Your search keyword '"Castilla-Vallmanya L"' showing total 15 results

1. Truncating mutations in MAGEL2 cause alterations in A beta 1-40 levels and gene expression in fibroblasts

Author

Castilla-Vallmanya, L, Centeno-Pla, M, Franco-Valls, H, Prat-Planas, A, Rojano, E, Seoane, P, Perkins, JR, Garcia-Ranea, JA, Oliva, C, Ormazabal-Herrero A, Artuch-Iriberri R, Raquel Rabionet Janssen, Grinberg-Vaisman DR, Balcells S, and Urreizti R

Published

2022

2. Extending the phenotypic spectrum of Bohring-Opitz syndrome: Mild case confirmed by functional studies

Author

Leon E, Diaz J, Castilla-Vallmanya L, Grinberg-Vaisman DR, Balcells S, and Urreizti R

Subjects

ASXL1, mild, functional studies, Bohring-Opitz syndrome

Abstract

Bohring-Opitz syndrome (BOS) has been described as a clinically recognizable genetic syndrome since 1999. Clinical diagnostic criteria were established in 2011 and include microcephaly, trigonocephaly, distinctive craniofacial dysmorphic features, facial nevus flammeus, failure to thrive, and severe developmental delays. The same year, different de novo heterozygous nonsense mutations in the ASXL1 were found in affected individuals. Since then, several cases have been reported confirming the association between this chromatin remodeling gene and BOS. Most affected individuals die in early childhood because of unexplained bradycardia, obstructive apnea, or pulmonary infections. Those that survive usually cannot walk independently and are nonverbal. Some have had success using walkers and braces in late childhood. While few are able to speak, many have been able to express basic needs using communication devices as well as gestures with associated basic vocalizations. In this article, we present a mild case of BOS with a de novo pathogenic mutation c.1720-2A>G (p.I574VfsX22) in ASXL1 detected on whole-exome sequencing and confirmed by functional analysis of the messenger RNA splicing pattern on the patient's fibroblasts. She has typical dysmorphic features and is able to run and walk independently as well as to communicate with basic sign language.

Published

2020

3. Correction: DPH1 syndrome: two novel variants and structural and functional analyses of seven missense variants identified in syndromic patients

Author

Urreizti R, Mayer K, Evrony GD, Said E, Castilla-Vallmanya L, Cody NAL, Plasencia G, Gelb BD, Grinberg-Vaisman DR, Brinkmann U, Webb BD, and Balcells S

Abstract

Following the publication of the article, it was noted that the last column in Table 1, the total % should have read 5/8 (62.5) for the 'Epilepsy' row, and not 5.7 (71.4). This has now been amended in the HTML and PDF of the original article.

Published

2020

4. Five new cases of syndromic intellectual disability due to KAT6A mutations: widening the molecular and clinical spectrum

Author

Urreizti R, Lopez-Martin E, Martinez-Monseny T, Pujadas M, Castilla-Vallmanya L, Pérez-Jurado LA, Serrano M, Natera-de Benito D, Martínez-Delgado B, Posada-de-la-Paz M, Alonso J, Marin-Reina P, O'Callaghan-Gordo M, Grinberg-Vaisman DR, Bermejo-Sánchez E, and Balcells S

Subjects

Clinical characterization, Clinical genetics, Clinical characterization, Clinical genetics, KAT6A, Neurodevelopmental disease, Whole exome sequencing, KAT6A, Neurodevelopmental disease, Whole exome sequencing

Abstract

BACKGROUND: Pathogenic variants of the lysine acetyltransferase 6A or KAT6A gene are associated with a newly identified neurodevelopmental disorder characterized mainly by intellectual disability of variable severity and speech delay, hypotonia, and heart and eye malformations. Although loss of function (LoF) mutations were initially reported as causing this disorder, missense mutations, to date always involving serine residues, have recently been associated with a form of the disorder without cardiac involvement. RESULTS: In this study we present five new patients, four with truncating mutations and one with a missense change and the only one not presenting with cardiac anomalies. The missense change [p.(Gly359Ser)], also predicted to affect splicing by in silico tools, was functionally tested in the patient's lymphocyte RNA revealing a splicing effect for this allele that would lead to a frameshift and premature truncation. CONCLUSIONS: An extensive revision of the clinical features of these five patients revealed high concordance with the 80 cases previously reported, including developmental delay with speech delay, feeding difficulties, hypotonia, a high bulbous nose, and recurrent infections. Other features present in some of these five patients, such as cryptorchidism in males, syndactyly, and trigonocephaly, expand the clinical spectrum of this syndrome.

Published

2020

5. DPH1 syndrome: two novel variants and structural and functional analyses of seven missense variants identified in syndromic patients

Author

Urreizti R, Mayer K, Evrony GD, Said E, Castilla-Vallmanya L, Cody NAL, Plasencia G, Gelb BD, Grinberg-Vaisman DR, Brinkmann U, Webb BD, and Balcells S

Abstract

DPH1 variants have been associated with an ultra-rare and severe neurodevelopmental disorder, mainly characterized by variable developmental delay, short stature, dysmorphic features, and sparse hair. We have identified four new patients (from two different families) carrying novel variants in DPH1, enriching the clinical delineation of the DPH1 syndrome. Using a diphtheria toxin ADP-ribosylation assay, we have analyzed the activity of seven identified variants and demonstrated compromised function for five of them [p.(Leu234Pro); p.(Ala411Argfs*91); p.(Leu164Pro); p.(Leu125Pro); and p.(Tyr112Cys)]. We have built a homology model of the human DPH1-DPH2 heterodimer and have performed molecular dynamics simulations to study the effect of these variants on the catalytic sites as well as on the interactions between subunits of the heterodimer. The results show correlation between loss of activity, reduced size of the opening to the catalytic site, and changes in the size of the catalytic site with clinical severity. This is the first report of functional tests of DPH1 variants associated with the DPH1 syndrome. We demonstrate that the in vitro assay for DPH1 protein activity, together with structural modeling, are useful tools for assessing the effect of the variants on DPH1 function and may be used for predicting patient outcomes and prognoses.

Published

2020

6. Phenotypic spectrum and transcriptomic profile associated with germline variants in TRAF7

Author

Castilla-Vallmanya L, Selmer KK, Dimartino C, Raquel Rabionet Janssen, Blanco-Sánchez B, Yang S, Reijnders MRF, van Essen AJ, Oufadem M, Vigeland MD, Stadheim B, Houge G, Cox H, Kingston H, Clayton-Smith J, Innis JW, Iascone M, Cereda A, Gabbiadini S, Chung WK, Sanders V, Charrow J, Bryant E, Millichap J, Vitobello A, Thauvin C, Mau-Them FT, Faivre L, Lesca G, Labalme A, Rougeot C, Chatron N, Sanlaville D, Christensen KM, Kirby A, Lewandowski R, Gannaway R, Aly M, Lehman A, Clarke L, Graul-Neumann L, Zweier C, Lessel D, Lozic B, Aukrust I, Peretz R, Stratton R, Smol T, Dieux-Coëslier A, Meira J, Wohler E, Sobreira N, Beaver EM, Heeley J, Briere LC, High FA, Sweetser DA, Walker MA, Keegan CE, Jayakar P, Shinawi M, Kerstjens-Frederikse WS, Earl DL, Siu VM, Reesor E, Yao T, Hegele RA, Vaske OM, Rego S, Undiagnosed Diseases Network, Care4Rare Canada Consortium, Shapiro KA, Wong B, Gambello MJ, McDonald M, Karlowicz D, Colombo R, Serretti A, Pais L, O'Donnell-Luria A, Wray A, Sadedin S, Chong B, Tan TY, Christodoulou J, White SM, Slavotinek A, Barbouth D, Morel Swols D, Parisot M, Bole-Feysot C, Nitschké P, Pingault V, Munnich A, Cho MT, Cormier-Daire V, Balcells S, Lyonnet S, Grinberg-Vaisman DR, Amiel J, Urreizti R, and Gordon CT

Subjects

craniofacial development, patent ductus arteriosus, TRAF7, intellectual disability, blepharophimosis

Abstract

PURPOSE: Somatic variants in tumor necrosis factor receptor-associated factor 7 (TRAF7) cause meningioma, while germline variants have recently been identified in seven patients with developmental delay and cardiac, facial, and digital anomalies. We aimed to define the clinical and mutational spectrum associated with TRAF7 germline variants in a large series of patients, and to determine the molecular effects of the variants through transcriptomic analysis of patient fibroblasts. METHODS: We performed exome, targeted capture, and Sanger sequencing of patients with undiagnosed developmental disorders, in multiple independent diagnostic or research centers. Phenotypic and mutational comparisons were facilitated through data exchange platforms. Whole-transcriptome sequencing was performed on RNA from patient- and control-derived fibroblasts. RESULTS: We identified heterozygous missense variants in TRAF7 as the cause of a developmental delay-malformation syndrome in 45 patients. Major features include a recognizable facial gestalt (characterized in particular by blepharophimosis), short neck, pectus carinatum, digital deviations, and patent ductus arteriosus. Almost all variants occur in the WD40 repeats and most are recurrent. Several differentially expressed genes were identified in patient fibroblasts. CONCLUSION: We provide the first large-scale analysis of the clinical and mutational spectrum associated with the TRAF7 developmental syndrome, and we shed light on its molecular etiology through transcriptome studies.

Published

2020

7. Neuronal and Astrocytic Differentiation from Sanfilippo C Syndrome iPSCs for Disease Modeling and Drug Development

Author

Beneto N, Cozar M, Castilla-Vallmanya L, Zetterdahl OG, Sacultanu M, Segur-Bailach E, García-Morant M, Ribes A, Ahlenius H, Grinberg-Vaisman DR, Vilageliu L, and Canals I

Subjects

astrocyte differentiation, induced pluripotent stem cells, lysosomal storage disorders, lysosomes, mucopolysaccharidosis III, neuronal differentiation, sanfilippo syndrome, siRNAs, substrate reduction therapy, transcription factor-based differentiation

Abstract

Sanfilippo syndrome type C (mucopolysaccharidosis IIIC) is an early-onset neurodegenerative lysosomal storage disorder, which is currently untreatable. The vast majority of studies focusing on disease mechanisms of Sanfilippo syndrome were performed on non-neural cells or mouse models, which present obvious limitations. Induced pluripotent stem cells (iPSCs) are an efficient way to model human diseases in vitro. Recently developed transcription factor-based differentiation protocols allow fast and efficient conversion of iPSCs into the cell type of interest. By applying these protocols, we have generated new neuronal and astrocytic models of Sanfilippo syndrome using our previously established disease iPSC lines. Moreover, our neuronal model exhibits disease-specific molecular phenotypes, such as increase in lysosomes and heparan sulfate. Lastly, we tested an experimental, siRNA-based treatment previously shown to be successful in patients' fibroblasts and demonstrated its lack of efficacy in neurons. Our findings highlight the need to use relevant human cellular models to test therapeutic interventions and shows the applicability of our neuronal and astrocytic models of Sanfilippo syndrome for future studies on disease mechanisms and drug development.

Published

2020

8. Case report of a child bearing a novel deleterious splicing variant in PIGT

Author

Mason S, Castilla-Vallmanya L, James C, Andrews PI, Balcells S, Grinberg-Vaisman DR, Kirk EP, and Urreizti R

Abstract

RATIONALE: Trio family-based whole exome sequencing (WES) is a powerful tool in the diagnosis of rare neurodevelopmental diseases, even in patients with the unclear diagnosis. There have been previous reports of variants in the phosphatidylinositol glycan anchor biosynthesis class T (PIGT) gene associated with multiple congenital anomalies, with a total of 14 affected individuals across 8 families. PATIENT CONCERNS: An 18-month-old boy of Greek ancestry presented with global developmental delay, generalized tonic-clonic seizures, hypotonia, renal cysts, esotropia, bilateral undescended testes, bilateral vesicoureteric reflux, marked cardiac dextroposition, bilateral talipes equinovarus, and dysmorphic features. DIAGNOSIS: WES revealed 2 compound heterozygous variants in the PIGT gene, c.[494-2A>G]; [547A>C]/p.[Asp122Glyfs*35]; [Thr183Pro]. The splicing mutation was demonstrated to lead to the skipping of exon 4. INTERVENTIONS: Seizures, infections, and other main symptoms were treated. OUTCOMES: The patient died at 2 years of age before the molecular diagnosis was achieved. Genetic counseling has been offered to the family. LESSONS: Most of the clinical features of the patient are in agreement with the previously described PIGT cases corroborating the usefulness of WES as a diagnostic tool.

Published

2019

9. A De Novo FOXP1 Truncating Mutation in a Patient Originally Diagnosed as C Syndrome

Author

Urreizti R, Damanti S, Esteve-Matanza C, Franco-Valls H, Castilla-Vallmanya L, Tonda R, Cormand B, Vilageliu L, Opitz JM, Neri G, Grinberg-Vaisman DR, and Balcells S

Abstract

De novo FOXP1 mutations have been associated with intellectual disability (ID), motor delay, autistic features and a wide spectrum of speech difficulties. C syndrome (Opitz C trigonocephaly syndrome) is a rare and genetically heterogeneous condition, characterized by trigonocephaly, craniofacial anomalies and ID. Several different chromosome deletions and and point mutations in distinct genes have been associated with the disease in patients originally diagnosed as Opitz C. By whole exome sequencing we identified a de novo splicing mutation in FOXP1 in a patient, initially diagnosed as C syndrome, who suffers from syndromic intellectual disability with trigonocephaly. The mutation (c.1428 + 1 G > A) promotes the skipping of exon 16, a frameshift and a premature STOP codon (p.Ala450GLyfs*13), as assessed by a minigene strategy. The patient reported here shares speech difficulties, intellectual disability and autistic features with other FOXP1 syndrome patients, and thus the diagnosis for this patient should be changed. Finally, since trigonocephaly has not been previously reported in FOXP1 syndrome, it remains to be proved whether it may be associated with the FOXP1 mutation.

Published

2018

10. Phenotypic spectrum and transcriptomic profile associated with germline variants in TRAF7

Author

Robert A. Hegele, Maria Iascone, Kevin A. Shapiro, Nicolas Chatron, Marwan Shinawi, Joel Charrow, Jeffrey W. Innis, Luitgard Graul-Neumann, Joanna Goes Castro Meira, Anna Lehman, Dawn L. Earl, Victoria R. Sanders, Shannon Rego, David A. Sweetser, Clémantine Dimartino, Wilhelmina S. Kerstjens-Frederikse, Antonio Vitobello, Davor Lessel, Daniel Grinberg, Laurence Faivre, Ryan Peretz, Katherine M. Christensen, Emma Reesor, Erin Beaver, Elizabeth Wohler, Margot R.F. Reijnders, Deborah Barbouth, Anna Cereda, Kaja Kristine Selmer, Melissa A. Walker, Barbro Stadheim, Alessandro Serretti, Helen Kingston, Jill Clayton-Smith, Raymond Lewandowski, Bernarda Lozić, Robert Stratton, Amelia Kirby, Anne H. O’Donnell-Luria, Sara Gabbiadini, Susanna Balcells, Myriam Oufadem, Christel Thauvin, Maha Aly, Wendy K. Chung, Susan M. White, Lauren C. Briere, Thomas Smol, Stanislas Lyonnet, Roberto Colombo, Catherine E. Keegan, Marie T. McDonald, Melanie Parisot, Tiong Yang Tan, Brian Wong, Christopher T. Gordon, Magnus Dehli Vigeland, Frances A. High, Emily Bryant, Audrey Labalme, Nara Sobreira, Arnold Munnich, Jeanne Amiel, Dayna Morel Swols, Raquel Rabionet, Laura Castilla-Vallmanya, Jennifer Heeley, Gunnar Houge, Michael J. Gambello, Bernardo Blanco-Sánchez, Lynn Pais, Olena M. Vaske, Roser Urreizti, Alison Wray, Veronique Pingault, Damien Sanlaville, John Christodoulou, John Millichap, Valérie Cormier-Daire, Parul Jayakar, Helen Cox, Frédéric Tran Mau-Them, Belinda Chong, Victoria Mok Siu, Anne Slavotinek, Antonie J. van Essen, Ingvild Aukrust, Lorne A. Clarke, Rachel Gannaway, Anne Dieux-Coeslier, Patrick Nitschké, Tony Yao, Simon Sadedin, Danielle Karlowicz, Christelle Rougeot, Christine Bole-Feysot, Sandra Yang, Megan T. Cho, Gaetan Lesca, Christiane Zweier, Castilla-Vallmanya L., Selmer K.K., Dimartino C., Rabionet R., Blanco-Sanchez B., Yang S., Reijnders M.R.F., van Essen A.J., Oufadem M., Vigeland M.D., Stadheim B., Houge G., Cox H., Kingston H., Clayton-Smith J., Innis J.W., Iascone M., Cereda A., Gabbiadini S., Chung W.K., Sanders V., Charrow J., Bryant E., Millichap J., Vitobello A., Thauvin C., Mau-Them F.T., Faivre L., Lesca G., Labalme A., Rougeot C., Chatron N., Sanlaville D., Christensen K.M., Kirby A., Lewandowski R., Gannaway R., Aly M., Lehman A., Clarke L., Graul-Neumann L., Zweier C., Lessel D., Lozic B., Aukrust I., Peretz R., Stratton R., Smol T., Dieux-Coeslier A., Meira J., Wohler E., Sobreira N., Beaver E.M., Heeley J., Briere L.C., High F.A., Sweetser D.A., Walker M.A., Keegan C.E., Jayakar P., Shinawi M., Kerstjens-Frederikse W.S., Earl D.L., Siu V.M., Reesor E., Yao T., Hegele R.A., Vaske O.M., Rego S., Shapiro K.A., Wong B., Gambello M.J., McDonald M., Karlowicz D., Colombo R., Serretti A., Pais L., O'Donnell-Luria A., Wray A., Sadedin S., Chong B., Tan T.Y., Christodoulou J., White S.M., Slavotinek A., Barbouth D., Morel Swols D., Parisot M., Bole-Feysot C., Nitschke P., Pingault V., Munnich A., Cho M.T., Cormier-Daire V., Balcells S., Lyonnet S., Grinberg D., Amiel J., Urreizti R., Gordon C.T., MUMC+: DA KG Polikliniek (9), and RS: FHML non-thematic output

Subjects

0301 basic medicine, NF-KAPPA-B, PROTEIN, 030105 genetics & heredity, medicine.disease_cause, Germline, Transcriptome, ACTIVATION, POLYUBIQUITINATION, Missense mutation, Exome, Genetics (clinical), Genetics, Sanger sequencing, Mutation, leads, Necrosi, craniofacial development, Phenotype, Tumor Necrosis Factor Receptor-Associated Peptides and Proteins, intellectual disability, patent ductus arteriosu, symbols, Mutation, Missense, Biology, traf7, Article, akt1, target, 03 medical and health sciences, symbols.namesake, Necrosis, patent ductus arteriosus, medicine, Humans, blepharophimosi, Tumors, MUTATIONS, Fibroblasts, medicine.disease, Blepharophimosis, TRAF7, blepharophimosis, GENOMIC ANALYSIS, Germ Cells, 030104 developmental biology, MENINGIOMAS

Abstract

PURPOSE: Somatic variants in tumor necrosis factor receptor-associated factor 7 (TRAF7) cause meningioma, while germline variants have recently been identified in seven patients with developmental delay and cardiac, facial, and digital anomalies. We aimed to define the clinical and mutational spectrum associated with TRAF7 germline variants in a large series of patients, and to determine the molecular effects of the variants through transcriptomic analysis of patient fibroblasts.METHODS: We performed exome, targeted capture, and Sanger sequencing of patients with undiagnosed developmental disorders, in multiple independent diagnostic or research centers. Phenotypic and mutational comparisons were facilitated through data exchange platforms. Whole-transcriptome sequencing was performed on RNA from patient- and control-derived fibroblasts.RESULTS: We identified heterozygous missense variants in TRAF7 as the cause of a developmental delay-malformation syndrome in 45 patients. Major features include a recognizable facial gestalt (characterized in particular by blepharophimosis), short neck, pectus carinatum, digital deviations, and patent ductus arteriosus. Almost all variants occur in the WD40 repeats and most are recurrent. Several differentially expressed genes were identified in patient fibroblasts.CONCLUSION: We provide the first large-scale analysis of the clinical and mutational spectrum associated with the TRAF7 developmental syndrome, and we shed light on its molecular etiology through transcriptome studies.

Published

2020

11. Mini-heterochromatin domains constrain the cis-regulatory impact of SVA transposons in human brain development and disease.

Author

Horváth V, Garza R, Jönsson ME, Johansson PA, Adami A, Christoforidou G, Karlsson O, Castilla Vallmanya L, Koutounidou S, Gerdes P, Pandiloski N, Douse CH, and Jakobsson J

Subjects

Humans, Epigenesis, Genetic, Short Interspersed Nucleotide Elements genetics, DNA Methylation, Brain metabolism, Histone Acetyltransferases genetics, Histone Acetyltransferases metabolism, Neural Stem Cells metabolism, Minisatellite Repeats genetics, Retroelements genetics, Alu Elements genetics, Repressor Proteins genetics, Repressor Proteins metabolism, Dystonic Disorders genetics, Dystonic Disorders metabolism, Histones metabolism, Histones genetics, TATA-Binding Protein Associated Factors genetics, TATA-Binding Protein Associated Factors metabolism, Transcription Factor TFIID genetics, Transcription Factor TFIID metabolism, Heterochromatin metabolism, Heterochromatin genetics

Abstract

SVA (SINE (short interspersed nuclear element)-VNTR (variable number of tandem repeats)-Alu) retrotransposons remain active in humans and contribute to individual genetic variation. Polymorphic SVA alleles harbor gene regulatory potential and can cause genetic disease. However, how SVA insertions are controlled and functionally impact human disease is unknown. Here we dissect the epigenetic regulation and influence of SVAs in cellular models of X-linked dystonia parkinsonism (XDP), a neurodegenerative disorder caused by an SVA insertion at the TAF1 locus. We demonstrate that the KRAB zinc finger protein ZNF91 establishes H3K9me3 and DNA methylation over SVAs, including polymorphic alleles, in human neural progenitor cells. The resulting mini-heterochromatin domains attenuate the cis-regulatory impact of SVAs. This is critical for XDP pathology; removal of local heterochromatin severely aggravates the XDP molecular phenotype, resulting in increased TAF1 intron retention and reduced expression. Our results provide unique mechanistic insights into how human polymorphic transposon insertions are recognized and how their regulatory impact is constrained by an innate epigenetic defense system., (© 2024. The Author(s).)

Published

2024

12. Fibroblast phenylalanine concentration as a surrogate biomarker of cellular number.

Author

Oliva C, Arias A, Ruiz M, Pujol A, Garrabou G, Canto-Santos J, Urreizti R, Castilla-Vallmanya L, Rodriguez-Gonzalez H, Jou C, Casado M, Ormazabal A, and Artuch R

Subjects

Humans, Chromatography, Liquid, Amino Acids metabolism, Fibroblasts, Metabolomics, Biomarkers metabolism, Phenylalanine metabolism, Tandem Mass Spectrometry

Abstract

Metabolomics studies in human dermal fibroblasts can elucidate the biological mechanisms associated with some diseases, but several methodological issues that increase variability have been identified. We aimed to quantify the amino acid levels in cultured fibroblasts and to apply different sample-based normalization approaches. Forty-four skin biopsies from control subjects were collected. Amino acids were measured in fibroblasts supernatants by UPLC-MS/MS. Statistical supervised and unsupervised studies were used. Spearman's test showed that phenylalanine displayed the second highest correlation with the remaining amino acids (mean r = 0.8), whereas the total protein concentration from the cell pellet showed a mean of r = 0.67. The lowest percentage of variation was obtained when amino acids were normalized by phenylalanine values, with a mean of 42% vs 57% when normalized by total protein values. When amino acid levels were normalized by phenylalanine, Principal Component Analysis and clustering analyses identified different fibroblasts groups. In conclusion, phenylalanine may be a suitable biomarker to estimate cellular content in cultured fibroblasts., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

13. Advancing in Schaaf-Yang syndrome pathophysiology: from bedside to subcellular analyses of truncated MAGEL2.

Author

Castilla-Vallmanya L, Centeno-Pla M, Serrano M, Franco-Valls H, Martínez-Cabrera R, Prat-Planas A, Rojano E, Ranea JAG, Seoane P, Oliva C, Paredes-Fuentes AJ, Marfany G, Artuch R, Grinberg D, Rabionet R, Balcells S, and Urreizti R

Subjects

Humans, Phenotype, Mutation, Proteins genetics, Biomarkers, Prader-Willi Syndrome genetics

Abstract

Background: Schaaf-Yang syndrome (SYS) is caused by truncating mutations in MAGEL2 , mapping to the Prader-Willi region (15q11-q13), with an observed phenotype partially overlapping that of Prader-Willi syndrome. MAGEL2 plays a role in retrograde transport and protein recycling regulation. Our aim is to contribute to the characterisation of SYS pathophysiology at clinical, genetic and molecular levels., Methods: We performed an extensive phenotypic and mutational revision of previously reported patients with SYS. We analysed the secretion levels of amyloid-β 1-40 peptide (Aβ 1-40 ) and performed targeted metabolomic and transcriptomic profiles in fibroblasts of patients with SYS (n=7) compared with controls (n=11). We also transfected cell lines with vectors encoding wild-type (WT) or mutated MAGEL2 to assess stability and subcellular localisation of the truncated protein., Results: Functional studies show significantly decreased levels of secreted Aβ 1-40 and intracellular glutamine in SYS fibroblasts compared with WT. We also identified 132 differentially expressed genes, including non-coding RNAs (ncRNAs) such as HOTAIR , and many of them related to developmental processes and mitotic mechanisms. The truncated form of MAGEL2 displayed a stability similar to the WT but it was significantly switched to the nucleus, compared with a mainly cytoplasmic distribution of the WT MAGEL2. Based on the updated knowledge, we offer guidelines for the clinical management of patients with SYS., Conclusion: A truncated MAGEL2 protein is stable and localises mainly in the nucleus, where it might exert a pathogenic neomorphic effect. Aβ 1-40 secretion levels and HOTAIR mRNA levels might be promising biomarkers for SYS. Our findings may improve SYS understanding and clinical management., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2023. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2023

14. De Novo PORCN and ZIC2 Mutations in a Highly Consanguineous Family.

Author

Castilla-Vallmanya L, Gürsoy S, Giray-Bozkaya Ö, Prat-Planas A, Bullich G, Matalonga L, Centeno-Pla M, Rabionet R, Grinberg D, Balcells S, and Urreizti R

Subjects

Child, Child, Preschool, DNA Mutational Analysis, Facies, Female, Genetic Association Studies, Genetic Predisposition to Disease, Genotype, Humans, Male, Pedigree, Phenotype, Radiography, Turkey, Acyltransferases genetics, Consanguinity, Membrane Proteins genetics, Mutation, Nuclear Proteins genetics, Transcription Factors genetics

Abstract

We present a Turkish family with two cousins (OC15 and OC15b) affected with syndromic developmental delay, microcephaly, and trigonocephaly but with some phenotypic traits distinct between them. OC15 showed asymmetrical skeletal defects and syndactyly, while OC15b presented with a more severe microcephaly and semilobal holoprosencephaly. All four progenitors were related and OC15 parents were consanguineous. Whole Exome Sequencing (WES) analysis was performed on patient OC15 as a singleton and on the OC15b trio. Selected variants were validated by Sanger sequencing. We did not identify any shared variant that could be associated with the disease. Instead, each patient presented a de novo heterozygous variant in a different gene. OC15 carried a nonsense mutation (p.Arg95*) in PORCN , which is a gene responsible for Goltz-Gorlin syndrome, while OC15b carried an indel mutation in ZIC2 leading to the substitution of three residues by a proline (p.His404_Ser406delinsPro). Autosomal dominant mutations in ZIC2 have been associated with holoprosencephaly 5. Both variants are absent in the general population and are predicted to be pathogenic. These two de novo heterozygous variants identified in the two patients seem to explain the major phenotypic alterations of each particular case, instead of a homozygous variant that would be expected by the underlying consanguinity.

Published

2021

15. The ASXL1 mutation p.Gly646Trpfs*12 found in a Turkish boy with Bohring-Opitz Syndrome.

Author

Urreizti R, Gürsoy S, Castilla-Vallmanya L, Cunill G, Rabionet R, Erçal D, Grinberg D, and Balcells S

Abstract

In line with a recent study showing that ASXL1 mutations found in the common population cannot be ruled out as pathogenic, we have identified the ASXL1 p.Gly646Trpfs*12 mutation-present in 132 individuals in ExAC-as a very probable cause of the disease in a Bohring-Opitz syndrome patient.

Published

2018