Your search keyword '"Astrid S. Plomp"' showing total 31 results

1. Variants in the SK2 channel gene (KCNN2) lead to dominant neurodevelopmental movement disorders

Author

Sylvia A. Huisman, Fanny Mochel, Christel Depienne, Roberto Canitano, Sara S. Cathey, Kimberly Nugent, Konrad Platzer, Katherine L. Helbig, Deepali N. Shinde, Diego Lopergolo, Sandra Yang, Francesca Mari, Astrid S. Plomp, Berten Ceulemans, Sarah Weckhuysen, Agnès Rastetter, Nadja Ehmke, Julien Thevenon, Rami Abou Jamra, Elisa Benetti, Daniela del Gaudio, Elizabeth Roeder, Darrel Waggoner, Raymond J. Louie, Shawn Kacker, Manuel Holtgrewe, Alessandra Renieri, Susanne B. Kamphausen, Denise Horn, Ange Line Bruel, Carine Dalle, Quinten Waisfisz, Frank J. Kaiser, Golder N. Wilson, Human genetics, Pediatric surgery, Amsterdam Reproduction & Development (AR&D), Human Genetics, and Paediatric Genetics

Subjects

Male, 0301 basic medicine, Patch-Clamp Techniques, Movement disorders, Small-Conductance Calcium-Activated Potassium Channels, Medizin, Haploinsufficiency, 0302 clinical medicine, Missense mutation, Exome, Child, Frameshift Mutation, Exome sequencing, Genetics, Movement Disorders, Learning Disabilities, Middle Aged, Magnetic Resonance Imaging, White Matter, developmental delay, Child, Preschool, medicine.symptom, SK2 channel, KCNN2, ataxia, tremor, Adolescent, Adult, Cerebellar Ataxia, Electrophysiological Phenomena, Genetic Variation, Humans, Intellectual Disability, Mutation, Missense, Neurodevelopmental Disorders, Young Adult, Ataxia, Biology, Frameshift mutation, 03 medical and health sciences, medicine, Preschool, Cerebellar ataxia, 030104 developmental biology, Mutation, Neurology (clinical), Missense, 030217 neurology & neurosurgery

Abstract

KCNN2 encodes the small conductance calcium-activated potassium channel 2 (SK2). Rodent models with spontaneous Kcnn2 mutations show abnormal gait and locomotor activity, tremor and memory deficits, but human disorders related to KCNN2 variants are largely unknown. Using exome sequencing, we identified a de novo KCNN2 frameshift deletion in a patient with learning disabilities, cerebellar ataxia and white matter abnormalities on brain MRI. This discovery prompted us to collect data from nine additional patients with de novo KCNN2 variants (one nonsense, one splice site, six missense variants and one in-frame deletion) and one family with a missense variant inherited from the affected mother. We investigated the functional impact of six selected variants on SK2 channel function using the patch-clamp technique. All variants tested but one, which was reclassified to uncertain significance, led to a loss-of-function of SK2 channels. Patients with KCNN2 variants had motor and language developmental delay, intellectual disability often associated with early-onset movement disorders comprising cerebellar ataxia and/or extrapyramidal symptoms. Altogether, our findings provide evidence that heterozygous variants, likely causing a haploinsufficiency of the KCNN2 gene, lead to novel autosomal dominant neurodevelopmental movement disorders mirroring phenotypes previously described in rodents.

Published

2020

2. Molecular inversion probe-based sequencing of ush2a exons and splice sites as a cost-effective screening tool in ush2 and arrp cases

Author

Dominika Oziębło, Hanka Venselaar, Helger G. Yntema, Jaap Oostrik, G. Jane Farrar, L. Ingeborgh van den Born, Susanne Roosing, Frans P.M. Cremers, M Imran Khan, Ronald J.E. Pennings, Janine Reurink, Jacoline B. ten Brink, Hannie Kremer, Arthur A.B. Bergen, Monika Ołdak, Tuula Rinne, Marco Aben, Adrian Dockery, Erwin van Wijk, Astrid S Plomp, Human Genetics, ANS - Complex Trait Genetics, and AR&D - Amsterdam Reproduction & Development

Subjects

0301 basic medicine, Cost-Benefit Analysis, Usher syndrome, 030105 genetics & heredity, Molecular Inversion Probe, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], USH2A, Exon, Copy-number variation, Biology (General), Spectroscopy, Genetics, Extracellular Matrix Proteins, medicine.diagnostic_test, Molecular inversion probes (MIPs), Exons, General Medicine, Usher syndrome type IIa, Computer Science Applications, Retinitis pigmentosa, Chemistry, Usher Syndromes, DNA Copy Number Variations, QH301-705.5, Genetic counseling, Biology, Polymorphism, Single Nucleotide, Article, Catalysis, Inorganic Chemistry, 03 medical and health sciences, medicine, otorhinolaryngologic diseases, Humans, Physical and Theoretical Chemistry, QD1-999, Molecular Biology, Genetic testing, Whole genome sequencing, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Base Sequence, Organic Chemistry, Sequence Analysis, DNA, medicine.disease, eye diseases, 030104 developmental biology, Molecular Probes, RNA Splice Sites, Nanomedicine Radboud Institute for Molecular Life Sciences [Radboudumc 19], Gene Deletion

Abstract

A substantial proportion of subjects with autosomal recessive retinitis pigmentosa (arRP) or Usher syndrome type II (USH2) lacks a genetic diagnosis due to incomplete USH2A screening in the early days of genetic testing. These cases lack eligibility for optimal genetic counseling and future therapy. USH2A defects are the most frequent cause of USH2 and are also causative in individuals with arRP. Therefore, USH2A is an important target for genetic screening. The aim of this study was to assess unscreened or incompletely screened and unexplained USH2 and arRP cases for (likely) pathogenic USH2A variants. Molecular inversion probe (MIP)-based sequencing was performed for the USH2A exons and their flanking regions, as well as published deep-intronic variants. This was done to identify single nucleotide variants (SNVs) and copy number variants (CNVs) in 29 unscreened or partially pre-screened USH2 and 11 partially pre-screened arRP subjects. In 29 out of these 40 cases, two (likely) pathogenic variants were successfully identified. Four of the identified SNVs and one CNV were novel. One previously identified synonymous variant was demonstrated to affect pre-mRNA splicing. In conclusion, genetic diagnoses were obtained for a majority of cases, which confirms that MIP-based sequencing is an effective screening tool for USH2A. Seven unexplained cases were selected for future analysis with whole genome sequencing.

Published

2021

3. Establishing the phenotypic spectrum of ZTTK syndrome by analysis of 52 individuals with variants in SON

Author

Ingrid M.B.H. van de Laar, Eline A. Verberne, Kim M G Truijen, Marlon E F Wilsterman, Mieke M. van Haelst, Jung-Hyun Kim, Margje Sinnema, Erica H. Gerkes, Kathleen M Collins, Zahide Alaçam, Kristin Lindstrom, Alexander J. M. Dingemans, Hermine E. Veenstra-Knol, Mathilde Nizon, Lisenka E.L.M. Vissers, Anneke T. Vulto-van Silfhout, Astrid S Plomp, Laurence Faivre, Bert B.A. de Vries, Edyta Heropolitańska-Pliszka, Rani Sachdev, James Pauling, Eun-Young Erin Ahn, Jon Skranes, Caroline Racine, Human Genetics, Graduate School, MUMC+: DA KG Polikliniek (9), RS: FHML non-thematic output, Clinical Genetics, Human genetics, Amsterdam Neuroscience - Complex Trait Genetics, and Amsterdam Reproduction & Development (AR&D)

Subjects

Developmental Disabilities, Mutation, Missense, Biology, Article, INTELLECTUAL-DISABILITY, Minor Histocompatibility Antigens, SDG 3 - Good Health and Well-being, Intellectual Disability, Human Phenotype Ontology, Intellectual disability, Genetics, medicine, Missense mutation, Humans, Child, Gene, Genetics (clinical), Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Comment, Phenotypic trait, Cognitive artificial intelligence, Syndrome, medicine.disease, Phenotype, DNA-Binding Proteins, RNA splicing, Haploinsufficiency

Abstract

Contains fulltext : 248367.pdf (Publisher’s version ) (Closed access) Zhu-Tokita-Takenouchi-Kim (ZTTK) syndrome, an intellectual disability syndrome first described in 2016, is caused by heterozygous loss-of-function variants in SON. Its encoded protein promotes pre-mRNA splicing of many genes essential for development. Whereas individual phenotypic traits have previously been linked to erroneous splicing of SON target genes, the phenotypic spectrum and the pathogenicity of missense variants have not been further evaluated. We present the phenotypic abnormalities in 52 individuals, including 17 individuals who have not been reported before. In total, loss-of-function variants were detected in 49 individuals (de novo in 47, inheritance unknown in 2), and in 3, a missense variant was observed (2 de novo, 1 inheritance unknown). Phenotypic abnormalities, systematically collected and analyzed in Human Phenotype Ontology, were found in all organ systems. Significant inter-individual phenotypic variability was observed, even in individuals with the same recurrent variant (n = 13). SON haploinsufficiency was previously shown to lead to downregulation of downstream genes, contributing to specific phenotypic features. Similar functional analysis for one missense variant, however, suggests a different mechanism than for heterozygous loss-of-function. Although small in numbers and while pathogenicity of these variants is not certain, these data allow for speculation whether de novo missense variants cause ZTTK syndrome via another mechanism, or a separate overlapping syndrome. In conclusion, heterozygous loss-of-function variants in SON define a recognizable syndrome, ZTTK, associated with a broad, severe phenotypic spectrum, characterized by a large inter-individual variability. These observations provide essential information for affected individuals, parents, and healthcare professionals to ensure appropriate clinical management. 11 p.

Published

2021

4. Further delineation of Malan syndrome

Author

Ann Sophie Kaiser, Fowzan S. Alkuraya, Trevor Cole, Paul A. Mulder, Pablo Lapunzina, Inge B. Mathijssen, Jan Liebelt, Claire G. Salter, Pierre Sarda, Jill A. Fahrner, Manuela Priolo, Dorothee Neubauer, Nursel Elcioglu, Denny Schanze, Katrin Tatton-Brown, Sarah F. Smithson, Jair Tenorio, Thomas E. Neumann, Charles Shaw-Smith, Letizia Pintomalli, Shane McKee, Emilia K. Bijlsma, Sally J. Davies, Sue Price, Rajesh V. Thakker, Noelia García González, Rita Valdez, Sally Ann Lynch, Nataliya Di Donato, Arie van Haeringen, Astrid S. Plomp, Inés Hernández Acero, Ilka Huber, Marcela Zollino, Laura Bernardini, Raoul C.M. Hennekam, Martin Zenker, Mohnish Suri, Mabel Segovia, Johanna M. van Hagen, Ghayda Mirzaa, Leonie A. Menke, Kreepa Kooblall, Arveen Kamath, Christine Coubes, I. Dapia, Corrado Mammì, Alison Foster, Tara Montgomery, Pedro Arias, Fernando Santos-Simarro, Maria Iascone, Maria Antonietta Pisanti, Saskia M. Maas, ANS - Cellular & Molecular Mechanisms, Graduate School, ARD - Amsterdam Reproduction and Development, Human Genetics, Paediatric Genetics, General Paediatrics, APH - Quality of Care, Amsterdam Reproduction & Development (AR&D), Human genetics, and Pediatric surgery

Subjects

0301 basic medicine, Male, Pediatrics, Developmental Disabilities, phenotype-genotype, Craniofacial Abnormalities, Epilepsy, Marshall–Smith syndrome, Septo-Optic Dysplasia, Intellectual disability, Child, Genetics (clinical), Research Articles, biology, Sotos syndrome, Exons, NFIX, Child, Preschool, Female, medicine.symptom, Chromosome Deletion, Hand Deformities, Congenital, Research Article, Adult, medicine.medical_specialty, Prominent forehead, phenotype‐genotype, Adolescent, phenotype, Mutation, Missense, 03 medical and health sciences, Young Adult, Intellectual Disability, Genetics, medicine, Congenital Hypothyroidism, Humans, Abnormalities, Multiple, Malan syndrome, Weaver syndrome, Bone Diseases, Developmental, Macrocephaly, medicine.disease, Marshall-Smith syndrome, Megalencephaly, NFI Transcription Factors, 030104 developmental biology, Marshall‐Smith syndrome, biology.protein

Abstract

Malan syndrome is an overgrowth disorder described in a limited number of individuals. We aim to delineate the entity by studying a large group of affected individuals. We gathered data on 45 affected individuals with a molecularly confirmed diagnosis through an international collaboration and compared data to the 35 previously reported individuals. Results indicate that height is > 2 SDS in infancy and childhood but in only half of affected adults. Cardinal facial characteristics include long, triangular face, macrocephaly, prominent forehead, everted lower lip and prominent chin. Intellectual disability is universally present, behaviorally anxiety is characteristic. Malan syndrome is caused by deletions or point mutations of NFIX clustered mostly in exon 2. There is no genotype-phenotype correlation except for an increased risk for epilepsy with 19p13.2 microdeletions. Variants arose de novo, except in one family in which mother was mosaic. Variants causing Malan and Marshall-Smith syndrome can be discerned by differences in the site of stop codon formation. We conclude that Malan syndrome has a well recognizable phenotype that usually can be discerned easily from Marshall-Smith syndrome but rarely there is some overlap. Differentiation from Sotos and Weaver syndrome can be made by clinical evaluation only. This article is protected by copyright.

Published

2018

5. The common ABCA4 variant p.Asn1868ile shows nonpenetrance and variable expression of stargardt disease when present in trans with severe variants

Author

Klaus Rohrschneider, Saskia D. van der Velde-Visser, Ellen A.W. Blokland, Dorien Lugtenberg, L. Ingeborgh van den Born, Nathalie M. Bax, Frans P.M. Cremers, Carel B. Hoyng, Marlie H M Jacobs-Camps, Joke B. G. M. Verheij, Stéphanie S. Cornelis, Caroline C W Klaver, Riccardo Sangermano, Camiel J. F. Boon, Astrid S. Plomp, Alberta A H J Thiadens, Jan-Willem R. Pott, Esmee H. Runhart, Susanne Roosing, Human Genetics, ANS - Complex Trait Genetics, Ophthalmology, and Epidemiology

Subjects

0301 basic medicine, Proband, DEEP-INTRONIC VARIANTS, ABCA4, PROGRESSION, PHENOTYPES, CONE-ROD DYSTROPHY, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Variable Expression, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, RETINITIS-PIGMENTOSA, REVEALS, medicine, Allele, retinal dystrophy, Allele frequency, MUTATION, Genetics, biology, nonpenetrance, medicine.disease, Penetrance, Stargardt disease, modifiers, 030104 developmental biology, biology.protein, GENE ABCR, Age of onset, ABCA4 protein

Abstract

PURPOSE. To assess the occurrence and the disease expression of the common p.Asn1868Ile variant in patients with Stargardt disease (STGD1) harboring known, monoallelic causal ABCA4 variants.METHODS. The coding and noncoding regions of ABCA4 were sequenced in 67 and 63 STGD1 probands respectively, harboring monoallelic ABCA4 variants. In case p.Asn1868Ile was detected, segregation analysis was performed whenever possible. Probands and affected siblings harboring p.Asn1868Ile without additional variants in cis were clinically evaluated retrospectively. Two asymptomatic siblings carrying the same ABCA4 variants as their probands were clinically examined. The penetrance of p.Asn1868Ile was calculated using allele frequency data of ABCA4 variants in non-Finnish European individuals.RESULTS. The p.Asn1868Ile variant was found in cis with known variants in 14/67 probands. In 27/67 probands, we identified p.Asn1868Ile without additional variants in cis, in combination with known, mainly severe ABCA4 variants. In 23/27 probands, the trans configuration was established. Among 27 probands and 6/7 STGD1 siblings carrying p.Asn1868Ile, 42% manifested late-onset disease (> 44 years). We additionally identified four asymptomatic relatives carrying a combination of a severe variant and p.Asn1868Ile; ophthalmologic examination in two persons did not reveal STGD1. Based on ABCA4 allele frequency data, we conservatively estimated the penetrance of p.Asn1868Ile, when present in trans with a severe variant, to be below 5%.CONCLUSIONS. A significant fraction of genetically unexplained STGD1 cases carries p.Asn1868Ile as a second variant. Our findings suggest exceptional differences in disease expression or even nonpenetrance of this ABCA4 variant, pointing toward an important role for genetic or environmental modifiers in STGD1.

Published

2018

6. The diagnostic yield of whole-exome sequencing targeting a gene panel for hearing impairment in The Netherlands

Author

Ilse Feenstra, Marieke F. van Dooren, Marie José H. Van Den Boogaard, Rolph Pfundt, Stefan H. Lelieveld, Celia Zazo Seco, Henricus P. M. Kunst, Ilse J. de Wijs, Christian Gilissen, Saskia M. Maas, Arjan C. Houweling, Saskia Tamminga, Astrid S Plomp, Steven Castelein, Helger G. Yntema, Margit Schraders, Els K. Vanhoutte, Ronald J.C. Admiraal, Sarina G. Kant, Suzanna G.M. Frints, Hans Scheffer, Christa M. De Geus, Pia A. M. de Koning Gans, Jiddeke M. van de Kamp, Jayne Y. Hehir-Kwa, Ronald J.E. Pennings, Mieke Wesdorp, Hannie Kremer, Marcel R. Nelen, Lies H. Hoefsloot, Human genetics, AGEM - Endocrinology, metabolism and nutrition, AGEM - Inborn errors of metabolism, Amsterdam Neuroscience - Complex Trait Genetics, APH - Quality of Care, ACS - Atherosclerosis & ischemic syndromes, Clinical Genetics, MUMC+: DA KG Bedrijfsbureau (9), RS: GROW - R4 - Reproductive and Perinatal Medicine, Klinische Genetica, MUMC+: DA KG Polikliniek (9), Human Genetics, and Paediatric Genetics

Subjects

0301 basic medicine, MYO15A, 030105 genetics & heredity, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Connexins, Exome, Copy-number variation, MUTATION, Genetics (clinical), Exome sequencing, Netherlands, Genetics, COPY NUMBER VARIANTS, Extracellular Matrix Proteins, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], EAR, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], Connexin 26, Intercellular Signaling Peptides and Proteins, Neurodevelopmental disorders Radboud Institute for Molecular Life Sciences [Radboudumc 7], DEAFNESS, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9], STRC, medicine.medical_specialty, DNA Copy Number Variations, OTOGELIN, Genetic counseling, Biology, Myosins, GPI-Linked Proteins, FREQUENCY, Article, 03 medical and health sciences, Molecular genetics, Journal Article, medicine, Humans, Genetic Testing, Sensory disorders Radboud Institute for Molecular Life Sciences [Radboudumc 12], Hearing Loss, SPECTRUM, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Myosin Heavy Chains, IDENTIFICATION, Genetic heterogeneity, Other Research Radboud Institute for Health Sciences [Radboudumc 0], Membrane Proteins, Sequence Analysis, DNA, 030104 developmental biology

Abstract

Contains fulltext : 169850.pdf (Publisher’s version ) (Closed access) Hearing impairment (HI) is genetically heterogeneous which hampers genetic counseling and molecular diagnosis. Testing of several single HI-related genes is laborious and expensive. In this study, we evaluate the diagnostic utility of whole-exome sequencing (WES) targeting a panel of HI-related genes. Two hundred index patients, mostly of Dutch origin, with presumed hereditary HI underwent WES followed by targeted analysis of an HI gene panel of 120 genes. We found causative variants underlying the HI in 67 of 200 patients (33.5%). Eight of these patients have a large homozygous deletion involving STRC, OTOA or USH2A, which could only be identified by copy number variation detection. Variants of uncertain significance were found in 10 patients (5.0%). In the remaining 123 cases, no potentially causative variants were detected (61.5%). In our patient cohort, causative variants in GJB2, USH2A, MYO15A and STRC, and in MYO6 were the leading causes for autosomal recessive and dominant HI, respectively. Segregation analysis and functional analyses of variants of uncertain significance will probably further increase the diagnostic yield of WES.

Published

2017

7. Equivalent missense variant in the FOXP2 and FOXP1 transcription factors causes distinct neurodevelopmental disorders

Author

Noriko Miyake, Emilia K. Bijlsma, Claudia A. L. Ruivenkamp, Pelagia Deriziotis, Hirotomo Saitsu, Simon E. Fisher, Marielle Alders, Elliot Sollis, Astrid S. Plomp, Nobuhiko Okamoto, Naomichi Matsumoto, Mariëtte J.V. Hoffer, ARD - Amsterdam Reproduction and Development, Human Genetics, Other Research, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, ACS - Amsterdam Cardiovascular Sciences, and ACS - Pulmonary hypertension & thrombosis

Subjects

Male, 0301 basic medicine, Neuroinformatics, Genotype, Developmental Disabilities, FOXP2, Mutation, Missense, Gene Expression, FOXP1, Biology, medicine.disease_cause, Cell Line, 03 medical and health sciences, Genes, Reporter, Loss of Function Mutation, Intellectual Disability, Exome Sequencing, Genetics, medicine, Humans, Missense mutation, Protein Interaction Domains and Motifs, Global developmental delay, Child, Transcription factor, Genetic Association Studies, Genetics (clinical), Mutation, functional characterization, Forkhead Transcription Factors, medicine.disease, Magnetic Resonance Imaging, Phenotype, neurodevelopmental disorder, Repressor Proteins, Protein Transport, 030104 developmental biology, Amino Acid Substitution, Child, Preschool, Childhood apraxia of speech, Female

Abstract

The closely related paralogues FOXP2 and FOXP1 encode transcription factors with shared functions in the development of many tissues, including the brain. However, while mutations in FOXP2 lead to a speech/language disorder characterized by childhood apraxia of speech (CAS), the clinical profile of FOXP1 variants includes a broader neurodevelopmental phenotype with global developmental delay, intellectual disability, and speech/language impairment. Using clinical whole-exome sequencing, we report an identical de novo missense FOXP1 variant identified in three unrelated patients. The variant, p.R514H, is located in the forkhead-box DNA-binding domain and is equivalent to the well-studied p.R553H FOXP2 variant that cosegregates with CAS in a large UK family. We present here for the first time a direct comparison of the molecular and clinical consequences of the same mutation affecting the equivalent residue in FOXP1 and FOXP2. Detailed functional characterization of the two variants in cell model systems revealed very similar molecular consequences, including aberrant subcellular localization, disruption of transcription factor activity, and deleterious effects on protein interactions. Nonetheless, clinical manifestations were broader and more severe in the three cases carrying the p.R514H FOXP1 variant than in individuals with the p.R553H variant related to CAS, highlighting divergent roles of FOXP2 and FOXP1 in neurodevelopment.

Published

2017

8. Pathogenic effect of a TGFBR1 mutation in a family with Loeys–Dietz syndrome

Author

Daniela Q.C.M. Barge-Schaapveld, Luc Cozijnsen, Natalija Bogunovic, Hans W.M. Niessen, G. Pals, J. G. Post, Astrid S Plomp, Dimitra Micha, Marie-José Goumans, Kak K. Yeung, Graduate School, ACS - Heart failure & arrhythmias, ACS - Pulmonary hypertension & thrombosis, Human Genetics, Human genetics, Physiology, Surgery, ACS - Atherosclerosis & ischemic syndromes, Cardio-thoracic surgery, Pathology, Amsterdam Movement Sciences - Restoration and Development, Amsterdam Reproduction & Development (AR&D), and ACS - Microcirculation

Subjects

0301 basic medicine, Adult, Male, Pathology, medicine.medical_specialty, Myogenic differentiation, Loeys–Dietz syndrome, lcsh:QH426-470, Myogenic transdifferentiation of fibroblasts, Smooth muscle-like cells, Receptor, Transforming Growth Factor-beta Type I, 030105 genetics & heredity, Polymorphism, Single Nucleotide, 03 medical and health sciences, medicine, MYH11, Genetics, Humans, In patient, Genetics(clinical), TGFBR1 mutation, Molecular Biology, Genetics (clinical), Thoracic aortic aneurysm and aortic dissection, biology, Myosin Heavy Chains, business.industry, Transdifferentiation, Original Articles, Fibroblasts, Middle Aged, medicine.disease, Pathogenicity, Loeys-Dietz syndrome, Actins, Pedigree, lcsh:Genetics, 030104 developmental biology, Smooth muscle‐like cells, Mutation (genetic algorithm), Cell Transdifferentiation, biology.protein, Female, Original Article, ACTA2, business

Abstract

Background Thoracic aortic aneurysms and dissections (TAAD) may have a heritable cause in up to 20% of cases. We aimed to investigate the pathogenic effect of a TGFBR1 mutation in relation to TAAD. Methods Co‐segregation analysis was performed followed by functional investigations, including myogenic transdifferentiation. Results The c.1043G>A TGFBR1 mutation was found in the index patient, in a deceased brother, and in five presymptomatic family members. Evidence for pathogenicity was found by the predicted damaging effect of this mutation and the co‐segregation in the family. Functional analysis with myogenic transdifferentiation of dermal fibroblasts to smooth muscle‐like cells, revealed increased myogenic differentiation in patient cells with the TGFBR1 mutation, shown by a higher expression of myogenic markers ACTA2, MYH11 and CNN1 compared to cells from healthy controls. Conclusion Our findings confirm the pathogenic effect of the TGFBR1 mutation in causing TAAD in Loeys–Dietz syndrome and show increased myogenic differentiation of patient fibroblasts.

Published

2019

9. Phenotype and genotype in 103 patients with tricho-rhino-phalangeal syndrome

Author

Daniel R. Carvalho, Marcel M.A.M. Mannens, Katalin Szakszon, Nataliya Di Donato, Karin van der Tuin, Lilian Bomme Ousager, Gemma Poke, Jacek Pilch, Adam Shaw, Joke B. G. M. Verheij, Inge B. Mathijssen, Elga Fabia Belligni, Hermann-Josef Lüdecke, Anneke Maat-Kievit, Livia Garavelli, Anna Latos-Bielenska, A. Jeannette M. Hoogeboom, Johanna C. Herkert, Marleen Simon, Ton van Essen, Nicolette S. den Hollander, Anna Poluha, Margharita Silengo, Sabine Grønborg, Johanna M. van Hagen, Edit Polonkai, Astrid S. Plomp, Antony van der Steen, Cinzia Magnani, Connie T.R.M. Stumpel, Stella A. de Man, Jenneke van den Ende, Elisa Biamino, Hennie Bikker, Saskia M. Maas, Carlo Marcelis, Claudine Rieubland, Magdalena Badura-Stronka, Raoul C.M. Hennekam, Ellen Otten, Jan-Maarten Cobben, Renata Posmyk, Elisabeth Steichen, Arie van Haeringen, Maria Teresa Bonati, Aleksander Jamsheer, Maartje Nielsen, RS: GROW - Developmental Biology, RS: GROW - R4 - Reproductive and Perinatal Medicine, Human genetics, Other Research, Clinical Genetics, Human Genetics, Paediatric Genetics, ACS - Amsterdam Cardiovascular Sciences, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, ARD - Amsterdam Reproduction and Development, ANS - Amsterdam Neuroscience, and APH - Amsterdam Public Health

Subjects

Male, Medizin, Review, Tricho-rhino-phalangeal syndrome, Langer–Giedion syndrome, Exon, TRP-I, TRPS1, RHINO-PHALANGEAL SYNDROME, Genotype, Missense mutation, Child, LANGER-GIEDION-SYNDROME, Genetics (clinical), ZINC-FINGER PROTEIN, Orvostudományok, General Medicine, Anatomy, Middle Aged, EXT1, Phenotype, DNA-Binding Proteins, Child, Preschool, Female, SYNDROME TYPE-I, Haploinsufficiency, TIBIAL HEMIMELIA, Adult, animal structures, Adolescent, Langer-Giedion syndrome, Mutation, Missense, Natural history, INTERSTITIAL DELETION, Biology, Klinikai orvostudományok, Young Adult, Genetics, medicine, Humans, Tricho–rhino–phalangeal syndrome, Abnormalities, Multiple, Craniofacial, RAD21, Genetic Association Studies, Aged, MUTATIONS, Multiple exostoses, Infant, medicine.disease, GENE, Repressor Proteins, TRPS, Human medicine, Transcription Factors

Abstract

Tricho-rhino-phalangeal syndrome (TRPS) is characterized by craniofacial and skeletal abnormalities, and subdivided in TRPS I, caused by mutations in TRPS1, and TRPS II, caused by a contiguous gene deletion affecting (amongst others) TRPS1 and EXT1. We performed a collaborative international study to delineate phenotype, natural history, variability, and genotype-phenotype correlations in more detail.We gathered information on 103 cytogenetically or molecularly confirmed affected individuals. TRPS I was present in 85 individuals (22 missense mutations, 62 other mutations), TRPS II in 14, and in 5 it remained uncertain whether TRPS1 was partially or completely deleted.Main features defining the facial phenotype include fine and sparse hair, thick and broad eyebrows, especially the medial portion, a broad nasal ridge and tip, underdeveloped nasal alae, and a broad columella. The facial manifestations in patients with TRPS I and TRPS II do not show a significant difference. In the limbs the main findings are short hands and feet, hypermobility, and a tendency for isolated metacarpals and metatarsals to be shortened. Nails of fingers and toes are typically thin and dystrophic. The radiological hallmark are the cone-shaped epiphyses and in TRPS II multiple exostoses. Osteopenia is common in both, as is reduced linear growth, both prenatally and postnatally. Variability for all findings, also within a single family, can be marked.Morbidity mostly concerns joint problems, manifesting in increased or decreased mobility, pain and in a minority an increased fracture rate. The hips can be markedly affected at a (very) young age. Intellectual disability is uncommon in TRPS I and, if present, usually mild. In TRPS II intellectual disability is present in most but not all, and again typically mild to moderate in severity.Missense mutations are located exclusively in exon 6 and 7 of TRPS1. Other mutations are located anywhere in exons 4-7. Whole gene deletions are common but have variable breakpoints. Most of the phenotype in patients with TRPS II is explained by the deletion of TRPS1 and EXT1, but haploinsufficiency of RAD21 is also likely to contribute. Genotype-phenotype studies showed that mutations located in exon 6 may have somewhat more pronounced facial characteristics and more marked shortening of hands and feet compared to mutations located elsewhere in TRPS1, but numbers are too small to allow firm conclusions. (C) 2015 Elsevier Masson SAS. All rights reserved.

Published

2015

10. ABCC6-mediated ATP secretion by the liver is the main source of the mineralization inhibitor inorganic pyrophosphate in the systemic circulation-brief report

Author

Piet Borst, Astrid S Plomp, Flóra Szeri, Daniela Sommer, Ronald P.J. Oude Elferink, Robert S. Jansen, Sunny Mahakena, András Váradi, Suzanne Duijst, Arthur A.B. Bergen, Koen van de Wetering, Netherlands Institute for Neuroscience (NIN), AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, Tytgat Institute for Liver and Intestinal Research, Human Genetics, Paediatric Genetics, ANS - Amsterdam Neuroscience, and Other departments

Subjects

Adenosine monophosphate, Male, Cells, ABCC6, Biology, Article, chemistry.chemical_compound, Mice, Adenosine Triphosphate, Conditioned, In vivo, medicine, Animals, Homeostasis, Humans, Secretion, Nucleotide, Pseudoxanthoma Elasticum, Cells, Cultured, Aged, chemistry.chemical_classification, Cultured, Middle Aged, Pseudoxanthoma elasticum, medicine.disease, Adenosine Monophosphate, Culture Media, Rats, Diphosphates, HEK293 Cells, chemistry, Biochemistry, Liver, Culture Media, Conditioned, biology.protein, Hepatocytes, ATP-Binding Cassette Transporters, Female, Multidrug Resistance-Associated Proteins, Cardiology and Cardiovascular Medicine, Adenosine triphosphate, HeLa Cells

Abstract

Objective— Mutations in ABCC6 underlie the ectopic mineralization disorder pseudoxanthoma elasticum (PXE) and some forms of generalized arterial calcification of infancy, both of which affect the cardiovascular system. Using cultured cells, we recently showed that ATP-binding cassette subfamily C member 6 (ABCC6) mediates the cellular release of ATP, which is extracellularly rapidly converted into AMP and the mineralization inhibitor inorganic pyrophosphate (PP i ). The current study was performed to determine which tissues release ATP in an ABCC6-dependent manner in vivo, where released ATP is converted into AMP and PP i , and whether human PXE ptients have low plasma PP i concentrations. Approach and Results— Using cultured primary hepatocytes and in vivo liver perfusion experiments, we found that ABCC6 mediates the direct, sinusoidal, release of ATP from the liver. Outside hepatocytes, but still within the liver vasculature, released ATP is converted into AMP and PP i . The absence of functional ABCC6 in patients with PXE leads to strongly reduced plasma PP i concentrations. Conclusions— Hepatic ABCC6-mediated ATP release is the main source of circulating PP i , revealing an unanticipated role of the liver in systemic PP i homeostasis. Patients with PXE have a strongly reduced plasma PP i level, explaining their mineralization disorder. Our results indicate that systemic PP i is relatively stable and that PXE, generalized arterial calcification of infancy, and other ectopic mineralization disorders could be treated with PP i supplementation therapy.

Published

2014

11. A novel lamin A/C mutation in a Dutch family with premature atherosclerosis

Author

Aeilko H. Zwinderman, A. A. W. Weterings, Marcel M.A.M. Mannens, M.A. van den Bergh Weerman, I. A. W. Van Rijsingen, S. J. Pinto, A.C. van der Wal, R. H. Lekanne Deprez, Astrid S Plomp, Amsterdam Cardiovascular Sciences, Cardiology, Human Genetics, Paediatric Genetics, Amsterdam Public Health, Epidemiology and Data Science, Amsterdam Gastroenterology Endocrinology Metabolism, Other Research, Amsterdam Reproduction & Development (AR&D), and Pathology

Subjects

Adult, Male, Proband, congenital, hereditary, and neonatal diseases and abnormalities, Biology, LMNA, Young Adult, Fatal Outcome, Diabetes Mellitus, medicine, Humans, Point Mutation, Missense mutation, Age of Onset, Netherlands, Family Health, Genetics, business.industry, Dermis, Fibroblasts, Middle Aged, Atherosclerosis, Lamin Type A, Familial partial lipodystrophy, medicine.disease, Phenotype, Pedigree, Fatty Liver, Microscopy, Electron, Premature atherosclerosis, Mutation (genetic algorithm), Female, Lipodystrophy, Steatosis, business, Cardiology and Cardiovascular Medicine, Lamin

Abstract

Objective: We report a novel lamin A/C (LMNA) mutation, p.Glu223Lys, in a family with extensive atherosclerosis, diabetes mellitus and steatosis hepatis. Methods: Sequence analysis of LMNA (using Alamut version 2.2), co-segregation analysis, electron microscopy, extensive phenotypic evaluation of the mutation carriers and literature comparison were used to determine the loss of function of this mutation. Results: The father of three siblings died at the age of 45 years. The three siblings and the brother and sister of the father were referred to the cardiovascular genetics department, because of the premature atherosclerosis and dysmorphic characteristics observed in the father at autopsy. The novel LMNA mutation, p.Glu223Lys, was identified in the proband and his two sons. Clinical evaluation revealed atherosclerosis, insulin resistance and hypertension in the proband and dyslipidemia and hepatic steatosis in all the patients with the mutation. Conclusion: Based on the facts that in silico analysis predicts a possibly pathogenic mutation, the mutation co-segregates with the disease, only fibroblasts from mutation carriers show nuclear blebbing and a similar phenotype was reported to be due to missense mutations in LMNA we conclude that we deal with a pathogenic mutation. We conclude that the phenotype is similar to Dunnigan-type familial partial lipodystrophy.

Published

2013

12. Mutation Spectrum in RAB3GAP1, RAB3GAP2, and RAB18 and GenotypePhenotype Correlations in Warburg Micro Syndrome and Martsolf Syndrome

Author

Deborah J. Morris-Rosendahl, Guntram Borck, Angels García-Cazorla, Lorenzo Pinelli, Mark T. Handley, Loreto Martorell, John M. Graham, Maha S. Zaki, Grazia M.S. Mancini, Sarah M. Carpanini, Carol Hardy, Patrick Edery, Damien Lederer, P Póo, Gabriela Peretz, Helen Stewart, Danai Bem, Ghada M H Abdel-Salam, Fabienne Giuliano, Eamonn R. Maher, Fiona Macdonald, Anna Jansen, Ian J. Jackson, Francesca Faravelli, Lina Basel-Vanagaite, Eva Seemanova, Patrizia Accorsi, Astrid S Plomp, Ian A. Glass, Stephen Brown, David Mowat, Arndt Rolfs, Tony Roscioli, Irene A. Aligianis, Claudia Izzi, Human Genetics, Paediatric Genetics, and Clinical Genetics

Subjects

Male, Genotype, rab3 GTP-Binding Proteins, Molecular Sequence Data, Mutation, Missense, Biology, medicine.disease_cause, Microphthalmia, Cataract, Germline mutation, Intellectual Disability, Genetics, medicine, Animals, Humans, Missense mutation, Amino Acid Sequence, Child, Genetics (clinical), Mutation, Sequence Homology, Amino Acid, Genetic heterogeneity, Micro syndrome, Hypogonadism, Infant, medicine.disease, Magnetic Resonance Imaging, Phenotype, rab GTP-Binding Proteins, Child, Preschool

Abstract

Warburg Micro syndrome and Martsolf syndrome (MS) are heterogeneous autosomal-recessive developmental disorders characterized by brain, eye, and endocrine abnormalities. Causative biallelic germline mutations have been identified in RAB3GAP1, RAB3GAP2, or RAB18, each of which encode proteins involved in membrane trafficking. This report provides an up to date overview of all known disease variants identified in 29 previously published families and 52 new families. One-hundred and forty-four Micro and nine Martsolf families were investigated, identifying mutations in RAB3GAP1 in 41% of cases, mutations in RAB3GAP2 in 7% of cases, and mutations in RAB18 in 5% of cases. These are listed in Leiden Open source Variation Databases, which was created by us for all three genes. Genotype-phenotype correlations for these genes have now established that the clinical phenotypes in Micro syndrome and MS represent a phenotypic continuum related to the nature and severity of the mutations present in the disease genes, with more deleterious mutations causing Micro syndrome and milder mutations causing MS. RAB18 has not yet been linked to the RAB3 pathways, but mutations in all three genes cause an indistinguishable phenotype, making it likely that there is some overlap. There is considerable genetic heterogeneity for these disorders and further gene identification will help delineate these pathways.

Published

2013

13. Large deletions of the KCNV2 gene are common in patients with cone dystrophy with supernormal rod response

Author

Ulrich Kellner, Bernd Wissinger, Eberhart Zrenner, Hélène Dollfus, Balázs Varsányi, Günter Rudolph, Susanne Kohl, Britta Baumann, John R. Heckenlively, Elfride De Baere, Thomas Rosenberg, Frans P.M. Cremers, Monika Andrassi-Darida, Christiane Wolf, Ditta Zobor, Simone Schaich, Astrid S. Plomp, Roberto Salati, Carel B. Hoyng, Péter Enyedi, Birgit Lorenz, Antje Bernd, Christoph Friedburg, Alexandra Sauer, Michael Bonin, Bart P. Leroy, Herbert Jägle, Netherlands Institute for Neuroscience (NIN), Human Genetics, and Paediatric Genetics

Subjects

Genetics, Heterozygote, Genetics and epigenetic pathways of disease [NCMLS 6], Cone dystrophy with supernormal rod response, Protein subunit, Mutant, Breakpoint, Homozygote, Locus (genetics), Biology, Pedigree, Amino Acid Substitution, Potassium Channels, Voltage-Gated, Two-Hybrid System Techniques, Evaluation of complex medical interventions Genomic disorders and inherited multi-system disorders [NCEBP 2], Humans, Allele, Gene, Genetics (clinical), VLDLR Gene, Retinitis Pigmentosa, Sequence Deletion

Abstract

Item does not contain fulltext Cone dystrophy with supernormal rod response (CDSRR) is considered to be a very rare autosomal recessive retinal disorder. CDSRR is associated with mutations in KCNV2, a gene that encodes a modulatory subunit (Kv8.2) of a voltage-gated potassium channel. In this study, we found that KCNV2 mutations are present in a substantial fraction (2.2-4.3%) of a sample of 367 independent patients with a variety of initial clinical diagnoses of cone malfunction, indicating that CDSRR is underdiagnosed and more common than previously thought. In total, we identified 20 different KCNV2 mutations; 15 of them are novel. A new finding of this study is the substantial proportion of large deletions at the KCNV2 locus that accounts for 15.5% of the mutant alleles in our sample. We determined the breakpoints and size of all five different deletions, which ranged between 10.9 and 236.8 kb. Two deletions encompass the entire KCNV2 gene and one also includes the adjacent VLDLR gene. Furthermore, we investigated N-terminal amino acid substitution mutations for its effect on interaction with Kv2.1 using yeast two-hybrid technology. We found that these mutations dramatically reduce or abolish this interaction suggesting a lack of assembly of heteromeric Kv channels as one underlying pathomechanism of CDSRR. 32:1398-1406, 2011. (c)2011 Wiley Periodicals, Inc.

Published

2011

14. Expanding the Spectrum of FOXC1 and PITX2 Mutations and Copy Number Changes in Patients with Anterior Segment Malformations

Author

Björn Menten, Wim Wuyts, Johanna B. G. M. Verheij, Jan Tjeerd H N de Faber, Françoise Roulez, Jacques C. Giltay, Sally Hooghe, Anne De Paepe, Jenneke van den Ende, Barbara D'haene, Sarah De Jaegere, Yvonne Arens, Philippe Kestelyn, Françoise Meire, Thomy de Ravel, Ilse Claerhout, Bart P. Leroy, Astrid S Plomp, Elfride De Baere, Hester Y. Kroes, Hermine E. Veenstra-Knol, Ingele Casteels, Rogier A. Oldenburg, Specialities, MUMC+: DA KG Polikliniek (9), Klinische Genetica, RS: GROW - School for Oncology and Reproduction, Human Genetics, Paediatric Genetics, and Netherlands Institute for Neuroscience (NIN)

Subjects

Adult, Male, Proband, Untranslated region, Candidate gene, congenital, hereditary, and neonatal diseases and abnormalities, Adolescent, Gene Dosage, PROTEIN, Biology, medicine.disease_cause, Polymerase Chain Reaction, Mitochondrial Proteins, TRANSCRIPTION FACTOR GENE, Dysgenesis, stomatognathic system, Anterior Eye Segment, GLAUCOMA, DUPLICATIONS, medicine, Humans, Eye Abnormalities, Multiplex ligation-dependent probe amplification, Child, 3' Untranslated Regions, Gene, AXENFELD-RIEGER-SYNDROME, CHROMOSOME 6P25, Homeodomain Proteins, Genetics, Mutation, DELETION, Forkhead Transcription Factors, Middle Aged, MICRODELETIONS, Phenotype, Molecular biology, eye diseases, stomatognathic diseases, TARGET, Child, Preschool, Female, Human medicine, sense organs, FKHL7 GENE, Carrier Proteins, Nucleic Acid Amplification Techniques, Transcription Factors

Abstract

PURPOSE. Anterior segment dysgenesis (ASD) comprises a heterogeneous group of developmental abnormalities that affect several structures of the anterior segment of the eye. The main purpose of this study was to assess the proportion of FOXC1 and PITX2 mutations and copy number changes in 80 probands with ASD.METHODS. The patients were examined for FOXC1 and PITX2 copy number changes and mutations using MLPA (multiplex ligation-dependent probe amplification) and direct sequencing. Subsequently, the identified copy number changes were fine-mapped using high-resolution microarrays. In the remaining mutation-negative patients, sequencing of the FOXC1 and-PITX2 3' untranslated regions (UTRs) and three other candidate genes (P32, PDP2, and FOXC2) was performed.RESULTS. Thirteen FOXC1 and eight PITX2 mutations were identified, accounting for 26% (21/80) of the cases. In addition, six FOXC1 and five PITX2 deletions were found, explaining 14% (11/80) of the cases. The smallest FOXC1 and PITX2 deletions were 5.4 and 1.6 kb in size, respectively. Six patients carrying FOXC1 deletions presented with variable extraocular phenotypic features such as hearing defects (in 4/6) and mental retardation (in 2/6). No further genetic defects were found in the remaining mutation-negative patients.CONCLUSIONS. FOXC1 and PITX2 genetic defects explain 40% of our large ASD cohort. The current spectrum of intragenic FOXC1 and PITX2 mutations was extended considerably, the identified copy number changes were fine mapped, the smallest FOXC1 and PITX2 deletions reported so far were identified, and the need for dedicated copy number screening of the FOXC1 and PITX2 genomic landscape was emphasized. This study is unique in that sequence and copy number changes were screened simultaneously in both genes. (Invest Ophthalmol Vis Sci. 2011;52:324-333) DOI:10.1167/iovs.10-5309

Published

2011

15. Proposal for updating the pseudoxanthoma elasticum classification system and a review of the clinical findings

Author

Marijke R. van Dijk, Arthur A.B. Bergen, Paulus T. V. M. de Jong, Astrid S. Plomp, J. Toonstra, and Netherlands Institute for Neuroscience (NIN)

Subjects

medicine.medical_specialty, biology, business.industry, Consensus conference, ABCC6, Pseudoxanthoma elasticum, medicine.disease, Dermatology, Genetics, biology.protein, Humans, Medicine, Multidrug Resistance-Associated Proteins, Pseudoxanthoma Elasticum, business, Genetics (clinical)

Abstract

Pseudoxanthoma elasticum (PXE) is a systemic disorder affecting elastic tissues most markedly in skin, retina, and blood vessels. It is caused by mutations in the ABCC6 gene and is transmitted in an autosomal recessive fashion. In 1994 a new classification system for PXE was published as the result of a consensus conference. Since then the ABCC6 gene has been discovered. We propose that there is a need for a classification system incorporating all relevant systemic symptoms and signs, based on standardized clinical, histological, and molecular biological examination techniques. We re-evaluated the histopathologic PXE signs and propose a classification system with unambiguous criteria leading to a consistent diagnosis of definitive, probable, or possible PXE world-wide. We put this proposed classification forward to encourage further debate on the diagnosis of this multi-organ disorder. (c) 2010 Wiley-Liss, Inc

Published

2010

16. Dissecting the pathogenic mechanisms of mutations in the pore region of the human cone photoreceptor cyclic nucleotide-gated channel

Author

Samuel G. Jacobson, Katja Koeppen, Thomas Ladewig, Peggy Reuter, Britta Baumann, Astrid S. Plomp, Bernd Wissinger, Andreas R. Janecke, Christian P. Hamel, Susanne Kohl, Human Genetics, Paediatric Genetics, and Netherlands Institute for Neuroscience (NIN)

Subjects

Models, Molecular, Achromatopsia, Protein Conformation, Protein subunit, Blotting, Western, Molecular Sequence Data, Mutant, Cyclic Nucleotide-Gated Cation Channels, Color Vision Defects, Biology, Transfection, medicine.disease_cause, Cell Line, Membrane Potentials, Calcium imaging, Genetics, medicine, Humans, Amino Acid Sequence, Patch clamp, Cyclic nucleotide-gated ion channel, Cyclic GMP, Genetics (clinical), Pore mutation, Mutation, Dose-Response Relationship, Drug, Sequence Homology, Amino Acid, CNGA3, Biological Transport, CNG channel, medicine.disease, Immunohistochemistry, Cell biology, Retinal Cone Photoreceptor Cells, Calcium, Mutant Proteins, Protein Multimerization, Visual phototransduction

Abstract

The CNGA3 gene encodes the A3 subunit of the cone photoreceptor cyclic nucleotide-gated (CNG) channel, an essential component of the phototransduction cascade. Certain mutations in CNGA3 cause autosomal recessive achromatopsia, a retinal disorder characterized by severely reduced visual acuity, lack of color discrimination, photophobia, and nystagmus. We identified three novel mutations in the pore-forming region of CNGA3 (L363P, G367V, and E376K) in patients diagnosed with achromatopsia. We assessed the expression and function of channels with these three new and two previously described mutations (S341P and P372S) in a heterologous HEK293 cell expression system using Western blot, subcellular localization on the basis of immunocytochemistry, calcium imaging, and patch clamp recordings. In this first comparative functional analysis of disease-associated mutations in the pore of a CNG channel, we found impaired surface expression of S341P, L363P, and P372S mutants and reduced macroscopic currents for channels with the mutations S341P, G367V, and E376K. Calcium imaging and patch clamp experiments after incubation at 37 degrees C revealed nonfunctional homo- and heteromeric channels in all five mutants, but incubation at 27 degrees C combined with coexpression of the B3 subunit restored residual function of channels with the mutations S341P, G367V, and E376K.

Published

2010

17. Pseudoxanthoma elasticum: Wide phenotypic variation in homozygotes and no signs in heterozygotes for the c.3775delT mutation in ABCC6

Author

Marijke R. van Dijk, Sharon F. Terry, Ralph J. Florijn, Arthur A.B. Bergen, Paulus T. V. M. de Jong, J. Toonstra, Astrid S Plomp, Human Genetics, Paediatric Genetics, Amsterdam Neuroscience, Other departments, and Ophthalmology

Subjects

Adult, Male, Heterozygote, Pathology, medicine.medical_specialty, Cardiovascular Abnormalities, Visual Acuity, ABCC6, Disease, Fundus (eye), medicine.disease_cause, Genetic Heterogeneity, Surveys and Questionnaires, Genotype, medicine, Humans, Pseudoxanthoma Elasticum, Genetics (clinical), Aged, Netherlands, Sequence Deletion, Mutation, Wide phenotypic variation, integumentary system, biology, business.industry, Homozygote, Genetic Variation, Heterozygote advantage, Sequence Analysis, DNA, Middle Aged, Pseudoxanthoma elasticum, medicine.disease, Phenotype, Skin Abnormalities, biology.protein, Female, Multidrug Resistance-Associated Proteins, business

Abstract

Purpose: Pseudoxanthoma elasticum is an autosomal recessive disorder of elastic tissue in the skin, eyes, and cardiovascular system, caused by mutations in the ABCC6 gene. The purpose of this study was to check variability in expression within one genotype and look for pseudoxanthoma elasticum signs in heterozygotes. Methods: We examined a relatively large, in comparison with the present literature, group of adult persons homozygous or heterozygous for the c.3775delT mutation in the ABCC6 gene, front a genetically isolated population in the Netherlands. All participants filled out a questionnaire and underwent standardized dermatologic and ophthalmologic examinations with photography of skin and fundus abnormalities. Skin biopsies from affected skin or a predilection site and/or a scar were examined and compared with biopsies from controls. Results: Skin abnormalities, ophthalmologic signs, and cardiovascular problems varied greatly among the 15 homozygous participants. There was no correlation among severity of skin, eyes, or cardiovascular abnormalities. None of the 44 heterozygous participants had any sign of pseudoxanthoma elasticum on dermatologic, histopathologic, and/or ophthalmologic examination, but 32% had cardiovascular disease. Conclusion: Individuals homozygous for the c.3775delT mutation can have a highly variable phenotype. We did not find pseudoxanthoma elasticum eye or skin abnormalities in the heterozygous family members. Genet Med 2009:11(12):852-858

Published

2009

18. Identification of 34 Novel and 56 Known FOXL2 Mutations in Patients With Blepharophimosis Syndrome

Author

Anne De Paepe, Patricia Delbeke, Nina Øyen, Françoise Meire, Astrid S. Plomp, Louise C. Wilson, Gabriele Gillessen-Kaesbach, Bart P. Leroy, David Mowat, Jill Clayton-Smith, Yvonne M.C. Hendriks, Nicole Van Regemorter, Philippe Touraine, Virginia Kimonis, Christian Decock, Diane Beysen, Luitgard M. Neumann, Paul Laissue, Dagmar Wieczorek, Kathleen A. Leppig, Arthur Grix, Sarah De Jaegere, Philippe Bouchard, Marc Fellous, Regina Ensenauer, Thomy de Ravel, Sophie Christin-Maitre, David T. Miller, Elfride De Baere, Rachel Laframboise, David J. Amor, Friedrich Ebinger, Raoul C.M. Hennekam, Reiner A. Veitia, Dalit Barel, Clinical sciences, Medical Genetics, Netherlands Institute for Neuroscience (NIN), Amsterdam Neuroscience, Amsterdam Public Health, Paediatric Genetics, and Human Genetics

Subjects

Adult, Forkhead Box Protein L2, Male, Adolescent, Child, preschool, Genotype, Nonsense mutation, DNA Mutational Analysis, Molecular Sequence Data, Mutation, Missense, Locus (genetics), Biology, Blepharophimosis, Primary Ovarian Insufficiency, Frameshift mutation, Genetics, medicine, Missense mutation, Humans, Amino Acid Sequence, Forkhead Transcription Factors/genetics, Child, Frameshift Mutation, Eyelids/abnormalities, Genetics (clinical), Infant, Newborn, Eyelids, Infant, Forkhead Transcription Factors, Primary Ovarian Insufficiency/genetics, Middle Aged, medicine.disease, Pedigree, Forkhead box L2, Phenotype, Codon, Nonsense, young adult, Female, Sequence Alignment, Blepharophimosis/genetics

Abstract

Blepharophimosis syndrome (BPES) is caused by loss-of-function mutations in the single-exon forkhead transcription factor gene FOXL2 and by genomic rearrangements of the FOXL2 locus. Here, we focus on 92 new intragenic FOXL2 mutations, 34 of which are novel. Specifically, we found 10 nonsense mutations (11%), 13 missense mutations (14%), 40 deletions or insertions leading to a frameshift (43%), and 29 in-frame changes (32%), of which 28 (30%) lead to a polyalanine expansion. This study confirms the existence of two previously described mutational hotspots. Moreover, we gained novel insights in genotype-phenotype correlations, emphasizing the need to interpret genotype-phenotype correlations individually and always in the context of further clinical observations. (C) 2008 Wiley-Liss, Inc

Published

2008

19. Germline Mutation of INI1/SMARCB1 in Familial Schwannomatosis

Author

Frank Baas, R. A. Wolterman, Theo J. M. Hulsebos, Els C. Robanus-Maandag, Pieter Wesseling, Astrid S. Plomp, ANS - Amsterdam Neuroscience, CCA -Cancer Center Amsterdam, Genome Analysis, Human Genetics, Paediatric Genetics, and Neurology

Subjects

Adult, Male, Chromosomal Proteins, Non-Histone, Molecular Sequence Data, Biology, Germline, Exon, Germline mutation, Translational research [ONCOL 3], Report, medicine, otorhinolaryngologic diseases, Genetics, Humans, Genetic Predisposition to Disease, Genetics(clinical), Neurofibromatosis type 2, Allele, SMARCB1, Schwannomatosis, Germ-Line Mutation, Genetics (clinical), Molecular diagnosis, prognosis and monitoring [UMCN 1.2], DNA Primers, Base Sequence, Exons, SMARCB1 Protein, Sequence Analysis, DNA, Tissue engineering and pathology [NCMLS 3], medicine.disease, Immunohistochemistry, nervous system diseases, DNA-Binding Proteins, Mutation (genetic algorithm), Female, Neurilemmoma, Transcription Factors

Abstract

Item does not contain fulltext Patients with schwannomatosis develop multiple schwannomas but no vestibular schwannomas diagnostic of neurofibromatosis type 2. We report an inactivating germline mutation in exon 1 of the tumor-suppressor gene INI1 in a father and daughter who both had schwannomatosis. Inactivation of the wild-type INI1 allele, by a second mutation in exon 5 or by clear loss, was found in two of four investigated schwannomas from these patients. All four schwannomas displayed complete loss of nuclear INI1 protein expression in part of the cells. Although the exact oncogenetic mechanism in these schwannomas remains to be elucidated, our findings suggest that INI1 is the predisposing gene in familial schwannomatosis.

Published

2007

20. ABCC6 and pseudoxanthoma elasticum

Author

Astrid S. Plomp, Xiaofeng Hu, Paulus T. V. M. de Jong, Theo G. M. F. Gorgels, and Arthur A. B. Bergen

Subjects

Physiological function, biology, Physiology, Liver and kidney, Clinical Biochemistry, ABCC6, Pseudoxanthoma elasticum, medicine.disease, Molecular biology, Angioid streaks, Mice, Biochemistry, Physiology (medical), Mutation, biology.protein, medicine, Extracellular, Animals, Humans, Targeted disruption, ATP-Binding Cassette Transporters, Multidrug Resistance-Associated Proteins, Pseudoxanthoma Elasticum, Skin lesion

Abstract

ABCC6 belongs to the adenosine triphosphate-binding cassette (ABC) gene subfamily C. This protein family is involved in a large variety of physiological processes, such as signal transduction, protein secretion, drug and antibiotic resistance, and antigen presentation [Kool et al. (1999) 59:175-182; Borst and Elferink (2002) 71:537-592]. ABCC6 is primarily and highly expressed in the liver and kidney [Kool et al. (1999) 59:175-182; Bergen et al. (2000) 25:228-2231]. The precise physiological function and natural substrate(s) transported by ABCC6 are unknown, but the protein may be involved in active transport of intracellular compounds to the extracellular environment [Kool et al. (1999) 59:175-182] [Scheffer et al. (2002) 82:515-518]. Recently, it was shown that loss of function mutations in ABCC6 cause pseudoxanthoma elasticum (PXE) [Bergen et al. (2000) 25:228-2231; Le Saux et al. (2000) 25:223-227]. PXE is an autosomal recessively inherited multi-organ disorder [Goodman et al. (1963) 42:297-334; Lebwohl et al. (1994) 30:103-107]. PXE is primarily associated with the accumulation of mineralized and fragmented elastic fibers of the connective tissue in the skin [Neldner (1988) 6:1-159], Bruch's membrane in the retina [Hu et al. (2003) 48:424-438], and vessel walls [Kornet et al. (2004) 30:1041-1048]. PXE patients usually have skin lesions and breaks in Bruch's membrane of the retina (angioid streaks). Also, a variety of cardiovascular complications has been observed [Hu et al. (2003) 48:424-438]. Recently, a mouse model for PXE was created by targeted disruption of Abcc6 [Gorgels et al. (2005) 14:1763-1773; Klement et al. (2005) 25:8299-8310], which may be useful to elucidate the precise function of Abcc6 and to develop experimental therapies.

Published

2007

21. Does autosomal dominant pseudoxanthoma elasticum exist?

Author

Arthur A.B. Bergen, Paulus T. V. M. de Jong, Xiaofeng Hu, Astrid S. Plomp, Human Genetics, Ophthalmology, and Amsterdam Neuroscience

Subjects

Adult, Male, Proband, medicine.medical_specialty, Adolescent, DNA Mutational Analysis, ABCC6, Pedigree chart, Genetic linkage, Humans, Medicine, Pseudoxanthoma Elasticum, Allele, Child, Genetics (clinical), Aged, Genes, Dominant, Family Health, Genetics, biology, medicine.diagnostic_test, business.industry, Haplotype, DNA, Pseudoxanthoma elasticum, medicine.disease, Dermatology, Pedigree, Haplotypes, Mutation, Skin biopsy, biology.protein, Female, Multidrug Resistance-Associated Proteins, business

Abstract

Pseudoxanthoma elasticum (PXE) is a progressive disorder of elastic fibers in skin, eyes, and arterial walls. It is caused by mutations in the ABCC6 gene. Most patients are sporadic cases. The majority of familial cases show autosomal recessive (AR) inheritance, but autosomal dominant (AD) inheritance has also been reported. We reviewed the literature on AD PXE and we studied in detail, both clinically and by DNA studies, a selection of potentially AD pedigrees from our patient population consisting of 59 probands and their family members. Individuals were considered to have definite PXE if they had two of the following three criteria: characteristic ophthalmologic signs, characteristic dermatologic signs, and a positive skin biopsy. In the literature we found only three families with definite PXE in two successive generations and no families with definite PXE in three or more generations. Our own data set comprised three putative AD families. Extensive DNA studies revealed a mutation in only one ABCC6 allele in the patients of these families. Only one of our families showed definite PXE in two generations. Linkage studies revealed that pseudo-dominance was unlikely in this family. In the other two families AD PXE could not be confirmed after extensive clinical examinations and application of our criteria, since definite PXE was not present in two or more generations. Conclusion: the inheritance pattern in PXE usually is AR. Part of the phenotype in family members of PXE patients might be due to expression in heterozygous carriers of an AR disease. AD inheritance in PXE may exist, but is both after careful literature study and in our patient material much rarer than previously thought. (C) 2003 Wiley-Liss, Inc

Published

2004

22. ABCC6/MRP6 mutations: further insight into the molecular pathology of pseudoxanthoma elasticum

Author

Xiaofeng Hu, Jacoline ten Brink, Simone van Soest, Ron Peek, L. Ingeborgh van den Born, Arthur A.B. Bergen, Anita Leys, Astrid S. Plomp, Paulus T. V. M. de Jong, Jan Wijnholds, Netherlands Institute for Neuroscience (NIN), Human Genetics, Other departments, Ophthalmology, and ANS - Amsterdam Neuroscience

Subjects

Adult, Protein Conformation, Pseudogene, DNA Mutational Analysis, Molecular Sequence Data, Gene Expression, ABCC6, Exon, Gene Frequency, Genotype, Genetics, medicine, Humans, Amino Acid Sequence, Genetic Testing, Pseudoxanthoma Elasticum, Allele, Child, Gene, Genetics (clinical), DNA Primers, biology, Reverse Transcriptase Polymerase Chain Reaction, Molecular pathology, Pseudoxanthoma elasticum, medicine.disease, Pedigree, Mutation, biology.protein, Multidrug Resistance-Associated Proteins, Gene Deletion

Abstract

Pseudoxanthoma elasticum (PXE) is a hereditary disease characterized by progressive dystrophic mineralization of the elastic fibres. PXE patients frequently present with skin lesions and visual acuity loss. Recently, we and others showed that PXE is caused by mutations in the ABCC6/MRP6 gene. However, the molecular pathology of PXE is complicated by yet unknown factors causing the variable clinical expression of the disease. In addition, the presence of ABCC6/MRP6 pseudogenes and multiple ABCC6/MRP6-associated deletions complicate interpretation of molecular genetic studies. In this study, we present the mutation spectrum of ABCC6/MRP6 in 59 PXE patients from the Netherlands. We detected 17 different mutations in 65 alleles. The majority of mutations occurred in the NBF1 (nucleoticle binding fold) domain, in the eighth cytoplasmatic loop between the 15th and 16th transmembrane regions, and in NBF2 of the predicted ABCC6/MRP6 protein. The RI 141 X mutation was by far the most common mutation identified in 19 (32.2%) patients. The second most frequent mutation, an intragenic deletion from exon 23 to exon 29 in ABCC6/MRP6, was detected in 11 (18.6%) of the patients. Our data include 11 novel ABCC6/MRP6 mutations, as well as additional segregation data relevant to the molecular pathology of PXE in a limited number of patients and families. The consequences of our data for the molecular pathology of PXE are discussed

Published

2003

23. FOXL2 and BPES: Mutational Hotspots, Phenotypic Variability, and Revision of the Genotype-Phenotype Correlation

Author

Paul De Sutter, Christoffer Jonsrud, Ludwine Messiaen, Christine Oley, Anne De Paepe, Birgit Lorenz, Michael J. Dixon, Marc Fellous, Jean-Pierre Fryns, Astrid S Plomp, Koenraad Devriendt, Bart P. Leroy, Julie Cocquet, Elfride De Baere, Françoise Meire, Diane Beysen, Arturo Garza, Amanda Krause, Reiner A. Veitia, Lionel Van Maldergem, Pasi A. Koivisto, Human Genetics, and Faculteit der Geneeskunde

Subjects

Forkhead Box Protein L2, Male, Genotype, Mutation, Missense, Blepharophimosis, Biology, medicine.disease_cause, Open Reading Frames, Gene Duplication, Report, Genetic variation, Gene duplication, Genetics, medicine, Humans, Missense mutation, Genetics(clinical), Child, Promoter Regions, Genetic, Gene, Genetics (clinical), Genes, Dominant, Mutation, Genetic Variation, Forkhead Transcription Factors, Syndrome, medicine.disease, Pedigree, DNA-Binding Proteins, Phenotype, Forkhead box L2, Child, Preschool, Nucleic Acid Conformation, Female, 5' Untranslated Regions, Transcription Factors

Abstract

Blepharophimosis syndrome (BPES), an autosomal dominant syndrome in which an eyelid malformation is associated (type I) or not (type II) with premature ovarian failure (POF), has recently been ascribed to mutations in FOXL2, a putative forkhead transcription factor gene. We previously reported 22 FOXL2 mutations and suggested a preliminary genotype-phenotype correlation. Here, we describe 21 new FOXL2 mutations (16 novel ones) through sequencing of open reading frame, 5′ untranslated region, putative core promoter, and fluorescence in situ hybridization analysis. Our study shows the existence of two mutational hotspots: 30% of FOXL2 mutations lead to polyalanine (poly-Ala) expansions, and 13% are a novel out-of-frame duplication. In addition, this is the first study to demonstrate intra- and interfamilial phenotypic variability (both BPES types caused by the same mutation). Furthermore, the present study allows a revision of the current genotype-phenotype correlation, since we found exceptions to it. We assume that for predicted proteins with a truncation before the poly-Ala tract, the risk for development of POF is high. For mutations leading to a truncated or extended protein containing an intact forkhead and poly-Ala tract, no predictions are possible, since some of these mutations lead to both types of BPES, even within the same family. Poly-Ala expansions may lead to BPES type II. For missense mutations, no correlations can be made yet. Microdeletions are associated with mental retardation. We conclude that molecular testing may be carefully used as a predictor for POF risk in a limited number of mutations.

Published

2003

24. Pseudoxanthoma elasticum: A clinical, histopathological, and molecular update

Author

Simone van Soest, Xiaofeng Hu, Arthur A.B. Bergen, Paulus T. V. M. de Jong, Jan Wijnholds, Astrid S. Plomp, Clinical Genetics, and Epidemiology

Subjects

Mutation, Pathology, medicine.medical_specialty, ABCC6, Connective tissue, Biology, medicine.disease_cause, Pseudoxanthoma elasticum, medicine.disease, Bruch's membrane, Transmembrane protein, Extracellular matrix, Pathogenesis, Ophthalmology, medicine.anatomical_structure, Retinal Diseases, medicine, biology.protein, Animals, Humans, Multidrug Resistance-Associated Proteins, Pseudoxanthoma Elasticum, Molecular Biology

Abstract

Pseudoxanthoma elasticum is an autosomally inherited disorder that is associated with the accumulation of mineralized and fragmented elastic fibers in the skin, Bruch's membrane in the retina, and vessel walls. The ophthalmic and dermatologic expression of pseudoxanthoma elasticum and its vascular complications are heterogeneous, with considerable variation in phenotype, progression, and mode of inheritance. Using linkage analysis and mutation detection techniques, mutations in the ABCC6 gene were recently implicated in the etiology of pseudoxanthoma elasticum. ABCC6 encodes the sixth member of the ATP-binding cassette transporter and multidrug resistance protein family (MRP6). In humans, this transmembrane protein is highly expressed in the liver and kidney. Lower expression was found in tissues affected by pseudoxanthoma elasticum, including skin, retina, and vessel walls. So far, the substrates transported by the ABCC6 protein and its physiological role in the etiology of pseudoxanthoma elasticum are not known. A functional transport study of rat MRP6 suggests that small peptides such as the endothelin receptor antagonist BQ123 are transported by MRP6. Similar molecules transported by ABCC6 in humans may be essential for extracellular matrix deposition or turnover of connective tissue at specific sites in the body. One of these sites is Bruch's membrane. This review is an update on etiology of pseudoxanthoma elasticum, including its clinical and genetic features, pathogenesis, and biomolecular basis. (C) 2003 by Elsevier Inc. All rights reserved

Published

2003

25. Analysis of the frequent R1141X mutation in the ABCC6 gene in pseudoxanthoma elasticum

Author

R Peek, Xiaofeng Hu, Paulus T. V. M. de Jong, Simone van Soest, Arthur A.B. Bergen, Jacoline ten Brink, Astrid S. Plomp, Anita Leys, George L. Scheffer, Human Genetics, Other departments, Ophthalmology, and Amsterdam Neuroscience

Subjects

Nonsense mutation, DNA Mutational Analysis, ABCC6, Locus (genetics), Compound heterozygosity, medicine, Leukocytes, Humans, RNA, Messenger, Allele, Pseudoxanthoma Elasticum, Fluorescent Antibody Technique, Indirect, Alleles, Cells, Cultured, Polymorphism, Single-Stranded Conformational, Netherlands, Skin, Genetics, Polymorphism, Genetic, biology, Reverse Transcriptase Polymerase Chain Reaction, Haplotype, Antibodies, Monoclonal, Fibroblasts, Pseudoxanthoma elasticum, medicine.disease, Molecular biology, Pedigree, Blotting, Southern, Codon, Nonsense, biology.protein, Multidrug Resistance-Associated Proteins, Haploinsufficiency

Abstract

Purpose To characterize the ABCC6 R1141X nonsense mutation, which is implicated in more than 25% of a cohort of patients from The Netherlands with pseudoxanthoma elasticum (PXE). Methods A combination of single-strand conformational polymorphism (SSCP), PCR, sequencing, and Southern blot analysis was used to identify mutations in the ABCC6 gene in 62 patients. Haplotypes of 16 patients with the R1141X mutation were determined with eight polymorphic markers spanning the ABCC6 locus. The effect of the R1141X mutation on the expression of ABCC6 was studied in leukocytes and cultured dermal fibroblasts from affected skin in patients heterozygous or homozygous for the R1141X mutation. ABCC6 expression was analyzed by RT-PCR and immunocytochemistry with ABCC6-specific monoclonal antibodies. Results The ABCC6 R1141X mutation was found on 19 alleles in 16 patients with PXE and occurred in heterozygous, homozygous, or compound heterozygous form. All R1141X alleles were associated with a common haplotype, covering at least three intragenic ABCC6 markers. None of the patients or healthy control subjects had a similar ABCC6 haplotype. Furthermore, the results showed that the expression of the normal allele in R1141X heterozygotes was predominant, whereas no detectable, or very low, ABCC6 mRNA levels were found in R1141X homozygotes. Immunocytochemical staining of cultured dermal fibroblasts with ABCC6-specific monoclonal antibodies showed no evidence of the presence of a truncated protein in patients with PXE who were homozygous for R1141X. Conclusions A specific founder effect for the R1141X mutation exists in Dutch patients with PXE. The R1141X mutation induces instability of the aberrant mRNA. Functional haploinsufficiency or loss of function of ABCC6 caused by mechanisms, such as nonsense-mediated decay (NMD), may be involved in the PXE phenotype.

Published

2003

26. Diagnostic exome sequencing in 266 Dutch patients with visual impairment

Author

Lonneke Haer-Wigman, Carel B. Hoyng, Steven Castelein, Suzanne C E H Sallevelt, Martijn H. Breuning, Marcel R. Nelen, Wendy A. G. van Zelst-Stams, Jayne Y. Hehir-Kwa, Hester Y. Kroes, Helger G. Yntema, Caroline C W Klaver, Dorien Lugtenberg, Camiel J. F. Boon, L. Ingeborgh van den Born, Lies H. Hoefsloot, Frans P.M. Cremers, Virginie J. M. Verhoeven, Joke B. G. M. Verheij, Rolph Pfundt, Anneke J.A. Kievit, Jan Willem R. Pott, Hans Scheffer, Astrid S. Plomp, Johanna M. van Hagen, Stefan H. Lelieveld, ANS - Complex Trait Genetics, Ophthalmology, Human Genetics, Epidemiology, Clinical Genetics, Human genetics, Amsterdam Reproduction & Development (AR&D), MUMC+: DA KG Polikliniek (9), RS: CARIM - R2.10 - Mitochondrial disease, Promovendi CD, and Genetica & Celbiologie

Subjects

0301 basic medicine, genetic structures, Eye disease, Inheritance Patterns, PROTEIN, CONGENITAL CATARACT, Bioinformatics, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], RECOMMENDATIONS, Exome, Genetics(clinical), Child, Genetics (clinical), Exome sequencing, Netherlands, Eye Diseases, Hereditary, DYSTROPHY, Disorders of movement Donders Center for Medical Neuroscience [Radboudumc 3], BLINDNESS, Medical genetics, Neurodevelopmental disorders Radboud Institute for Molecular Life Sciences [Radboudumc 7], Rare cancers Radboud Institute for Health Sciences [Radboudumc 9], Adult, EYE DISEASE, medicine.medical_specialty, Adolescent, Vision Disorders, Biology, Article, 03 medical and health sciences, RETINITIS-PIGMENTOSA, Retinitis pigmentosa, medicine, Genetics, Journal Article, Humans, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], IDENTIFICATION, MUTATIONS, Genetic heterogeneity, Other Research Radboud Institute for Health Sciences [Radboudumc 0], medicine.disease, Human genetics, eye diseases, 030104 developmental biology, Case-Control Studies, Eye disorder, sense organs

Abstract

Contains fulltext : 174726.pdf (Publisher’s version ) (Open Access) Inherited eye disorders have a large clinical and genetic heterogeneity, which makes genetic diagnosis cumbersome. An exome-sequencing approach was developed in which data analysis was divided into two steps: the vision gene panel and exome analysis. In the vision gene panel analysis, variants in genes known to cause inherited eye disorders were assessed for pathogenicity. If no causative variants were detected and when the patient consented, the entire exome data was analyzed. A total of 266 Dutch patients with different types of inherited eye disorders, including inherited retinal dystrophies, cataract, developmental eye disorders and optic atrophy, were investigated. In the vision gene panel analysis (likely), causative variants were detected in 49% and in the exome analysis in an additional 2% of the patients. The highest detection rate of (likely) causative variants was in patients with inherited retinal dystrophies, for instance a yield of 63% in patients with retinitis pigmentosa. In patients with developmental eye defects, cataract and optic atrophy, the detection rate was 50, 33 and 17%, respectively. An exome-sequencing approach enables a genetic diagnosis in patients with different types of inherited eye disorders using one test. The exome approach has the same detection rate as targeted panel sequencing tests, but offers a number of advantages. For instance, the vision gene panel can be frequently and easily updated with additional (novel) eye disorder genes. Determination of the genetic diagnosis improved the clinical diagnosis, regarding the assessment of the inheritance pattern as well as future disease perspective.

Published

2017

27. Mutations in ABCC6 cause pseudoxanthoma elasticum

Author

J. Swart, Astrid S. Plomp, Sharon F. Terry, Arthur A.B. Bergen, E.J. Schuurman, Martijn H. Breuning, P.T.V.M. de Jong, Hans G. Dauwerse, Frank Baas, Marcel Kool, J.B. ten Brink, S. van Soest, Other departments, Epidemiology, and Netherlands Institute for Neuroscience (NIN)

Subjects

Male, Pathology, medicine.medical_specialty, DNA Mutational Analysis, Molecular Sequence Data, ABCC6, Connective tissue, Genes, Recessive, Generalized arterial calcification, Genetics, medicine, Humans, RNA, Messenger, Pseudoxanthoma Elasticum, Genes, Dominant, Sequence Deletion, Base Sequence, biology, Gene Expression Profiling, Homozygote, Chromosome Mapping, Chromosome, Exons, Pseudoxanthoma elasticum, medicine.disease, Disease gene identification, Pedigree, medicine.anatomical_structure, Mutation, biology.protein, ATP-Binding Cassette Transporters, Female, Visual field loss, Multidrug Resistance-Associated Proteins, Chromosomes, Human, Pair 16, Calcification

Abstract

Pseudoxanthoma elasticum (PXE) is a heritable disorder of the connective tissue. PXE patients frequently experience visual field loss and skin lesions, and occasionally cardiovascular complications1,2,3,4. Histopathological findings reveal calcification of the elastic fibres and abnormalities of the collagen fibrils5. Most PXE patients are sporadic, but autosomal recessive and dominant inheritance are also observed6,7. We previously localized the PXE gene to chromosome 16p13.1 (refs 8,9) and constructed a physical map10. Here we describe homozygosity mapping in five PXE families and the detection of deletions or mutations in ABCC6 (formerly MRP6) associated with all genetic forms of PXE in seven patients or families.

Published

2000

28. Characterization of a de novo unbalanced translocation t(14q18q) using microdissection and fluorescence in situ hybridization

Author

J. C. M. Albrechts, Astrid S. Plomp, Johannes S.H. Vles, John J.M. Engelen, Guus J. H. Hamers, Syb B. van der Meer, Joep P.M. Geraedts, Wil J. G. Loots, and Human Genetics

Subjects

Psychomotor retardation, medicine.diagnostic_test, Interstitial deletion (18) (q12.2q21.1), Chromosomal translocation, Chromosome microdissection, Degenerate oligonucleotide, Biology, Phenotype, Molecular biology, Reverse chromosome painting, Chromosome 18, medicine, medicine.symptom, Genetics (clinical), Microdissection, Fluorescence in situ hybridization

Abstract

We report on a patient with a de novo translocation between the long arms of chromosomes 14 and 18. The translocation was studied using microdissection in combination with fluorescence in situ hybridization (micro-FISH). Five copies of the chromosomes involved in the translocation were isolated by microdissection and amplified by means of degenerate oligonucleotide primed-polymerase chain reaction (DOP-PCR). Reverse chromosome painting with the biotin-labeled PCR product showed that part of the q-arm of chromosome 18 had no signal. The deletion was characterized further by FISH with band-specific probes and it was concluded that the rearrangement was unbalanced: 46,XY,t(14;18)(14pter4q22::18q21.118qter)(18pter18q12.2::14q2214qter). The patient, who presented with psychomotor retardation, mild obesity, pes equinovarus, strabismus, and facial anomalies, is compared with previously reported patients with an interstitial deletion of band 18q12. Am. J. Med. Genet. 75:409-413, 1998. © 1998 Wiley-Liss, Inc.

Published

1998

29. Twenty patients including 7 probands with autosomal dominant cutis laxa confirm clinical and molecular homogeneity

Author

Bert Callewaert, Marjolijn Renard, Paul Coucke, Valerie Layet, Emmanuelle Bourrat, Fransiska Malfait, Deborah Bartholdi, Astrid S. Plomp, Christine Bodemer, Anne De Paepe, Marlies Kempers, Smail Hadj-Rabia, Julie De Backer, Olivier Vanakker, BMC, Ed., Génétique et épigénétique des maladies métaboliques, neurosensorielles et du développement (Inserm U781), Université Paris Descartes - Paris 5 (UPD5)-Institut National de la Santé et de la Recherche Médicale (INSERM), Service de dermatologie [CHU Necker], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Centre de référence national des Maladies Génétiques à Expression Cutanée - National Reference Center for Genodermatoses and Rare Skin Diseases (MAGEC), CHU Necker - Enfants Malades [AP-HP], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Center for Medical Genetics [Ghent], Ghent University Hospital, Service de dermatologie [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Université Paris Diderot - Paris 7 (UPD7)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Radboud University Medical Center [Nijmegen], Academic Medical Center - Academisch Medisch Centrum [Amsterdam] (AMC), University of Amsterdam [Amsterdam] (UvA), Service de génétique médicale, GH Le Havre, Institute of Medical Genetics, Universität Zürich [Zürich] = University of Zurich (UZH), This work was supported by a Methusalem grant to ADP (BOF 08/01M01108 from the Ghent University and Flemish Government) providing funding to perform the molecular analysis. JDB is a senior clinical investigator and BC and FM are postdoctoral research fellows of the Fund for Scientific Research - Flanders. OV has a BOF research fellowship from the Ghent University. We are indebted to the families involved in this study as well as to REEL ( Réseau élastique), a French collaboration network on inherited diseases of the elastic fibers, that supports research by providing logistic support in patient assembly, evaluation and sample gathering and that supports patients in daily life., Centre de référence national des Maladies Génétiques à Expression Cutanée (MAGEC), Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-CHU Necker - Enfants Malades [AP-HP], Université Paris Diderot - Paris 7 (UPD7)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP)-Assistance publique - Hôpitaux de Paris (AP-HP) (AP-HP), Human Genetics, Paediatric Genetics, Génétique et épigénétique des maladies métaboliques, neurosensorielles et du développement ( Inserm U781 ), Université Paris Descartes - Paris 5 ( UPD5 ) -Institut National de la Santé et de la Recherche Médicale ( INSERM ), Assistance publique - Hôpitaux de Paris (AP-HP)-CHU Necker - Enfants Malades [AP-HP], Centre de référence national des Maladies Génétiques à Expression Cutanée ( MAGEC ), CHU Necker - Enfants Malades [AP-HP]-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris], Assistance publique - Hôpitaux de Paris (AP-HP)-Groupe Hospitalier Saint Louis - Lariboisière - Fernand Widal [Paris]-Université Paris Diderot - Paris 7 ( UPD7 ), Academic Medical Center [Amsterdam] ( AMC ), University of Amsterdam [Amsterdam] ( UvA ), University of Zürich [Zürich] ( UZH ), University of Zurich, and Hadj-Rabia, Smail

Subjects

Male, Proband, Pathology, 10039 Institute of Medical Genetics, Hernia, Inguinal, [SDV.GEN] Life Sciences [q-bio]/Genetics, Gene mutation, Severity of Illness Index, DISEASE, Cutis Laxa, Autosomal dominant cutis laxa, Exon, 0302 clinical medicine, Medicine and Health Sciences, 2736 Pharmacology (medical), Genetics(clinical), Pharmacology (medical), Frameshift Mutation, MUTATION, Genetics (clinical), Genes, Dominant, Skin, Genetics, Medicine(all), 0303 health sciences, biology, Exons, General Medicine, 3. Good health, Phenotype, Pulmonary Emphysema, C-TERMINAL EXTENSION, Female, FORM, 2716 Genetics (clinical), medicine.medical_specialty, Genotype, ELASTIN GENE, 610 Medicine & health, Frameshift mutation, 03 medical and health sciences, PROCOLLAGEN, medicine, Humans, TROPOELASTIN, Hernia, 030304 developmental biology, [SDV.GEN]Life Sciences [q-bio]/Genetics, business.industry, Research, DEGRADATION, medicine.disease, Elastin, Ehlers–Danlos syndrome, DERMATOSPARAXIS, biology.protein, 570 Life sciences, ELN, [ SDV.GEN ] Life Sciences [q-bio]/Genetics, business, EHLERS-DANLOS-SYNDROME, 030217 neurology & neurosurgery, Cutis laxa

Abstract

International audience; ABSTRACT: BACKGROUND: Elastin gene mutations have been associated with a variety of phenotypes. Autosomal dominant cutis laxa (ADCL) is a rare disorder that presents with lax skin, typical facial characteristics, inguinal hernias, aortic root dilatation and pulmonary emphysema. In most patients, frameshift mutations are found in the 3' region of the elastin gene (exons 30-34) which result in a C-terminally extended protein, though exceptions have been reported. METHODS: We clinically and molecularly characterized the thus far largest cohort of ADCL patients, consisting of 19 patients from six families and one sporadic patient. RESULTS: Molecular analysis showed C-terminal frameshift mutations in exon 30, 32, and 34 of the elastin gene and identified a mutational hotspot in exon 32 (c.2262delA). This cohort confirms the previously reported clinical constellation of skin laxity (100%), inguinal hernias (51%), aortic root dilatation (55%) and emphysema (37%). CONCLUSION: ADCL is a clinically and molecularly homogeneous disorder, but intra- and interfamilial variability in the severity of organ involvement needs to be taken into account. Regular cardiovascular and pulmonary evaluations are imperative in the clinical follow-up of these patients.

Published

2013

30. L1 retrotransposition can occur early in human embryonic development

Author

Paulus T. V. M. de Jong, Iwan C. Meij, Erik A. Sistermans, Frans P.M. Cremers, Haig H. Kazazian, Astrid S. Plomp, Ilse J. de Wijs, Lies H. Hoefsloot, Konstantinos Nikopoulos, Maria del Carmen Seleme, Arijit Mukhopadhyay, José A. J. M. van den Hurk, Hiroki Kano, Human Genetics, Paediatric Genetics, ANS - Amsterdam Neuroscience, Ophthalmology, Human genetics, Amsterdam Neuroscience - Complex Trait Genetics, and Amsterdam Reproduction & Development (AR&D)

Subjects

Male, Heterozygote, Genetics and epigenetic pathways of disease [NCMLS 6], Retroelements, Retrotransposon, Biology, Genome, Choroideremia, Genomic disorders and inherited multi-system disorders [IGMD 3], Genetics, medicine, Humans, Molecular Biology, Gene, Genetics (clinical), X-linked recessive inheritance, Embryonic Stem Cells, Germ-Line Mutation, Chromosomes, Human, X, Models, Genetic, Mosaicism, Genetic disorder, Chromosome, Gene Expression Regulation, Developmental, General Medicine, medicine.disease, Pedigree, Long Interspersed Nucleotide Elements, Genetic defects of metabolism [UMCN 5.1], Human genome, Chromosomes, Human, Pair 6, Female

Abstract

Contains fulltext : 52357.pdf (Publisher’s version ) (Closed access) L1 elements are autonomous retrotransposons that can cause hereditary diseases. We have previously identified a full-length L1 insertion in the CHM (choroideremia) gene of a patient with choroideremia, an X-linked progressive eye disease. Because this L1 element, designated L1(CHM), contains two 3'-transductions, we were able to delineate a retrotransposition path in which a precursor L1 on chromosome 10p15 or 18p11 retrotransposed to chromosome 6p21 and subsequently to the CHM gene on chromosome Xq21. A cell culture retrotransposition assay showed that L1(CHM) is one of the most active L1 elements in the human genome. Most importantly, analysis of genomic DNA from the CHM patient's relatives indicated somatic and germ-line mosaicism for the L1 insertion in his mother. These findings provide evidence that L1 retrotransposition can occur very early in human embryonic development.

Published

2007

31. Efficient molecular diagnostic strategy for ABCC6 in pseudoxanthoma elasticum

Author

Jacoline ten Brink, Arthur A.B. Bergen, Theo G. M. F. Gorgels, W. Loves, Astrid S. Plomp, Xiaofeng Hu, Marcel M.A.M. Mannens, Paulus T. V. M. de Jong, Clinical Genetics, Epidemiology, Human Genetics, Other departments, Amsterdam Cardiovascular Sciences, Amsterdam Reproduction & Development (AR&D), Ophthalmology, and Amsterdam Neuroscience

Subjects

Genetics, biology, DNA Mutational Analysis, ABCC6, Genetic Counseling, DNA, Pseudoxanthoma elasticum, medicine.disease, Nucleic Acid Denaturation, Molecular biology, DNA sequencing, Founder Effect, Exon, Mutation, biology.protein, medicine, Coding region, Humans, Allele, Multidrug Resistance-Associated Proteins, Pseudoxanthoma Elasticum, Gene, Genetics (clinical), Chromatography, High Pressure Liquid, Southern blot

Abstract

Pseudoxanthoma elasticum (PXE) is a hereditary disorder of connective tissue with skin, cardiovascular, and visual involvement. In familial cases, PXE usually segregates in an autosomal recessive fashion. The aim of this manuscript is to describe an efficient strategy for DNA diagnosis of PXE. The two most frequent mutations, R1141X and an ABCC6 del exons 23-29, as well as a core set of mutations, were identified by restriction enzyme digestion and size separation on agarose gels. Next, in the remaining patient group in which only one or no mutant allele was found, the complete coding sequence was analyzed using denaturing high-performance liquid chromatography (dHPLC). All variations found were confirmed by direct DNA sequencing. Finally, Southern blot was used to investigate the potential presence of small or large deletions. Twenty different mutations, including two novel mutations in the ABCC6 gene, were identified in 80.3% of the 76 patients, and 58.6% of the 152 ABCC6 alleles analyzed. With this strategy, 70 (78.7%) out of 89 mutant alleles could be detected within a week. We conclude that this strategy leads to both reliable and time-saving screening for mutations in the ABCC6 gene in sporadic cases and in families with PXE.

Published

2005