Your search keyword '"langer-giedion-syndrome"' showing total 3 results

1. 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

2. What to consider when pseudohypoparathyroidism is ruled out: iPPSD and differential diagnosis

Author

AMPARO SANCHIS CALVO, Arrate Pereda, Isolina Riaño-Galan, Guiomar Perez de Nanclares, Lucia Garzon Lorenzo, Loreto Martorell, Juan de Dios García Díaz, Saoud Tahsin Swafiri Swafiri, Fiona Blanco-Kelly, and Maria Juliana Ballesta Martinez

Subjects

0301 basic medicine, Male, Candidate gene, Gene Dosage, 030105 genetics & heredity, Langer–Giedion syndrome, GTP-Binding Protein alpha Subunits, Gs, Child, identifies pde4d mutations, Albright's hereditary osteodystrophy, growth-hormone deficiency, Genetics (clinical), langer-giedion-syndrome, Genetics, biology, medicine.diagnostic_test, Brachydactyly, brachydactyly, pseudohypoparathyroidism, autosomal-dominant hypertension, trichorhinophalangeal syndrome, DNA-Binding Proteins, Phenotype, Child, Preschool, Pseudohypoparathyroidism, Female, hormone resistance, Research Article, Adult, lcsh:Internal medicine, lcsh:QH426-470, Adolescent, Cyclic AMP-Dependent Protein Kinase RIalpha Subunit, Diagnosis, Differential, 03 medical and health sciences, GNAS complex locus, medicine, Chromogranins, severe osteoporosis, Humans, Genetic Testing, Hormone resistance, lcsh:RC31-1245, rhino-phalangeal-syndrome, Genetic testing, business.industry, Parathyroid Hormone-Related Protein, Infant, medicine.disease, Cyclic Nucleotide Phosphodiesterases, Type 4, short stature, Repressor Proteins, lcsh:Genetics, Short stature, brachydactyly type-e, Genetic Loci, albright's hereditary osteodystrophy, mental-retardation, Mutation, biology.protein, Albright’s hereditary osteodystrophy, Differential diagnosis, business, Transcription Factors

Abstract

Background: Pseudohypoparathyroidism (PHP) is a rare disease whose phenotypic features are rather difficult to identify in some cases. Thus, although these patients may present with the Albright's hereditary osteodystrophy (AHO) phenotype, which is characterized by small stature, obesity with a rounded face, subcutaneous ossifications, mental retardation and brachydactyly, its manifestations are somewhat variable. Indeed, some of them present with a complete phenotype, whereas others show only subtle manifestations. In addition, the features of the AHO phenotype are not specific to it and a similar phenotype is also commonly observed in other syndromes. Brachydactyly type E (BDE) is the most specific and objective feature of the AHO phenotype, and several genes have been associated with syndromic BDE in the past few years. Moreover, these syndromes have a skeletal and endocrinological phenotype that overlaps with AHO/PHP. In light of the above, we have developed an algorithm to aid in genetic testing of patients with clinical features of AHO but with no causative molecular defect at the GNAS locus. Starting with the feature of brachydactyly, this algorithm allows the differential diagnosis to be broadened and, with the addition of other clinical features, can guide genetic testing. Methods: We reviewed our series of patients (n = 23) with a clinical diagnosis of AHO and with brachydactyly type E or similar pattern, who were negative for GNAS anomalies, and classify them according to the diagnosis algorithm to finally propose and analyse the most probable gene(s) in each case. Results: A review of the clinical data for our series of patients, and subsequent analysis of the candidate gene(s), allowed detection of the underlying molecular defect in 12 out of 23 patients: five patients harboured a mutation in PRKAR1A, one in PDE4D, four in TRPS1 and two in PTHLH. Conclusions: This study confirmed that the screening of other genes implicated in syndromes with BDE and AHO or a similar phenotype is very helpful for establishing a correct genetic diagnosis for those patients who have been misdiagnosed with "AHO-like phenotype" with an unknown genetic cause, and also for better describing the characteristic and differential features of these less common syndromes. The study was supported by funding from a research project grant (PI13/00467) from the Instituto de Salud Carlos III (Carlos III Institute of Health) of the Ministry of Economy and Competitiveness (Spain), co-financed by the European Regional Development Fund, and the Department of Health of the Basque Government (GV2014111017). AP is partly supported by the University of the Basque Country (Ref: 48198). GPN is partly supported by the I3SNS Program of the Spanish Ministry of Health (CP03/0064; SIVI 1395/09).

Published

2017

3. An 8.35 Mb overlapping interstitial deletion of 8q24 in two patients with coloboma, congenital heart defect, limb abnormalities, psychomotor retardation and convulsions

Author

N. de Leeuw, Y. E. M. Thomasse, D. Olde Weghuis, G. J. van den Hoek, Carlo M. Marcelis, Joke B. G. M. Verheij, R. S. Rijlaarsdam, van Conny Ravenswaaij-Arts, S. A. de Munnik, Frederik G. Dikkers, T. Dijkhuizen, and Faculteit Medische Wetenschappen/UMCG

Subjects

Heart Defects, Congenital, Male, Pathology, medicine.medical_specialty, Langer-Giedion Syndrome, Interstitial deletion 8q, Neurological disorder, Array CGH, medicine.disease_cause, Langer–Giedion syndrome, Chromosome Painting, Genomic disorders and inherited multi-system disorders [IGMD 3], Fatal Outcome, Gene mapping, Seizures, Convulsion, Digital anomalies, Genetics, medicine, Humans, Abnormalities, Multiple, LANGER-GIEDION-SYNDROME, MUTATION, JERKY, Genetics (clinical), In Situ Hybridization, Fluorescence, Coloboma, Mutation, Comparative Genomic Hybridization, Psychomotor retardation, business.industry, Infant, Newborn, Infant, General Medicine, DNA, Reference Standards, medicine.disease, Heart defect, Female, medicine.symptom, Chromosome Deletion, Haploinsufficiency, business, Chromosomes, Human, Pair 8

Abstract

Contains fulltext : 79985.pdf (Publisher’s version ) (Closed access) Chromosome analysis in two young patients with multiple congenital anomalies revealed a de novo interstitial deletion of 8q that has not been reported before. The deletions were overlapping by 8.35 Mb (8q24.21q24.23). The clinical features shared by our patients were coloboma, VSD, digital abnormalities, congenital dislocation of a hip, feeding problems, psychomotor delay and convulsions. The deletion included the region for Langer-Giedion syndrome (TRPS1 and EXT1) in the girl only. However, she is too young to present features of this syndrome, apart from dysmorphic features like a bulbous nose and notched alae nasi. Several genes are present in the commonly deleted region, including genes with unknown function, and genes for which haploinsufficiency is known to have no phenotypic effect in mice (Wnt1). A gene that might play a role in the convulsions of our patients is KCNQ3.

Published

2008