Your search keyword '"Moreno-Pelayo, Miguel"' showing total 10 results

1. Insights into the pathophysiology of DFNA44 hearing loss associated with CCDC50 frameshift variants

Author

Lachgar-Ruiz, María, Morín, Matías, Martelletti, Elisa, Ingham, Neil J., Preite, Lorenzo, Lewis, Morag A., Serrão de Castro, Luciana Santos, Steel, Karen P., and Moreno-Pelayo, Miguel Ángel

Abstract

Non-syndromic sensorineural hearing loss (SNHL) is the most common sensory disorder, and it presents a high genetic heterogeneity. As part of our clinical genetic studies, we ascertained a previously unreported mutation in CCDC50 [c.828_858del, p.(Asp276Glufs*40)] segregating with hearing impairment in a Spanish family with SNHL associated with the autosomal dominant deafness locus DFNA44, which is predicted to disrupt protein function. To gain insight into the mechanism behind DFNA44 mutations, we analysed two Ccdc50 presumed loss-of-function mouse mutants, which showed normal hearing thresholds up to 6 months of age, indicating that haploinsufficiency is unlikely to be the pathogenic mechanism. We then carried out in vitro studies on a set of artificial mutants and on the p.(Asp276Glufs*40) and p.(Phe292Hisfs*37) human mutations, and determined that only the mutants containing the six-amino-acid sequence CLENGL as part of their aberrant protein tail showed an abnormal distribution consisting of perinuclear aggregates of the CCDC50 protein (also known as Ymer). Therefore, we conclude that the CLENGL sequence is necessary to form these aggregates. Taken together, the in vivo and in vitro results obtained in this study suggest that the two identified mutations in CCDC50 exert their effect through a dominant-negative or gain-of-function mechanism rather than by haploinsufficiency.

Published

2023

2. Mutations in PRPS1 causing syndromic or nonsyndromic hearing impairment: intrafamilial phenotypic variation complicates genetic counseling

Author

Gandía, Marta, Fernández-Toral, Joaquín, Solanellas, Juan, Domínguez-Ruiz, María, Gómez-Rosas, Elena, del Castillo, Francisco J., Villamar, Manuela, Moreno-Pelayo, Miguel A., and del Castillo, Ignacio

Abstract

Background:PRPS1 encodes isoform I of phosphoribosylpyrophosphate synthetase (PRS-I), a key enzyme in nucleotide biosynthesis. Different missense mutations in PRPS1 cause a variety of disorders that include PRS-I superactivity, nonsyndromic sensorineural hearing impairment, Charcot-Marie-Tooth disease, and Arts syndrome. It has been proposed that each mutation would result in a specific phenotype, depending on its effects on the structure and function of the enzyme.Methods:Thirteen Spanish unrelated families segregating X-linked hearing impairment were screened for PRPS1 mutations by Sanger sequencing. In two positive pedigrees, segregation of mutations was studied, and clinical data from affected subjects were compared.Results:We report two novel missense mutations in PRPS1, p.Ile275Thr and p.Gly306Glu, which were found in the propositi of two unrelated Spanish families, both subjects presenting with nonsyndromic hearing impairment. Further investigation revealed syndromic features in other hemizygous carriers from one of the pedigrees. Sequencing of genes that are functionally related to PRPS1 did not reveal any candidate variant that might act as a phenotype modifier.Conclusion:This case of intrafamilial phenotypic variation associated with a single PRPS1 mutation complicates the genotype–phenotype correlations, which makes genetic counseling of mutation carriers difficult because of the wide spectrum of severity of the associated disorders.

Published

2015

3. A de novo missense mutation in the gene encoding the SOX10 transcription factor in a Spanish sporadic case of Waardenburg syndrome type IV

Author

Morín, Matías, Viñuela, Antonio, Rivera, Teresa, Villamar, Manuela, Moreno‐Pelayo, Miguel A., Moreno, Felipe, and del Castillo, Ignacio

Abstract

No Abstract.

Published

2008

4. Novel mutation in the gene encoding the GATA3 transcription factor in a Spanish familial case of hypoparathyroidism, deafness, and renal dysplasia (HDR) syndrome with female genital tract malformations

Author

Hernández, Alba M., Villamar, Manuela, Roselló, Lidia, Moreno‐Pelayo, Miguel A., Moreno, Felipe, and del Castillo, Ignacio

Abstract

No Abstract.

Published

2007

5. A novel mutation in the gene encoding TIMM8a, a component of the mitochondrial protein translocase complexes, in a Spanish familial case of deafness‐dystonia (Mohr–Tranebjaerg) syndrome

Author

Aguirre, Luis A., del Castillo, Ignacio, Macaya, Alfons, Medá, Carme, Villamar, Manuela, Moreno‐Pelayo, Miguel A., and Moreno, Felipe

Abstract

No Abstract.

Published

2006

6. High prevalence of the W24X mutation in the gene encoding connexin‐26 (GJB2) in Spanish Romani (gypsies) with autosomal recessive non‐syndromic hearing loss

Author

Álvarez, Araceli, del Castillo, Ignacio, Villamar, Manuela, Aguirre, Luis A., González‐Neira, Anna, López‐Nevot, Alicia, Moreno‐Pelayo, Miguel A., and Moreno, Felipe

Abstract

Molecular testing for mutations in the gene encoding connexin‐26 (GJB2) at the DFNB1 locus has become the standard of care for genetic diagnosis and counseling of autosomal recessive non‐syndromic hearing impairment (ARNSHI). The spectrum of mutations in GJB2 varies considerably among the populations, different alleles predominating in different ethnic groups. A cohort of 34 families of Spanish Romani (gypsies) with ARNSHI was screened for mutations in GJB2. We found that DFNB1 deafness accounts for 50% of all ARNSHI in Spanish gypsies. The predominating allele is W24X (79% of the DFNB1 alleles), and 35delG is the second most common allele (17%). An allele‐specific PCR test was developed for the detection of the W24X mutation. By using this test, carrier frequencies were determined in two sample groups of gypsies from different Spanish regions (Andalusia and Catalonia), being 4% and 0%, respectively. Haplotype analysis for microsatellite markers closely flanking the GJB2 gene revealed five different haplotypes associated with the W24X mutation, all sharing the same allele from marker D13S141, suggesting that a founder effect for this mutation is responsible for its high prevalence among Spanish gypsies. © 2005 Wiley‐Liss, Inc.

Published

2005

7. De novo mutation in the gene encoding connexin-26 (<TOGGLE>GJB2</TOGGLE>) in a sporadic case of keratitis-ichthyosis-deafness (KID) syndrome

Author

Álvarez, Araceli, Castillo, Ignacio del, Pera, Alejandra, Villamar, Manuela, Moreno-Pelayo, Miguel A., Moreno, Felipe, Moreno, Ramón, and Tapia, M. Cruz

Abstract

No abstract

Published

2003

8. Primary T-cell immunodeficiency with functional revertant somatic mosaicism in CD247.

Author

Marin, Ana V., Jiménez-Reinoso, Anaïs, Briones, Alejandro C., Muñoz-Ruiz, Miguel, Aydogmus, Cigdem, Pasick, Luke J., Couso, Jorge, Mazariegos, Marina S., Alvarez-Prado, Angel F., Blázquez-Moreno, Alfonso, Cipe, Funda E., Haskologlu, Sule, Dogu, Figen, Morín, Matías, Moreno-Pelayo, Miguel A., García-Sánchez, Félix, Gil-Herrera, Juana, Fernández-Malavé, Edgar, Reyburn, Hugh T., and Ramiro, Almudena R.

Published

2017

9. Efficient CRISPR/Cas9-Mediated Gene Editing of Pklr in Human Hematopoietic Progenitors and Stem Cells for the Gene Therapy of Pyruvate Kinase Deficiency

Author

Quintana Bustamante, Oscar, Fañanas-Baquero, Sara, Dever, Daniel P., Omaira, Alberquilla, Camarena, Joab, Sanchez-Dominguez, Rebeca, Morin, Matias, Fernandez, Val, Moreno-Pelayo, Miguel Angel, Bueren, Juan A., Porteus, Matthew, and Segovia, Jose C

Abstract

Bueren: Rocket Pharmaceuticals Inc: Consultancy, Equity Ownership, Patents & Royalties, Research Funding. Porteus:CRISPR Therapeutics: Consultancy, Membership on an entity's Board of Directors or advisory committees. Segovia:Rocket Pharmaceuticals Inc: Consultancy, Equity Ownership, Patents & Royalties, Research Funding.

Published

2018

10. Efficient CRISPR/Cas9-Mediated Gene Editing of Pklrin Human Hematopoietic Progenitors and Stem Cells for the Gene Therapy of Pyruvate Kinase Deficiency

Author

Quintana Bustamante, Oscar, Fañanas-Baquero, Sara, Dever, Daniel P., Omaira, Alberquilla, Camarena, Joab, Sanchez-Dominguez, Rebeca, Morin, Matias, Fernandez, Val, Moreno-Pelayo, Miguel Angel, Bueren, Juan A., Porteus, Matthew, and Segovia, Jose C

Abstract

Pyruvate kinase deficiency (PKD) is the most common erythroid inherited enzymatic defect causing chronic nonspherocytic hemolytic anemia. PKD is an autosomal recessive disorder caused by mutations in the PKLRgene, which led in a total or partial reduction of the activity of the erythroid pyruvate kinase (RPK) protein. To date, more than 200 different mutations in the PKLRgene have been related with PKD. The disease is associated with reticulocytosis, splenomegaly and iron overload, and may be life-threatening in severely affected patients. Treatments for PKD are mainly palliative, including regular red blood cell transfusion, splenectomy and iron chelation therapy. Allogeneic hematopoietic stem cell transplant (HSCT) represents the only curative treatment for severely affected patients, so far. Autologous HSCT of genetically corrected cells would offer a durable and curative clinical option. Over the last years, gene editing has emerged as a promising gene therapy approach for blood cell disorders, where genetic alterations can be accurately corrected. The high level of correction got in hematopoietic progenitors and stem cells without remarkable off-target effects suggests that the clinical use of gene editing therapy to correct genetic hematopoietic diseases is highly likely in a short term. Here, we present two gene editing approaches to correct PKD in human hematopoietic cells based of specific point mutation correction and in cDNA knock-in of a codon optimized version the RPK cDNA. We have designed both strategies to maintain the endogenous regulation of RPK once the gene editing has been carried out. First, we designed specific sgRNA targeting NM_000298.5(PKLR):c.359C>T mutation reported as pathogenic in PKD patients, and a single-stranded donor oligonucleotide (ssODN) to correct this mutation. When both sgRNA/Cas9 ribonucleoprotein (RNP) and ssODN were nucleofected together in a heterozygous PKD patient-lymphoblastic cell line (PKD LCL), around 5% of total alleles were correctly edited.

Published

2018