Your search keyword '"Rueda-Arenas, I."' showing total 8 results

1. Specific variants in WDR35 cause a distinctive form of ellis-van creveld syndrome by disrupting the recruitment of the evc complex and smo into the cilium

Author

Caparrós-Martín, Jose, De Luca, A., Cartault, F., Aglan, M., Temtamy, S., Otaify, G., Mehrez, M., Valencia, M., Vázquez, L., Alessandri, J., Nevado, J., Rueda-Arenas, I., Heath, K., Digilio, M., Dallapiccola, B., Goodship, J., Mill, P., Lapunzina, P., Ruiz-Perez, V., Caparrós-Martín, Jose, De Luca, A., Cartault, F., Aglan, M., Temtamy, S., Otaify, G., Mehrez, M., Valencia, M., Vázquez, L., Alessandri, J., Nevado, J., Rueda-Arenas, I., Heath, K., Digilio, M., Dallapiccola, B., Goodship, J., Mill, P., Lapunzina, P., and Ruiz-Perez, V.

Abstract

© The Author 2015. Published by Oxford University Press. All rights reserved. Most patients with Ellis-van Creveld syndrome (EvC) are identified with pathogenic changes in EVC or EVC2, however further genetic heterogeneity has been suggested. In this report we describe pathogenic splicing variants in WDR35, encoding retrograde intraflagellar transport protein 121 (IFT121), in three families with a clinical diagnosis of EvC but having a distinctive phenotype. To understand why WDR35 variants result in EvC, we analysed EVC, EVC2 and Smoothened (SMO) in IFT-A deficient cells. We found that the three proteins failed to localize to Wdr35 -/- cilia, but not to the cilium of the IFT retrograde motor mutant Dync2h1 -/- , indicating that IFT121 is specifically required for their entry into the ciliary compartment. Furthermore expression of Wdr35 disease cDNAs in Wdr35 -/- fibroblasts revealed that the newly identified variants lead to Hedgehog signalling defects resembling those of Evc -/- and Evc2 -/- mutants. Together our data indicate that splicing variants in WDR35, and possibly in other IFT-A components, underlie a number of EvC cases by disrupting targeting of both the EvC complex and SMO to cilia.

Published

2015

2. Clinical and molecular analysis in families with autosomal recessive osteogenesis imperfecta identifies mutations in five genes and suggests genotype-phenotype correlations

Author

Caparrós-Martín, Jose, Valencia, M., Pulido, V., Martínez-Glez, V., Rueda-Arenas, I., Amr, K., Farra, C., Lapunzina, P., Ruiz-Perez, V., Temtamy, S., Aglan, M., Caparrós-Martín, Jose, Valencia, M., Pulido, V., Martínez-Glez, V., Rueda-Arenas, I., Amr, K., Farra, C., Lapunzina, P., Ruiz-Perez, V., Temtamy, S., and Aglan, M.

Abstract

Autosomal recessive osteogenesis imperfecta (AR-OI) is an inherited condition which in recent years has been shown with increasing genetic and clinical heterogeneity. In this article, we performed clinical assessment and sought mutations in patients from 10 unrelated families with AR-OI, one of whom was presented with the additional features of Bruck syndrome (BS). Pathogenic changes were identified in five different genes: three families had mutations in FKBP10, three in SERPINF1, two in LEPRE1, one in CRTAP, and one in PPIB. With the exception of a FKBP10 mutation in the BS case, all changes are novel. Of note, insertion of an AluYb8 repetitive element was detected in exon 6 of SERPINF1. Since the studied patients had variable manifestations and some distinctive features, genotype/phenotype correlations are suggested. © 2013 Wiley Periodicals, Inc.

Published

2013

3. Broadening the phenotypic spectrum of EVEN-PLUS syndrome through identification of HSPA9 pathogenic variants in the original EVE dysplasia family and two sibs with milder facial phenotype.

Author

Pacio-Miguez M, Parrón-Pajares M, Gordon CT, Santos-Simarro F, Rodríguez Jiménez C, Mena R, Rueda Arenas I, F Montaño VE, Fernández M, Solís M, Del Pozo Á, Amiel J, García-Miñaur S, and Palomares-Bralo M

Subjects

HSP70 Heat-Shock Proteins genetics, Homozygote, Humans, Mitochondrial Proteins genetics, Phenotype, Craniofacial Abnormalities diagnosis, Craniofacial Abnormalities genetics, Osteochondrodysplasias diagnosis, Osteochondrodysplasias genetics, Tooth Abnormalities

Abstract

EVEN-PLUS syndrome is a rare autosomal recessive disorder caused by biallelic pathogenic variants in the mitochondrial chaperone called mortalin, encoded by HSPA9. This genetic disorder, presenting with several overlapping features with CODAS syndrome, is characterized by the involvement of the Epiphyses, Vertebrae, Ears, and Nose (EVEN), PLUS associated findings. Only five individuals presenting with the EVEN-PLUS phenotype and biallelic variants in HSPA9 have been published. Here, we expand the phenotypic and molecular spectrum associated with this disorder, reporting two sibs with a milder phenotype and compound heterozygous pathogenic variants (a recurrent variant and a novel one). Also, we confirm a homozygous pathogenic variant in the family originally reported as EVE dysplasia., (© 2022 Wiley Periodicals LLC.)

Published

2022

4. CLAPO syndrome: identification of somatic activating PIK3CA mutations and delineation of the natural history and phenotype.

Author

Rodriguez-Laguna L, Ibañez K, Gordo G, Garcia-Minaur S, Santos-Simarro F, Agra N, Vallespín E, Fernández-Montaño VE, Martín-Arenas R, Del Pozo Á, González-Pecellín H, Mena R, Rueda-Arenas I, Gomez MV, Villaverde C, Bustamante A, Ayuso C, Ruiz-Perez VL, Nevado J, Lapunzina P, Lopez-Gutierrez JC, and Martinez-Glez V

Subjects

Adolescent, Adult, Child, Class I Phosphatidylinositol 3-Kinases physiology, Female, Genetic Association Studies methods, High-Throughput Nucleotide Sequencing methods, Humans, Male, Mutation, Phosphatidylinositol 3-Kinases genetics, Retrospective Studies, Arteriovenous Malformations genetics, Arteriovenous Malformations physiopathology, Class I Phosphatidylinositol 3-Kinases genetics, Lymphatic Diseases genetics, Lymphatic Diseases physiopathology

Abstract

Purpose: CLAPO syndrome is a rare vascular disorder characterized by capillary malformation of the lower lip, lymphatic malformation predominant on the face and neck, asymmetry, and partial/generalized overgrowth. Here we tested the hypothesis that, although the genetic cause is not known, the tissue distribution of the clinical manifestations in CLAPO seems to follow a pattern of somatic mosaicism., Methods: We clinically evaluated a cohort of 13 patients with CLAPO and screened 20 DNA blood/tissue samples from 9 patients using high-throughput, deep sequencing., Results: We identified five activating mutations in the PIK3CA gene in affected tissues from 6 of the 9 patients studied; one of the variants (NM_006218.2:c.248T>C; p.Phe83Ser) has not been previously described in developmental disorders., Conclusion: We describe for the first time the presence of somatic activating PIK3CA mutations in patients with CLAPO. We also report an update of the phenotype and natural history of the syndrome.

Published

2018

5. PIAS4 is associated with macro/microcephaly in the novel interstitial 19p13.3 microdeletion/microduplication syndrome.

Author

Nevado J, Rosenfeld JA, Mena R, Palomares-Bralo M, Vallespín E, Ángeles Mori M, Tenorio JA, Gripp KW, Denenberg E, Del Campo M, Plaja A, Martín-Arenas R, Santos-Simarro F, Armengol L, Gowans G, Orera M, Sanchez-Hombre MC, Corbacho-Fernández E, Fernández-Jaén A, Haldeman-Englert C, Saitta S, Dubbs H, Bénédicte DB, Li X, Devaney L, Dinulos MB, Vallee S, Crespo MC, Fernández B, Fernández-Montaño VE, Rueda-Arenas I, de Torres ML, Ellison JW, Raskin S, Venegas-Vega CA, Fernández-Ramírez F, Delicado A, García-Miñaúr S, and Lapunzina P

Subjects

Child, Child, Preschool, DNA-Binding Proteins genetics, Developmental Disabilities pathology, Female, Humans, Infant, MAP Kinase Kinase 2 genetics, Male, Megalencephaly pathology, Microcephaly pathology, Poly-ADP-Ribose Binding Proteins, Syndrome, Transcription Factors genetics, Chromosome Deletion, Chromosome Duplication, Chromosomes, Human, Pair 19 genetics, Developmental Disabilities genetics, Megalencephaly genetics, Microcephaly genetics, Protein Inhibitors of Activated STAT genetics

Abstract

Array comparative genomic hybridization (aCGH) is a powerful genetic tool that has enabled the identification of novel imbalances in individuals with intellectual disability (ID), autistic disorders and congenital malformations. Here we report a 'genotype first' approach using aCGH on 13 unrelated patients with 19p13.3 submicroscopic rearrangement (11 deletions and 2 duplications) and review cases in the literature and in public databases. Shared phenotypic features suggest that these patients represent an interstitial microdeletion/microduplication syndrome at 19p13.3. Common features consist of abnormal head circumference in most patients (macrocephaly with the deletions and microcephaly with the duplications), ID with developmental delay (DD), hypotonia, speech delay and common dysmorphic features. The phenotype is associated with at least a ~0.113 Mb critical region harboring three strong candidate genes probably associated with DD, ID, speech delay and other dysmorphic features: MAP2K2, ZBTB7A and PIAS4, an E3 ubiquitin ligase involved in the ubiquitin signaling pathways, which we hypothesize for the first time to be associated with head size in humans.

Published

2015

6. Array CGH Analysis of Paired Blood and Tumor Samples from Patients with Sporadic Wilms Tumor.

Author

Cabral de Almeida Cardoso L, Rodriguez-Laguna L, Del Carmen Crespo M, Vallespín E, Palomares-Bralo M, Martin-Arenas R, Rueda-Arenas I, Silvestre de Faria PA, García-Miguel P, Lapunzina P, Regla Vargas F, Seuanez HN, and Martínez-Glez V

Subjects

Child, Child, Preschool, Chromosome Aberrations statistics & numerical data, Female, Genetic Predisposition to Disease, Humans, Kidney Neoplasms blood, Kidney Neoplasms pathology, Male, Wilms Tumor blood, Wilms Tumor pathology, Comparative Genomic Hybridization methods, Gene Dosage, Kidney Neoplasms genetics, Wilms Tumor genetics

Abstract

Wilms tumor (WT), the most common cancer of the kidney in infants and children, has a complex etiology that is still poorly understood. Identification of genomic copy number variants (CNV) in tumor genomes provides a better understanding of cancer development which may be useful for diagnosis and therapeutic targets. In paired blood and tumor DNA samples from 14 patients with sporadic WT, analyzed by aCGH, 22% of chromosome abnormalities were novel. All constitutional alterations identified in blood were segmental (in 28.6% of patients) and were also present in the paired tumor samples. Two segmental gains (2p21 and 20q13.3) and one loss (19q13.31) present in blood had not been previously described in WT. We also describe, for the first time, a small, constitutive partial gain of 3p22.1 comprising 2 exons of CTNNB1, a gene associated to WT. Among somatic alterations, novel structural chromosomal abnormalities were found, like gain of 19p13.3 and 20p12.3, and losses of 2p16.1-p15, 4q32.5-q35.1, 4q35.2-q28.1 and 19p13.3. Candidate genes included in these regions might be constitutively (SIX3, SALL4) or somatically (NEK1, PIAS4, BMP2) operational in the development and progression of WT. To our knowledge this is the first report of CNV in paired blood and tumor samples in sporadic WT.

Published

2015

7. Specific variants in WDR35 cause a distinctive form of Ellis-van Creveld syndrome by disrupting the recruitment of the EvC complex and SMO into the cilium.

Author

Caparrós-Martín JA, De Luca A, Cartault F, Aglan M, Temtamy S, Otaify GA, Mehrez M, Valencia M, Vázquez L, Alessandri JL, Nevado J, Rueda-Arenas I, Heath KE, Digilio MC, Dallapiccola B, Goodship JA, Mill P, Lapunzina P, and Ruiz-Perez VL

Subjects

Cells, Cultured, Child, Preschool, Cytoskeletal Proteins, Exome, Exons, Fibroblasts metabolism, Genetic Variation, Hedgehog Proteins, Humans, Infant, Intracellular Signaling Peptides and Proteins, Pedigree, Phenotype, Proteins metabolism, Receptors, G-Protein-Coupled metabolism, Signal Transduction, Smoothened Receptor, Cilia metabolism, Ellis-Van Creveld Syndrome genetics, Proteins genetics, Receptors, G-Protein-Coupled genetics

Abstract

Most patients with Ellis-van Creveld syndrome (EvC) are identified with pathogenic changes in EVC or EVC2, however further genetic heterogeneity has been suggested. In this report we describe pathogenic splicing variants in WDR35, encoding retrograde intraflagellar transport protein 121 (IFT121), in three families with a clinical diagnosis of EvC but having a distinctive phenotype. To understand why WDR35 variants result in EvC, we analysed EVC, EVC2 and Smoothened (SMO) in IFT-A deficient cells. We found that the three proteins failed to localize to Wdr35(-/-) cilia, but not to the cilium of the IFT retrograde motor mutant Dync2h1(-/-), indicating that IFT121 is specifically required for their entry into the ciliary compartment. Furthermore expression of Wdr35 disease cDNAs in Wdr35(-/-) fibroblasts revealed that the newly identified variants lead to Hedgehog signalling defects resembling those of Evc(-/-) and Evc2(-/-) mutants. Together our data indicate that splicing variants in WDR35, and possibly in other IFT-A components, underlie a number of EvC cases by disrupting targeting of both the EvC complex and SMO to cilia., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2015

8. Clinical and molecular analysis in families with autosomal recessive osteogenesis imperfecta identifies mutations in five genes and suggests genotype-phenotype correlations.

Author

Caparrós-Martin JA, Valencia M, Pulido V, Martínez-Glez V, Rueda-Arenas I, Amr K, Farra C, Lapunzina P, Ruiz-Perez VL, Temtamy S, and Aglan M

Subjects

Adolescent, Alu Elements genetics, Child, Child, Preschool, Collagen Type I genetics, Diphosphonates therapeutic use, Female, Genes, Recessive, Genetic Association Studies, Humans, Infant, Male, Molecular Chaperones, Molecular Sequence Data, Mutation, Osteogenesis Imperfecta diagnostic imaging, Osteogenesis Imperfecta drug therapy, Osteogenesis Imperfecta pathology, Pedigree, Prolyl Hydroxylases, Radiography, Sequence Analysis, DNA, Young Adult, Cyclophilins genetics, Extracellular Matrix Proteins genetics, Eye Proteins genetics, Membrane Glycoproteins genetics, Nerve Growth Factors genetics, Osteogenesis Imperfecta genetics, Proteoglycans genetics, Serpins genetics, Tacrolimus Binding Proteins genetics

Abstract

Autosomal recessive osteogenesis imperfecta (AR-OI) is an inherited condition which in recent years has been shown with increasing genetic and clinical heterogeneity. In this article, we performed clinical assessment and sought mutations in patients from 10 unrelated families with AR-OI, one of whom was presented with the additional features of Bruck syndrome (BS). Pathogenic changes were identified in five different genes: three families had mutations in FKBP10, three in SERPINF1, two in LEPRE1, one in CRTAP, and one in PPIB. With the exception of a FKBP10 mutation in the BS case, all changes are novel. Of note, insertion of an AluYb8 repetitive element was detected in exon 6 of SERPINF1. Since the studied patients had variable manifestations and some distinctive features, genotype/phenotype correlations are suggested., (Copyright © 2013 Wiley Periodicals, Inc.)

Published

2013