-Binding Proteins, NEURAL CREST CELLS, Neural Crest, Homeobox Protein Nkx-2.5, MIGRATION, Biology, 03 medical and health sciences, Hypogonadotropic hypogonadism, KALLMANN-SYNDROME, medicine, Animals, Humans, Epigenetics, SHORT STATURE, Molecular Biology, Loss function, MUTATIONS, Genetic Complementation Test, DNA Helicases, Semaphorin-3A, Kallmann Syndrome, medicine.disease, Disease Models, Animal, 030104 developmental biology, HEK293 Cells, XENOPUS-EMBRYOS, CHARGE Syndrome, 030217 neurology & neurosurgery
Abstract

CHARGE syndrome is an autosomal dominant malformation disorder caused by heterozygous loss of function mutations in the chromatin remodeler CHD7. Chd7 regulates the expression of Sema3a, which also contributes to the pathogenesis of Kallmann syndrome, a heterogeneous condition with the typical features hypogonadotropic hypogonadism and an impaired sense of smell. Both features are common in CHARGE syndrome suggesting that SEMA3A may provide a genetic link between these syndromes. Indeed, we find evidence that SEMA3A plays a role in the pathogenesis of CHARGE syndrome. First, Chd7 is enriched at the Sema3a promotor in neural crest cells and loss of function of Chd7 inhibits Sema3a expression. Second, using a Xenopus CHARGE model, we show that human SEMA3A rescues Chd7 loss of function. Third, to elucidate if SEMA3A mutations in addition to CHD7 mutations also contribute to the severity of the CHARGE phenotype, we screened 31 CHD7-positive patients and identified one patient with a heterozygous non-synonymous SEMA3A variant, c. 2002A> G (p. I668V). By analyzing protein expression and processing, we did not observe any differences of the p. I668V variant compared with wild-type SEMA3A, while a pathogenic SEMA3A variant p. R66W recently described in a patient with Kallmann syndrome did affect protein secretion. Furthermore, the p. I668V variant, but not the pathogenic p. R66W variant, rescues Chd7 loss of function in Xenopus, indicating that the p. I668V variant is likely benign. Thus, SEMA3A is part of an epigenetic loop that plays a role in the pathogenesis of CHARGE syndrome, however, it seems not to act as a common direct modifier.

Published
2018

140. Novel truncating PPM1D mutation in a patient with intellectual disability

Author

Karl Hackmann, Laura Gieldon, Nataliya Di Donato, Monika Flury, Anne-Karin Kahlert, Arne Jahn, Johannes Wagner, Evelin Schröck, Andreas Tzschach, Andreas Rump, Joseph Porrmann, and Ines Eger

Subjects
0301 basic medicine, Male, Pain Threshold, Pediatrics, medicine.medical_specialty, Gastrointestinal Diseases, 030105 genetics & heredity, medicine.disease_cause, Short stature, 03 medical and health sciences, Exon, Intellectual Disability, Threshold of pain, Intellectual disability, Genetics, Medicine, Humans, Abnormalities, Multiple, Child, Genetics (clinical), Mutation, business.industry, General Medicine, Syndrome, medicine.disease, Developmental disorder, Protein Phosphatase 2C, 030104 developmental biology, Phenotype, High pain threshold, Vomiting, medicine.symptom, business
Abstract

Truncating mutations in the last and penultimate exons of the PPM1D gene were recently described as a cause for mild to severe intellectual disability in fourteen patients. Feeding difficulties, periods of fever and vomiting as well as a high pain threshold were described as additional characteristic features and the disorder was subsequently termed "intellectual developmental disorder with gastrointestinal difficulties and high pain threshold (IDDGIP)" in the OMIM database (MIM # 617450). Here we report on an additional patient carrying a novel de novo truncating mutation NM_003620.3: c.1535del, p.(Asn512Ilefs*2) in the last exon of PPM1D. While the patient showed features overlapping with the reported phenotype, such as a short stature and small hands and feet, he also presented with additional features like cleft lip and palate and an aberrant right subclavian artery. Notably, the patient did not have any gastrointestinal difficulties or periods of fever, indicating variability of the phenotype of patients with PPM1D mutations.

Published
2018

141. Skeletal abnormalities are common features in Aymé‐Gripp syndrome

Author

Niceta, Marcello, primary, Barbuti, Domenico, additional, Gupta, Neerja, additional, Ruggiero, Carlos, additional, Tizzano, Eduardo F., additional, Graul‐Neumann, Luitgard, additional, Barresi, Sabina, additional, Nishimura, Gen, additional, Valenzuela, Irene, additional, López‐Grondona, Fermina, additional, Fernandez‐Alvarez, Paula, additional, Leoni, Chiara, additional, Zweier, Christiane, additional, Tzschach, Andreas, additional, Stellacci, Emilia, additional, Del Fattore, Andrea, additional, Dallapiccola, Bruno, additional, Zampino, Giuseppe, additional, and Tartaglia, Marco, additional

Published
2019
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142. KCNC1 ‐related disorders: new de novo variants expand the phenotypic spectrum

Author

Park, Joohyun, primary, Koko, Mahmoud, additional, Hedrich, Ulrike B. S., additional, Hermann, Andreas, additional, Cremer, Kirsten, additional, Haberlandt, Edda, additional, Grimmel, Mona, additional, Alhaddad, Bader, additional, Beck‐Woedl, Stefanie, additional, Harrer, Merle, additional, Karall, Daniela, additional, Kingelhoefer, Lisa, additional, Tzschach, Andreas, additional, Matthies, Lars C., additional, Strom, Tim M., additional, Ringelstein, Erich Bernd, additional, Sturm, Marc, additional, Engels, Hartmut, additional, Wolff, Markus, additional, Lerche, Holger, additional, and Haack, Tobias B., additional

Published
2019
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143. Clinical Presentation of a Complex Neurodevelopmental Disorder Caused by Mutations in ADNP

Author

Van Dijck, Anke, primary, Vulto-van Silfhout, Anneke T., additional, Cappuyns, Elisa, additional, van der Werf, Ilse M., additional, Mancini, Grazia M., additional, Tzschach, Andreas, additional, Bernier, Raphael, additional, Gozes, Illana, additional, Eichler, Evan E., additional, Romano, Corrado, additional, Lindstrand, Anna, additional, Nordgren, Ann, additional, Kvarnung, Malin, additional, Kleefstra, Tjitske, additional, de Vries, Bert B.A., additional, Küry, Sébastien, additional, Rosenfeld, Jill A., additional, Meuwissen, Marije E., additional, Vandeweyer, Geert, additional, Kooy, R. Frank, additional, Bakshi, Madhura, additional, Wilson, Meredith, additional, Berman, Yemina, additional, Dickson, Rebecca, additional, Fransen, Erik, additional, Helsmoortel, Céline, additional, Van den Ende, Jenneke, additional, Van der Aa, Nathalie, additional, van de Wijdeven, Marina J., additional, Rosenblum, Jessica, additional, Monteiro, Fabíola, additional, Kok, Fernando, additional, Quercia, Nada, additional, Bowdin, Sarah, additional, Dyment, David, additional, Chitayat, David, additional, Alkhunaizi, Ebba, additional, Boonen, Susanne E., additional, Keren, Boris, additional, Jacquette, Aurelia, additional, Faivre, Laurence, additional, Bezieau, Stephane, additional, Isidor, Bertrand, additional, Rieß, Angelika, additional, Moog, Ute, additional, Lynch, Sally Ann, additional, McVeigh, Terri, additional, Elpeleg, Orly, additional, Smeland, Marie Falkenberg, additional, Fannemel, Madeleine, additional, van Haeringen, Arie, additional, Maas, Saskia M., additional, Veenstra-Knol, H.E., additional, Schouten, Meyke, additional, Willemsen, Marjolein H., additional, Marcelis, Carlo L., additional, Ockeloen, Charlotte, additional, van der Burgt, Ineke, additional, Feenstra, Ilse, additional, van der Smagt, Jasper, additional, Jezela-Stanek, Aleksandra, additional, Krajewska-Walasek, Malgorzata, additional, González-Lamuño, Domingo, additional, Anderlid, Britt-Marie, additional, Malmgren, Helena, additional, Nordenskjöld, Magnus, additional, Clement, Emma, additional, Hurst, Jane, additional, Metcalfe, Kay, additional, Mansour, Sahar, additional, Lachlan, Katherine, additional, Clayton-Smith, Jill, additional, Hendon, Laura G., additional, Abdulrahman, Omar A., additional, Morrow, Eric, additional, McMillan, Clare, additional, Gerdts, Jennifer, additional, Peeden, Joseph, additional, Schrier Vergano, Samantha A., additional, Valentino, Caitlin, additional, Chung, Wendy K., additional, Ozmore, Jillian R., additional, Bedrosian-Sermone, Sandra, additional, Dennis, Anna, additional, Treat, Kayla, additional, Hughes, Susan Starling, additional, Safina, Nicole, additional, Le Pichon, Jean-Baptiste, additional, McGuire, Marianne, additional, Infante, Elena, additional, Madan-Khetarpal, Suneeta, additional, Desai, Sonal, additional, Benke, Paul, additional, Krokosky, Alyson, additional, Cristian, Ingrid, additional, Baker, Laura, additional, Gripp, Karen, additional, Stessman, Holly A., additional, Eichenberger, Jacob, additional, Jayakar, Parul, additional, Pizzino, Amy, additional, Manning, Melanie Ann, additional, and Slattery, Leah, additional

Published
2019
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144. Mutation screening of ASMT, the last enzyme of the melatonin pathway, in a large sample of patients with Intellectual Disability

Author

Tzschach Andreas, Launay Jean-Marie, Delorme Richard, Van Esch Hilde, de Brouwer Arjan, Moreno Sarah, Jamain Stéphane, Dumaine Anne, Poirier Karine, Botros Hany, Pagan Cecile, Kalscheuer Vera, Lacombe Didier, Briault Sylvain, Laumonnier Frédéric, Raynaud Martine, van Bon Bregje W, Willemsen Marjolein H, Leboyer Marion, Chelly Jamel, and Bourgeron Thomas

Subjects
Internal medicine, RC31-1245, Genetics, QH426-470
Abstract

Abstract Background Intellectual disability (ID) is frequently associated with sleep disorders. Treatment with melatonin demonstrated efficacy, suggesting that, at least in a subgroup of patients, the endogenous melatonin level may not be sufficient to adequately set the sleep-wake cycles. Mutations in ASMT gene, coding the last enzyme of the melatonin pathway have been reported as a risk factor for autism spectrum disorders (ASD), which are often comorbid with ID. Thus the aim of the study was to ascertain the genetic variability of ASMT in a large cohort of patients with ID and controls. Methods Here, we sequenced all exons of ASMT in a sample of 361 patients with ID and 440 controls. We then measured the ASMT activity in B lymphoblastoid cell lines (BLCL) of patients with ID carrying an ASMT variant and compared it to controls. Results We could identify eleven variations modifying the protein sequence of ASMT (ID only: N13H, N17K, V171M, E288D; controls only: E61Q, D210G, K219R, P243L, C273S, R291Q; ID and controls: L298F) and two deleterious splice site mutations (IVS5+2T>C and IVS7+1G>T) only observed in patients with ID. We then ascertained ASMT activity in B lymphoblastoid cell lines from patients carrying the mutations and showed significantly lower enzyme activity in patients carrying mutations compared to controls (p = 0.004). Conclusions We could identify patients with deleterious ASMT mutations as well as decreased ASMT activity. However, this study does not support ASMT as a causative gene for ID since we observed no significant enrichment in the frequency of ASMT variants in ID compared to controls. Nevertheless, given the impact of sleep difficulties in patients with ID, melatonin supplementation might be of great benefit for a subgroup of patients with low melatonin synthesis.

Published
2011
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146. Novel VPS33B mutation in a patient with autosomal recessive keratoderma-ichthyosis-deafness syndrome

Author

Alter, Svenja, primary, Hotz, Alrun, additional, Jahn, Arne, additional, Di Donato, Nataliya, additional, Schröck, Evelin, additional, Smitka, Martin, additional, von der Hagen, Maja, additional, Schallner, Jens, additional, Menschikowski, Mario, additional, Gillitzer, Claus, additional, Laass, Martin W., additional, Fischer, Judith, additional, and Tzschach, Andreas, additional

Published
2018
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147. Tentative clinical diagnosis of Lujan-Fryns syndrome-A conglomeration of different genetic entities?

Author

Karl Hackmann, Sigrid Tinschert, Albrecht Kobelt, Evelin Schröck, Alma Kuechler, Andreas Tzschach, Tim Ripperger, Stefan A. Haas, Dagmar Wieczorek, Johannes R. Lemke, Andreas Rump, Jean-Pierre Fryns, Beate Albrecht, Vera M. Kalscheuer, Konrad Oexle, and Nataliya Di Donato

Subjects
Male, 0301 basic medicine, X-linked intellectual disability, Medizin, Marfan Syndrome, MED12, Craniofacial Abnormalities, 03 medical and health sciences, Genes, X-Linked, Lujan–Fryns syndrome, Intellectual Disability, Gene duplication, Intellectual disability, Genetics, Humans, Medicine, Abnormalities, Multiple, Genetics (clinical), Mediator Complex, business.industry, High-Throughput Nucleotide Sequencing, RNA-Binding Proteins, Karyotype, medicine.disease, Pedigree, 030104 developmental biology, Mutation, Mutation (genetic algorithm), Mental Retardation, X-Linked, Autism, Female, business, Acyltransferases
Abstract

The clinical diagnosis of Lujan-Fryns syndrome (LFS) comprises X-linked intellectual disability (XLID) with marfanoid habitus, distinct combination of minor facial anomalies and nasal speech. However the definition of syndrome was significantly broadened since the original report and implies ID with marfanoid habitus. Mutations of three genes (MED12, UPF3B, and ZDHHC9) have been reported in "broadly defined" LFS. We examined these genes in 28 individuals with a tentative clinical diagnosis of LFS but we did not identify any causative mutation. By molecular karyotyping we detected other disorders, i.e., Phelan-McDermid syndrome and 16p11.2 microduplication, each in one patient. One affected individual was carrier of a different recurrent duplication on 16p11.2 that has been reported several times to the DECIPHER and ISCA databases in individuals with autism, intellectual disability (ID), and developmental delay. It may represent a new duplication syndrome. We also identified previously unreported de novo duplication on chromosome 12p13.31 which we considered to be disease-causing. X-exome sequencing of four individuals revealed private or non-recurrent mutations in NKAP and LAS1L in one patient each. While LFS is defined as a form of XLID, there seem to be various conditions that have rather similar phenotypes. Therefore, the combination of ID and marfanoid habitus in a male patient is not sufficient for the diagnosis of LFS. We suggest that the diagnosis of LFS in patients with ID and marfanoid habitus should be made only in presence of specific facial features, nasal speech and obvious X-linked segregation of the disorder or an unambiguously pathogenic mutation in the MED12. (c) 2015 Wiley Periodicals, Inc.

Published
2015

148. Interstitial 1p32.1p32.3 deletion in a patient with multiple congenital anomalies

Author

Martin Kehrer, Anna Jauch, Michael Bonin, Andrea Bevot, Karin Schäferhoff, and Andreas Tzschach

Subjects
Male, Microcephaly, Candidate gene, Hearing loss, Nerve Tissue Proteins, Choanal atresia, Biology, Choanal Atresia, Corpus Callosum, Genetics, medicine, Humans, Abnormalities, Multiple, Hearing Loss, Agenesis of the corpus callosum, Genetic Association Studies, Genetics (clinical), Adaptor Proteins, Signal Transducing, Serine Endopeptidases, Infant, medicine.disease, Chromosomes, Human, Pair 1, Urogenital Abnormalities, Proprotein Convertases, Chromosome Deletion, Proprotein Convertase 9, medicine.symptom, Haploinsufficiency, SNP array, Ventriculomegaly
Abstract

Interstitial deletions encompassing chromosome bands 1p32.1p32.3 are rare. Only nine unrelated patients with partially overlapping 1p32.1p32.3 deletions of variable size and position have been reported to date. We report on a 17-month-old boy with choanal atresia, hearing loss, urogenital anomalies, and microcephaly in whom an interstitial de novo deletion of 6.4 Mb was detected in 1p32.1p32.3 (genomic position chr1:54,668,618-61,113,264 according to GRCh37/hg19). The deleted region harbors 31 RefSeq genes. Notable genes in the region are PCSK9, haploinsufficiency of which caused low LDL cholesterol plasma levels in the patient, and DAB1, which is a candidate gene for cognitive deficits, microcephaly, and cerebral abnormalities such as ventriculomegaly and agenesis of the corpus callosum. Choanal atresia, microcephaly, and severe hearing loss were previously not known to be associated with 1p32 deletions. Our reported patient thus broadens the spectrum of clinical findings in this chromosome region and further facilitates genotype-phenotype correlations. Additional patients with overlapping deletions and/or point mutations in genes of this region need to be identified to elucidate the role of individual genes for the complex clinical manifestations. © 2015 Wiley Periodicals, Inc.

Published
2015

149. Mutation update for Kabuki syndrome genes KMT2D and KDM6A and further delineation of X-linked Kabuki syndrome subtype 2

Author

Thomas Meitinger, Barbara Zoll, Bernd Wollnik, Michaela Thoenes, Hülya Kayserili, Peter Nürnberg, Isabelle Touitou, Sigrid Tinschert, Gökhan Yigit, Gareth Baynam, Dagmar Wieczorek, David Geneviève, Fabienne Giuliano, Jutta Becker, Umut Altunoglu, Tim M. Strom, Christian Netzer, Alain Verloes, Kim-Hanh Le Quan Sang, Nursel Elcioglu, Didier Lacombe, Bertrand Isidor, Guillaume Sarrabay, Nina Bögershausen, Stanislas Lyonnet, Yline Capri, Pelin Ozlem Simsek-Kiper, Gudrun Nürnberg, Honorine Kayirangwa, Koray Boduroğlu, Valérie Cormier-Daire, Aurélie Fabre, Andreas Tzschach, Elodie Sanchez, Carole Corsini, Mouna Barat-Houari, Vera Riehmer, Yun Li, Vincent Gatinois, Nataliya Di Donato, Damien Sanlaville, Boegershausen, Nina, Gatinois, Vincent, Riehmer, Vera, Kayserili, Huelya, Becker, Jutta, Thoenes, Michaela, Simsek-Kiper, Pelin OEzlem, Barat-Houari, Mouna, Elcioglu, Nursel H., Wieczorek, Dagmar, Tinschert, Sigrid, Sarrabay, Guillaume, Strom, Tim M., Fabre, Aurelie, Baynam, Gareth, Sanchez, Elodie, Nuernberg, Gudrun, Altunoglu, Umut, Capri, Yline, Isidor, Bertrand, Lacombe, Didier, Corsini, Carole, Cormier-Daire, Valerie, Sanlaville, Damien, Giuliano, Fabienne, Le Quan Sang, Kim-Hanh, Kayirangwa, Honorine, Nuernberg, Peter, Meitinger, Thomas, Boduroglu, Koray, Zoll, Barbara, Lyonnet, Stanislas, Tzschach, Andreas, Verloes, Alain, Di Donato, Nataliya, Touitou, Isabelle, Netzer, Christian, Li, Yun, Genevieve, David, Yigit, Goekhan, Wollnik, Bernd, University Medical Center Göttingen (UMG), Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), Cellules Souches, Plasticité Cellulaire, Médecine Régénératrice et Immunothérapies (IRMB), Université de Montpellier (UM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre Hospitalier Régional Universitaire [Montpellier] (CHRU Montpellier), University Hospital of Cologne [Cologne], Koç University, Faculty of Medicine [Hacettepe University], Hacettepe University = Hacettepe Üniversitesi, CHU Montpellier, Marmara University [Kadıköy - İstanbul], University of Dusseldorf, Technische Universität Dresden = Dresden University of Technology (TU Dresden), Innsbruck Medical University [Austria] (IMU), Technische Universität Munchen - Université Technique de Munich [Munich, Allemagne] (TUM), Helmholtz-Zentrum München (HZM), Université de Montpellier (UM), King-Edward Memorial Hospital, Perth, Australia., The University of Western Australia (UWA), University of Cologne, Departement of Genetics [University of Istanbul], Istanbul University, Centre de Référence des Maladies Endocriniennes Rares de la Croissance [APHP Robert Debré], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Robert Debré-Université de Paris (UP), Centre hospitalier universitaire de Nantes (CHU Nantes), CHU Bordeaux [Bordeaux], Laboratoire Maladies Rares: Génétique et Métabolisme (Bordeaux) (U1211 INSERM/MRGM), Université de Bordeaux (UB)-Groupe hospitalier Pellegrin-Institut National de la Santé et de la Recherche Médicale (INSERM), Imagine - Institut des maladies génétiques (IHU) (Imagine - U1163), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université de Paris (UP), CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Centre de recherche en neurosciences de Lyon (CRNL), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Université Jean Monnet [Saint-Étienne] (UJM)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Centre Hospitalier Universitaire de Nice (CHU Nice), Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Hôpital Robert Debré-Université Paris Diderot - Paris 7 (UPD7), and Département de génétique médicale, maladies rares et médecine personnalisée [CHRU Montpellier]

Subjects
Male, 0301 basic medicine, [SDV]Life Sciences [q-bio], LARGE COHORT, Kdm6a, Kdm6c, Kmt2d, Kabuki Syndrome, Mll2, Uty, PHENOTYPE, medicine.disease_cause, Genes, X-Linked, UTY, Turner syndrome, Intellectual disability, KDM6C, DEMETHYLASE UTX, KDM6A, Genetics (clinical), Histone Demethylases, Genetics, Mutation, Noonan Syndrome, KMT2D, Nuclear Proteins, Phenotype, FAMILY, Neoplasm Proteins, 3. Good health, DNA-Binding Proteins, Vestibular Diseases, MLL2, Female, Maternal Inheritance, medicine.symptom, Biology, PATIENT, Short stature, 03 medical and health sciences, medicine, Humans, Abnormalities, Multiple, Genetic Predisposition to Disease, Gene, SPECTRUM, Kabuki syndrome, IDENTIFICATION, DELETION, Molecular genetic testing, Sequence Analysis, DNA, medicine.disease, Hematologic Diseases, 030104 developmental biology, DE-NOVO MUTATIONS, Face
Abstract

Kabuki syndrome (KS) is a rare but recognizable condition that consists of a characteristic face, short stature, various organ malformations and a variable degree of intellectual disability. Mutations in KMT2D have been identified as the main cause for KS, while mutations in KDM6A are a much less frequent cause. Here, we report a mutation screening in a case series of 347 unpublished patients, in which we identified 12 novel KDM6A mutations (KS type 2) and 208 mutations in KMT2D (KS type 1), 132 of them novel. Two of the KDM6A mutations were maternally inherited and 9 were shown to be de novo. We give an up-to-date overview of all published mutations for the two Kabuki syndrome genes and point out possible mutation hot spots and strategies for molecular genetic testing. We also report the clinical details for 11 patients with KS type 2, summarize the published clinical information, specifically with a focus on the less well defined X-linked KS type 2, and comment on phenotype-genotype correlations as well as sex-specific phenotypic differences. Finally, we also discuss a possible role of KDM6A in Kabuki-like Turner syndrome and report a mutation screening of KDM6C (UTY) in male KS patients. This article is protected by copyright. All rights reserved.

Published
2016

150. Next-generation panel sequencing identifies

Author

Laura, Gieldon, Jimmy Rusdian, Masjkur, Susan, Richter, Roland, Därr, Marcos, Lahera, Daniela, Aust, Silke, Zeugner, Andreas, Rump, Karl, Hackmann, Andreas, Tzschach, Andrzej, Januszewicz, Aleksander, Prejbisz, Graeme, Eisenhofer, Evelin, Schrock, Mercedes, Robledo, and Barbara, Klink

Subjects
Adult, Male, Neurofibromatosis 1, Base Sequence, Epinephrine, Adrenal Gland Neoplasms, High-Throughput Nucleotide Sequencing, Prostatic Neoplasms, Multiple Endocrine Neoplasia Type 2a, Pheochromocytoma, Middle Aged, Carcinoma, Neuroendocrine, Normetanephrine, Pedigree, Paraganglioma, Codon, Nonsense, Genes, Neurofibromatosis 1, Hypertension, Humans, Female, Genetic Predisposition to Disease, Thyroid Neoplasms, Germ-Line Mutation, Metanephrine
Abstract

Our objective was to improve molecular diagnostics in patients with hereditary pheochromocytoma and paraganglioma (PPGL) by using next-generation sequencing (NGS) multi-gene panel analysis. Derived from this study, we here present three cases that were diagnosed withWe performed genetic analysis of known tumor predisposition genes, includingGenetic analysis was performed using NGS (TruSight Cancer Panel/customized panel by Illumina) for analyzing patients' blood and tumor samples. Validation was carried out by Sanger sequencing.Within our cohort, three patients, who were identified to carry pathogenicSince phenotypical presentation of NF1 is highly variable, we suggest analysis of the

Published
2017

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