Your search keyword '"Meerschaut I"' showing total 12 results

1. Correction: Myhre syndrome in adulthood: clinical variability and emerging genotype-phenotype correlations.

Author

Vanbelleghem E, Van Damme T, Beyens A, Symoens S, Claes K, De Backer J, Meerschaut I, Vanommeslaeghe F, Delanghe SE, van den Ende J, Beyltjens T, Scimone ER, Lindsay ME, Schimmenti LA, Hinze AM, Dunn E, Gomez-Ospina N, Vandernoot I, Delguste T, Coppens S, Cormier-Daire V, Tartaglia M, Garavelli L, Shieh J, Demir Ş, Arslan Ateş E, Zenker M, Rohanizadegan M, Rivera-Cruz G, Douzgou S, Lin AE, and Callewaert B

Published

2024

2. Myhre syndrome in adulthood: clinical variability and emerging genotype-phenotype correlations.

Author

Vanbelleghem E, Van Damme T, Beyens A, Symoens S, Claes K, De Backer J, Meerschaut I, Vanommeslaeghe F, Delanghe SE, van den Ende J, Beyltjens T, Scimone ER, Lindsay ME, Schimmenti LA, Hinze AM, Dunn E, Gomez-Ospina N, Vandernoot I, Delguste T, Coppens S, Cormier-Daire V, Tartaglia M, Garavelli L, Shieh J, Demir Ş, Arslan Ateş E, Zenker M, Rohanizadegan M, Rivera-Cruz G, Douzgou S, Lin AE, and Callewaert B

Subjects

Humans, Male, Adult, Female, Cryptorchidism genetics, Cryptorchidism pathology, Adolescent, Growth Disorders genetics, Growth Disorders pathology, Middle Aged, Mutation, Missense, Facies, Genetic Association Studies, Hand Deformities, Congenital, Phenotype, Smad4 Protein genetics, Intellectual Disability genetics, Intellectual Disability pathology, Intellectual Disability diagnosis

Abstract

Myhre syndrome (MS, MIM 139210) is a rare multisystemic disorder caused by recurrent pathogenic missense variants in SMAD4. The clinical features have been mainly documented in childhood and comprise variable neurocognitive development, recognizable craniofacial features, a short stature with a pseudo-muscular build, hearing loss, thickened skin, joint limitations, diverse cardiovascular and airway manifestations, and increased fibrosis often following trauma or surgery. In contrast, adults with MS are underreported obscuring potential clinical variability. Here, we describe 24 adults with MS, including 17 diagnosed after the age of 18 years old, and we review the literature on adults with MS. Overall, our cohort shows a milder phenotype as well as lower mortality rates compared to what has been published in literature. Individuals with a codon 500 variant in SMAD4 present with a more pronounced neurodevelopmental and systemic phenotype. However, in contrast to the literature, we observe cardiovascular abnormalities in individuals with the p.(Arg496Cys) variant. In addition, we describe scoliosis as a new manifestation and we report fertility in two additional males with the p.(Arg496Cys). In conclusion, our study contributes novel insights into the clinical variability of MS and underscores the importance of variant-specific considerations, and we provide recommendations for the management of MS in adulthood., (© 2024. The Author(s), under exclusive licence to European Society of Human Genetics.)

Published

2024

3. Mechanism of KMT5B haploinsufficiency in neurodevelopment in humans and mice.

Author

Sheppard SE, Bryant L, Wickramasekara RN, Vaccaro C, Robertson B, Hallgren J, Hulen J, Watson CJ, Faundes V, Duffourd Y, Lee P, Simon MC, de la Cruz X, Padilla N, Flores-Mendez M, Akizu N, Smiler J, Pellegrino Da Silva R, Li D, March M, Diaz-Rosado A, Peixoto de Barcelos I, Choa ZX, Lim CY, Dubourg C, Journel H, Demurger F, Mulhern M, Akman C, Lippa N, Andrews M, Baldridge D, Constantino J, van Haeringen A, Snoeck-Streef I, Chow P, Hing A, Graham JM Jr, Au M, Faivre L, Shen W, Mao R, Palumbos J, Viskochil D, Gahl W, Tifft C, Macnamara E, Hauser N, Miller R, Maffeo J, Afenjar A, Doummar D, Keren B, Arn P, Macklin-Mantia S, Meerschaut I, Callewaert B, Reis A, Zweier C, Brewer C, Saggar A, Smeland MF, Kumar A, Elmslie F, Deshpande C, Nizon M, Cogne B, van Ierland Y, Wilke M, van Slegtenhorst M, Koudijs S, Chen JY, Dredge D, Pier D, Wortmann S, Kamsteeg EJ, Koch J, Haynes D, Pollack L, Titheradge H, Ranguin K, Denommé-Pichon AS, Weber S, Pérez de la Fuente R, Sánchez Del Pozo J, Lezana Rosales JM, Joset P, Steindl K, Rauch A, Mei D, Mari F, Guerrini R, Lespinasse J, Tran Mau-Them F, Philippe C, Dauriat B, Raymond L, Moutton S, Cueto-González AM, Tan TY, Mignot C, Grotto S, Renaldo F, Drivas TG, Hennessy L, Raper A, Parenti I, Kaiser FJ, Kuechler A, Busk ØL, Islam L, Siedlik JA, Henderson LB, Juusola J, Person R, Schnur RE, Vitobello A, Banka S, Bhoj EJ, and Stessman HAF

Subjects

Animals, Humans, Mice, Haploinsufficiency, Methyltransferases genetics, Mice, Knockout, Phenotype, Megalencephaly, Neurodevelopmental Disorders genetics, Histone Methyltransferases genetics

Abstract

Pathogenic variants in KMT5B , a lysine methyltransferase, are associated with global developmental delay, macrocephaly, autism, and congenital anomalies (OMIM # 617788). Given the relatively recent discovery of this disorder, it has not been fully characterized. Deep phenotyping of the largest ( n  = 43) patient cohort to date identified that hypotonia and congenital heart defects are prominent features that were previously not associated with this syndrome. Both missense variants and putative loss-of-function variants resulted in slow growth in patient-derived cell lines. KMT5B homozygous knockout mice were smaller in size than their wild-type littermates but did not have significantly smaller brains, suggesting relative macrocephaly, also noted as a prominent clinical feature. RNA sequencing of patient lymphoblasts and Kmt5b haploinsufficient mouse brains identified differentially expressed pathways associated with nervous system development and function including axon guidance signaling. Overall, we identified additional pathogenic variants and clinical features in KMT5B -related neurodevelopmental disorder and provide insights into the molecular mechanisms of the disorder using multiple model systems.

Published

2023

4. Exploring the Mutational Landscape of Isolated Congenital Heart Defects: An Exome Sequencing Study Using Cardiac DNA.

Author

Meerschaut I, Steyaert W, Bové T, François K, Martens T, De Groote K, De Wilde H, Muiño Mosquera L, Panzer J, Vandekerckhove K, Moons L, Vermassen P, Symoens S, Coucke PJ, De Wolf D, and Callewaert B

Subjects

Child, DNA, Humans, Mutation, Exome Sequencing, Exome genetics, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics

Abstract

Congenital heart defects (CHD) are the most common congenital anomalies in liveborn children. In contrast to syndromic CHD (SCHD), the genetic basis of isolated CHD (ICHD) is complex, and the underlying pathogenic mechanisms appear intricate and are incompletely understood. Next to rare Mendelian conditions, somatic mosaicism or a complex multifactorial genetic architecture are assumed for most ICHD. We performed exome sequencing (ES) in 73 parent-offspring ICHD trios using proband DNA extracted from cardiac tissue. We identified six germline de novo variants and 625 germline rare inherited variants with 'damaging' in silico predictions in cardiac-relevant genes expressed in the developing human heart. There were no CHD-relevant somatic variants. Transmission disequilibrium testing (TDT) and association testing (AT) yielded no statistically significant results, except for the AT of missense variants in cilia genes. Somatic mutations are not a common cause of ICHD. Rare de novo and inherited protein-damaging variants may contribute to ICHD, possibly as part of an oligogenic or polygenic disease model. TDT and AT failed to provide informative results, likely due to the lack of power, but provided a framework for future studies in larger cohorts. Overall, the diagnostic value of ES on cardiac tissue is limited in individual ICHD cases.

Published

2022

5. Further delineation of auriculocondylar syndrome based on 14 novel cases and reassessment of 25 published cases.

Author

Vegas N, Demir Z, Gordon CT, Breton S, Romanelli Tavares VL, Moisset H, Zechi-Ceide R, Kokitsu-Nakata NM, Kido Y, Marlin S, Gherbi Halem S, Meerschaut I, Callewaert B, Chung B, Revencu N, Lehalle D, Petit F, Propst EJ, Papsin BC, Phillips JH, Jakobsen L, Le Tanno P, Thévenon J, McGaughran J, Gerkes EH, Leoni C, Kroisel P, Tan TY, Henderson A, Terhal P, Basel-Salmon L, Alkindy A, White SM, Passos-Bueno MR, Pingault V, De Pontual L, and Amiel J

Subjects

Ear abnormalities, Humans, Pedigree, Phenotype, Ear Diseases genetics

Abstract

Auriculocondylar syndrome (ACS) is a rare craniofacial disorder characterized by mandibular hypoplasia and an auricular defect at the junction between the lobe and helix, known as a "Question Mark Ear" (QME). Several additional features, originating from the first and second branchial arches and other tissues, have also been reported. ACS is genetically heterogeneous with autosomal dominant and recessive modes of inheritance. The mutations identified to date are presumed to dysregulate the endothelin 1 signaling pathway. Here we describe 14 novel cases and reassess 25 published cases of ACS through a questionnaire for systematic data collection. All patients harbor mutation(s) in PLCB4, GNAI3, or EDN1. This series of patients contributes to the characterization of additional features occasionally associated with ACS such as respiratory, costal, neurodevelopmental, and genital anomalies, and provides management and monitoring recommendations., (© 2022 Wiley Periodicals LLC.)

Published

2022

6. Expanded cardiovascular phenotype of Myhre syndrome includes tetralogy of Fallot suggesting a role for SMAD4 in human neural crest defects.

Author

Cappuccio G, Brunetti-Pierri N, Clift P, Learn C, Dykes JC, Mercer CL, Callewaert B, Meerschaut I, Spinelli AM, Bruno I, Gillespie MJ, Dorfman AT, Grimberg A, Lindsay ME, and Lin AE

Subjects

Cryptorchidism, Facies, Growth Disorders, Hand Deformities, Congenital, Humans, Intellectual Disability, Male, Neural Crest, Phenotype, Smad4 Protein genetics, Heart Defects, Congenital complications, Tetralogy of Fallot complications, Tetralogy of Fallot genetics, Tetralogy of Fallot surgery

Abstract

Tetralogy of Fallot (ToF) can be associated with a wide range of extracardiac anomalies, with an underlying etiology identified in approximately 10% of cases. Individuals affected with Myhre syndrome due to recurrent SMAD4 mutations frequently have cardiovascular anomalies, including congenital heart defects. In addition to two patients in the literature with ToF, we describe five additional individuals with Myhre syndrome and classic ToF, ToF with pulmonary atresia and multiple aorto-pulmonary collaterals, and ToF with absent pulmonary valve. Aorta hypoplasia was documented in one patient and suspected in another two. In half of these individuals, postoperative cardiac dysfunction was thought to be more severe than classic postoperative ToF repair. There may be an increase in right ventricular pressure, and right ventricular dysfunction due to free pulmonic regurgitation. Noncardiac developmental abnormalities in our series and the literature, including corectopia, heterochromia iridis, and congenital miosis suggest an underlying defect of neural crest cell migration in Myhre syndrome. We advise clinicians that Myhre syndrome should be considered in the genetic evaluation of a child with ToF, short stature, unusual facial features, and developmental delay, as these children may be at risk for increased postoperative morbidity. Additional research is needed to investigate the hypothesis that postoperative hemodynamics in these patients may be consistent with restrictive myocardial physiology., (© 2022 Wiley Periodicals LLC.)

Published

2022

7. A Reassessment of Copy Number Variations in Congenital Heart Defects: Picturing the Whole Genome.

Author

Meerschaut I, Vergult S, Dheedene A, Menten B, De Groote K, De Wilde H, Muiño Mosquera L, Panzer J, Vandekerckhove K, Coucke PJ, De Wolf D, and Callewaert B

Subjects

Child, Female, Genetic Association Studies, Heart Defects, Congenital genetics, Humans, Male, Phenotype, Retrospective Studies, Chromosome Aberrations, DNA Copy Number Variations, Genetic Predisposition to Disease, Genome, Human, Heart Defects, Congenital pathology

Abstract

Copy number variations (CNVs) can modulate phenotypes by affecting protein-coding sequences directly or through interference of gene expression. Recent studies in cancer and limb defects pinpointed the relevance of non-coding gene regulatory elements such as long non-coding RNAs (lncRNAs) and topologically associated domain (TAD)-related gene-enhancer interactions. The contribution of such non-coding elements is largely unexplored in congenital heart defects (CHD). We performed a retrospective analysis of CNVs reported in a cohort of 270 CHD patients. We reviewed the diagnostic yield of pathogenic CNVs, and performed a comprehensive reassessment of 138 CNVs of unknown significance (CNV-US), evaluating protein-coding genes, lncRNA genes, and potential interferences with TAD-related gene-enhancer interactions. Fifty-two of the 138 CNV-US may relate to CHD, revealing three candidate CHD regions, 19 candidate CHD genes, 80 lncRNA genes of interest, and six potentially CHD-related TAD interferences. Our study thus indicates a potential relevance of non-coding gene regulatory elements in CNV-related CHD pathogenesis. Shortcomings in our current knowledge on genomic variation call for continuous reporting of CNV-US in international databases, careful patient counseling, and additional functional studies to confirm these preliminary findings.

Published

2021

8. A clinical scoring system for congenital contractural arachnodactyly.

Author

Meerschaut I, De Coninck S, Steyaert W, Barnicoat A, Bayat A, Benedicenti F, Berland S, Blair EM, Breckpot J, de Burca A, Destrée A, García-Miñaúr S, Green AJ, Hanna BC, Keymolen K, Koopmans M, Lederer D, Lees M, Longman C, Lynch SA, Male AM, McKenzie F, Migeotte I, Mihci E, Nur B, Petit F, Piard J, Plasschaert FS, Rauch A, Ribaï P, Pacheco IS, Stanzial F, Stolte-Dijkstra I, Valenzuela I, Varghese V, Vasudevan PC, Wakeling E, Wallgren-Pettersson C, Coucke P, De Paepe A, De Wolf D, Symoens S, and Callewaert B

Subjects

Arachnodactyly genetics, Child, Contracture genetics, Diagnosis, Differential, Early Diagnosis, Female, Genetic Testing, Humans, Male, Marfan Syndrome diagnosis, Marfan Syndrome genetics, Phenotype, Retrospective Studies, Sensitivity and Specificity, Arachnodactyly diagnosis, Contracture diagnosis, Fibrillin-2 genetics, Sequence Analysis, DNA methods

Abstract

Purpose: Congenital contractural arachnodactyly (CCA) is an autosomal dominant connective tissue disorder manifesting joint contractures, arachnodactyly, crumpled ears, and kyphoscoliosis as main features. Due to its rarity, rather aspecific clinical presentation, and overlap with other conditions including Marfan syndrome, the diagnosis is challenging, but important for prognosis and clinical management. CCA is caused by pathogenic variants in FBN2, encoding fibrillin-2, but locus heterogeneity has been suggested. We designed a clinical scoring system and diagnostic criteria to support the diagnostic process and guide molecular genetic testing., Methods: In this retrospective study, we assessed 167 probands referred for FBN2 analysis and classified them into a FBN2-positive (n = 44) and FBN2-negative group (n = 123) following molecular analysis. We developed a 20-point weighted clinical scoring system based on the prevalence of ten main clinical characteristics of CCA in both groups., Results: The total score was significantly different between the groups (P < 0.001) and was indicative for classifying patients into unlikely CCA (total score <7) and likely CCA (total score ≥7) groups., Conclusions: Our clinical score is helpful for clinical guidance for patients suspected to have CCA, and provides a quantitative tool for phenotyping in research settings.

Published

2020

9. Myhre syndrome: A first familial recurrence and broadening of the phenotypic spectrum.

Author

Meerschaut I, Beyens A, Steyaert W, De Rycke R, Bonte K, De Backer T, Janssens S, Panzer J, Plasschaert F, De Wolf D, and Callewaert B

Subjects

Adult, Alleles, Amino Acid Substitution, Biopsy, Cryptorchidism genetics, Facies, Female, Genotype, Growth Disorders genetics, Hand Deformities, Congenital genetics, Humans, Intellectual Disability genetics, Male, Middle Aged, Mutation, Radiography, Recurrence, Skin metabolism, Skin pathology, Smad4 Protein, Cryptorchidism diagnosis, Growth Disorders diagnosis, Hand Deformities, Congenital diagnosis, Intellectual Disability diagnosis, Phenotype

Abstract

Myhre syndrome is a rare multisystem connective tissue disorder, characterized by short stature, facial dysmorphology, variable intellectual disability, skeletal abnormalities, arthropathy, cardiopathy, laryngotracheal anomalies, and stiff skin. So far, all molecularly confirmed cases harbored a de novo heterozygous gain-of-function mutation in SMAD4, encoding the SMAD4 transducer protein required for both transforming growth factor-beta and bone morphogenic proteins signaling. We report on four novel patients (one female proband and her two affected children, and one male proband) with Myhre syndrome harboring the recurrent c.1486C>T (p.Arg496Cys) mutation in SMAD4. The female proband presented with a congenital heart defect, vertebral anomalies, and facial dysmorphic features. She developed severe tracheal stenosis requiring a total laryngectomy. With assisted reproductive treatment, she gave birth to two affected children. The second proband presented with visual impairment following lensectomy in childhood, short stature, brachydactyly, stiff skin, and decreased peripheral sensitivity. Transmission electron microscopy (TEM) of the dermis shows irregular elastin cores with globular deposits and almost absent surrounding microfibrils and suggests age-related increased collagen deposition. We report on the first familial case of Myhre syndrome and illustrate the variable clinical spectrum of the disorder. Despite the primarily fibrotic nature of the disease, TEM analysis mainly indicates elastic fiber anomalies., (© 2019 Wiley Periodicals, Inc.)

Published

2019

10. Tailoring the American College of Medical Genetics and Genomics and the Association for Molecular Pathology Guidelines for the Interpretation of Sequenced Variants in the FBN1 Gene for Marfan Syndrome: Proposal for a Disease- and Gene-Specific Guideline.

Author

Muiño-Mosquera L, Steijns F, Audenaert T, Meerschaut I, De Paepe A, Steyaert W, Symoens S, Coucke P, Callewaert B, Renard M, and De Backer J

Subjects

Adult, Decision Making, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Marfan Syndrome classification, Young Adult, Fibrillin-1 genetics, Genetics, Medical, Genomics methods, Marfan Syndrome genetics, Marfan Syndrome pathology, Mutation, Pathology, Molecular, Practice Guidelines as Topic standards

Abstract

Background: The introduction of next-generation sequencing techniques has substantially increased the identification of new genetic variants and hence the necessity of accurate variant interpretation. In 2015, the American College of Medical Genetics and Genomics and the Association for Molecular Pathology proposed new variant interpretation guidelines. Gene-specific characteristics were, however, not considered, sometimes leading to inconsistent variant interpretation., Methods: To allow a more uniform interpretation of variants in the FBN1 (fibrillin-1) gene, causing Marfan syndrome, we tailored these guidelines to this gene and disease. We adapted 15 of the 28 general criteria and classified 713 FBN1 variants previously identified in our laboratory as causal mutation or variant of uncertain significance according to these adapted guidelines. We then compared the agreement between previous methods and the adapted American College of Medical Genetics and Genomics and the Association for Molecular Pathology criteria., Results: Agreement between the methods was 86.4% (K-alpha, 0.6). Application of the tailored guidelines resulted in an increased number of variants of uncertain significance (14.5% to 24.2%). Of the 85 variants that were downscaled to likely benign or variant of uncertain significance, 59.7% were missense variants outside a well-established functional site. Available clinical- or segregation data, necessary to further classify these types of variants, were in many cases insufficient to aid the classification., Conclusions: Our study shows that classification of variants remains challenging and may change over time. Currently, a higher level of evidence is necessary to classify a variant as pathogenic. Gene-specific guidelines may be useful to allow a more precise and uniform interpretation of the variants to accurately support clinical decision-making., (© 2018 American Heart Association, Inc.)

Published

2018

11. FOXP1 -related intellectual disability syndrome: a recognisable entity.

Author

Meerschaut I, Rochefort D, Revençu N, Pètre J, Corsello C, Rouleau GA, Hamdan FF, Michaud JL, Morton J, Radley J, Ragge N, García-Miñaúr S, Lapunzina P, Bralo MP, Mori MÁ, Moortgat S, Benoit V, Mary S, Bockaert N, Oostra A, Vanakker O, Velinov M, de Ravel TJ, Mekahli D, Sebat J, Vaux KK, DiDonato N, Hanson-Kahn AK, Hudgins L, Dallapiccola B, Novelli A, Tarani L, Andrieux J, Parker MJ, Neas K, Ceulemans B, Schoonjans AS, Prchalova D, Havlovicova M, Hancarova M, Budisteanu M, Dheedene A, Menten B, Dion PA, Lederer D, and Callewaert B

Subjects

Autism Spectrum Disorder genetics, Face abnormalities, Female, Forkhead Transcription Factors chemistry, Forkhead Transcription Factors metabolism, Humans, Language Disorders genetics, Male, Motor Skills Disorders genetics, Mutation, Mutation, Missense, Neurodevelopmental Disorders genetics, Phenotype, Protein Stability, Repressor Proteins chemistry, Repressor Proteins metabolism, Syndrome, Transcription, Genetic, Forkhead Transcription Factors genetics, Intellectual Disability genetics, Repressor Proteins genetics

Abstract

Background: Mutations in forkhead box protein P1 ( FOXP1 ) cause intellectual disability (ID) and specific language impairment (SLI), with or without autistic features (MIM: 613670). Despite multiple case reports no specific phenotype emerged so far., Methods: We correlate clinical and molecular data of 25 novel and 23 previously reported patients with FOXP1 defects. We evaluated FOXP1 activity by an in vitro luciferase model and assessed protein stability in vitro by western blotting., Results: Patients show ID, SLI, neuromotor delay (NMD) and recurrent facial features including a high broad forehead, bent downslanting palpebral fissures, ptosis and/or blepharophimosis and a bulbous nasal tip. Behavioural problems and autistic features are common. Brain, cardiac and urogenital malformations can be associated. More severe ID and NMD, sensorineural hearing loss and feeding difficulties are more common in patients with interstitial 3p deletions (14 patients) versus patients with monogenic FOXP1 defects (34 patients). Mutations result in impaired transcriptional repression and/or reduced protein stability., Conclusions: FOXP1 -related ID syndrome is a recognisable entity with a wide clinical spectrum and frequent systemic involvement. Our data will be helpful to evaluate genotype-phenotype correlations when interpreting next-generation sequencing data obtained in patients with ID and/or SLI and will guide clinical management., Competing Interests: Competing interests: None declared., (© Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2017. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published

2017

12. Severe congenital neutropenia with neurological impairment due to a homozygous VPS45 p.E238K mutation: A case report suggesting a genotype-phenotype correlation.

Author

Meerschaut I, Bordon V, Dhooge C, Delbeke P, Vanlander AV, Simon A, Klein C, Kooy RF, Somech R, and Callewaert B

Subjects

Child, Preschool, Congenital Bone Marrow Failure Syndromes, Female, Genotype, Humans, Nervous System Diseases pathology, Neutropenia complications, Neutropenia genetics, Neutropenia pathology, Phenotype, Prognosis, Homozygote, Mutation genetics, Nervous System Diseases etiology, Neutropenia congenital, Vesicular Transport Proteins genetics

Abstract

VPS45 mutations cause severe congenital neutropenia (SCN). We report on a girl with SCN and neurological impairment harboring a homozygous p.E238K mutation in VPS45 (vacuolar sorting protein 45). She successfully underwent hematopoietic stem cell transplantation. Our findings delineate the phenotype and indicate a possible genotype-phenotype correlation for neurological involvement., (© 2015 Wiley Periodicals, Inc.)

Published

2015