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23
result(s) for
"Trujillo-Tiebas, María José"
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Characterization of an acromesomelic dysplasia, Grebe type case: novel mutation affecting the recognition motif at the processing site of GDF5
by
Aytes, Antonio Perez
,
Martinez-Garcia, Monica
,
Trujillo-Tiebas, María José
in
Amino Acid Motifs
,
Case Report
,
Child, Preschool
2016
Acromesomelic dysplasia, Grebe type is a very rare skeletal dysplasia characterized by severe dwarfism with marked micromelia and deformation of the upper and lower limbs, with a proximodistal gradient of severity.
CDMP1
gene mutations have been associated with Grebe syndrome, Hunter–Thompson syndrome, Du Pan syndrome and brachydactyly type C. The proband is a 4-year-old boy, born of consanguineous Pakistani parents. Radiographic imaging revealed features typical of Grebe syndrome: severe shortening of the forearms with an acromesomelic pattern following a proximodistal gradient, with distal parts more severely affected than medial parts; hypoplastic hands, with the phalangeal zone more affected than the metacarpal zone; and severe hypoplastic tibial/femoral zones in both limbs. After molecular analyses, the p.Arg377Trp variant in a homozygous pattern was identified in the
CDMP1
gene in the affected child. In silico and structural analyses predicted the p.Arg377Trp amino acid change to be pathogenic. Of the 34 mutations described in the
CDMP1
gene, four different missense mutations have been associated with Grebe syndrome. The
CDMP1
gene encodes growth differentiation factor 5 (GDF5), which plays a role in regulation of limb patterning, joint formation and distal bone growth. Homozygous mutations in the mature domain of GDF5 result in severe limb malformations such as the Grebe type or the Hunter–Thompson type of acromesomelic chondrodysplasia. The p.Arg377Trp mutation is located within the recognition motif at the processing site of GDF5 where the sequence RRKRR changes to WRKRR. The genotype–phenotype correlation allowed not only confirmation of the clinical diagnosis but also appropriate genetic counselling to be offered to this family.
Journal Article
An evaluation of pipelines for DNA variant detection can guide a reanalysis protocol to increase the diagnostic ratio of genetic diseases
by
Perea-Romero, Irene
,
Trujillo-Tiebas, María José
,
Martín-Mérida Inmaculada
in
Algorithms
,
Genetic disorders
,
Hereditary diseases
2022
Clinical exome (CE) sequencing has become a first-tier diagnostic test for hereditary diseases; however, its diagnostic rate is around 30–50%. In this study, we aimed to increase the diagnostic yield of CE using a custom reanalysis algorithm. Sequencing data were available for three cohorts using two commercial protocols applied as part of the diagnostic process. Using these cohorts, we compared the performance of general and clinically relevant variant calling and the efficacy of an in-house bioinformatic protocol (FJD-pipeline) in detecting causal variants as compared to commercial protocols. On the whole, the FJD-pipeline detected 99.74% of the causal variants identified by the commercial protocol in previously solved cases. In the unsolved cases, FJD-pipeline detects more INDELs and non-exonic variants, and is able to increase the diagnostic yield in 2.5% and 3.2% in the re-analysis of 78 cancer and 62 cardiovascular cases. These results were considered to design a reanalysis, filtering and prioritization algorithm that was tested by reassessing 68 inconclusive cases of monoallelic autosomal recessive retinal dystrophies increasing the diagnosis by 4.4%. In conclusion, a guided NGS reanalysis of unsolved cases increases the diagnostic yield in genetic disorders, making it a useful diagnostic tool in medical genetics.
Journal Article
A prevalent mutation with founder effect in Spanish Recessive Dystrophic Epidermolysis Bullosa families
by
Cuadrado-Corrales, Natividad
,
García, Marta
,
Hernández-Martín, Ángela
in
Base Sequence
,
Biomedical and Life Sciences
,
Biomedicine
2010
Background
Recessive Dystrophic Epidermolysis Bullosa (RDEB) is a genodermatosis caused by more than 500 different mutations in the
COL7A1
gene and characterized by blistering of the skin following a minimal friction or mechanical trauma.
The identification of a cluster of RDEB pedigrees carrying the c.6527insC mutation in a specific area raises the question of the origin of this mutation from a common ancestor or as a result of a hotspot mutation. The aim of this study was to investigate the origin of the c.6527insC mutation.
Methods
Haplotypes were constructed by genotyping nine single nucleotides polymorphisms (SNPs) throughout the
COL7A1
gene. Haplotypes were determined in RDEB patients and control samples, both of Spanish origin.
Results
Sixteen different haplotypes were identified in our study. A single haplotype cosegregated with the c.6527insC mutation.
Conclusion
Haplotype analysis showed that all alleles carrying the c.6527insC mutation shared the same haplotype cosegregating with this mutation (
CCGCTCAAA_6527insC
), thus suggesting the presence of a common ancestor.
Journal Article
Aggregated Genomic Data as Cohort-Specific Allelic Frequencies can Boost Variants and Genes Prioritization in Non-Solved Cases of Inherited Retinal Dystrophies
by
Perea-Romero, Irene
,
Trujillo-Tiebas, María José
,
Minguez, Pablo
in
Genetic disorders
,
Rare diseases
2022
The introduction of NGS in genetic diagnosis has increased the repertoire of variants and genes involved and the amount of genomic information produced. We built an allelic-frequency (AF) database for a heterogeneous cohort of genetic diseases to explore the aggregated genomic information and boost diagnosis in inherited retinal dystrophies (IRD). We retrospectively selected 5683 index-cases with clinical exome sequencing tests available, 1766 with IRD and the rest with diverse genetic diseases. We calculated a subcohort’s IRD-specific AF and compared it with suitable pseudocontrols. For non-solved IRD cases, we prioritized variants with a significant increment of frequencies, with eight variants that may help to explain the phenotype, and 10/11 of uncertain significance that were reclassified as probably pathogenic according to ACMG. Moreover, we developed a method to highlight genes with more frequent pathogenic variants in IRD cases than in pseudocontrols weighted by the increment of benign variants in the same comparison. We identified 18 genes for further studies that provided new insights in five cases. This resource can also help one to calculate the carrier frequency in IRD genes. A cohort-specific AF database assists with variants and genes prioritization and operates as an engine that provides a new hypothesis in non-solved cases, augmenting the diagnosis rate.
Journal Article
Improving molecular diagnosis of aniridia and WAGR syndrome using customized targeted array-based CGH
by
Blanco-Kelly, Fiona
,
Vallespín, Elena
,
Trujillo-Tiebas, María José
in
Aniridia
,
Aniridia - genetics
,
Arrays
2017
Chromosomal deletions at 11p13 are a frequent cause of congenital Aniridia, a rare pan-ocular genetic disease, and of WAGR syndrome, accounting up to 30% of cases. First-tier genetic testing for newborn with aniridia, to detect 11p13 rearrangements, includes Multiplex Ligation-dependent Probe Amplification (MLPA) and karyotyping. However, neither of these approaches allow obtaining a complete picture of the high complexity of chromosomal deletions and breakpoints in aniridia. Here, we report the development and validation of a customized targeted array-based comparative genomic hybridization, so called WAGR-array, for comprehensive high-resolution analysis of CNV in the WAGR locus. Our approach increased the detection rate in a Spanish cohort of 38 patients with aniridia, WAGR syndrome and other related ocular malformations, allowing to characterize four undiagnosed aniridia cases, and to confirm MLPA findings in four additional patients. For all patients, breakpoints were accurately established and a contiguous deletion syndrome, involving a large number of genes, was identified in three patients. Moreover, we identified novel microdeletions affecting 3' PAX6 regulatory regions in three families with isolated aniridia. This tool represents a good strategy for the genetic diagnosis of aniridia and associated syndromes, allowing for a more accurate CNVs detection, as well as a better delineation of breakpoints. Our results underline the clinical importance of performing exhaustive and accurate analysis of chromosomal rearrangements for patients with aniridia, especially newborns and those without defects in PAX6 after diagnostic screening.
Journal Article
The p. R151C Polymorphism in MC1R Gene Modifies the Age of Onset in Spanish Huntington’s Disease Patients
by
Trujillo-Tiebas, María José
,
Potrony, Miriam
,
Millán, José M.
in
Age of Onset
,
Biomedical and Life Sciences
,
Biomedicine
2017
The expansion of CAG repeats (≥36 CAG) in the
HTT
gene is the only known genetic cause of Huntington’s disease (HD) and the main determinant of the course of the disease. The length of the expanded CAG repeats correlates inversely with the age of onset (AOO) but does not completely determine it. We investigated the role of the melanocortin 1 receptor (
MC1R
) gene as a modifier factor of AOO in 600 HD patients from Spain. We sequenced the entire region of the
MC1R
gene and analyzed all the nonsynonymous
MC1R
genetic variants with a minor allele frequency of at least 0.01 in HD patients. The variability in AOO attributable to the CAG repeats and
MC1R
polymorphisms was evaluated using a multiple linear regression model. We found that the loss-of-function p. R151C
MC1R
polymorphism has a significant influence on the AOO (
P
= 0.004; Bonferroni-corrected
P
= 0.032) which explains 1.42% of the variance in AOO that cannot be accounted for by the expanded CAG repeat. Our results suggest that the
MC1R
gene could modify the AOO in Spanish HD patients and encourage the evaluation of loss-of-function
MC1R
polymorphisms in other HD populations with a higher frequency of these
MC1R
polymorphisms.
Journal Article
GJA8-associated developmental eye disorders: a new multicentre study highlights mutational hotspots and genotype-phenotype correlations
2025
Variants in
gap junction protein alpha 8
(
GJA8
), the gene encoding connexin 50 (Cx50), are primarily associated with developmental cataract, although some are associated with severe structural eye anomalies, such as aphakia (absent lens), microphthalmia (small eyes), and sclerocornea. To further define the relationship of
GJA8
variants to ocular developmental disorders, we screened four large international cohorts with structural eye anomalies, including anophthalmia, microphthalmia, and coloboma (AMC) or cataracts. We identified 15 new families carrying 14 different heterozygous
GJA8
variants (12 missense variants and two 1q21 microdeletions). The missense variants comprised 10 previously reported alterations in cases with eye anomalies [p.(Gly22Ser), p.(Val44Met), p.(Asp67Gly), p.(Arg76Cys), p.(Pro88Leu), p.(Gly94Glu), p.(Gly94Arg), p.(His98Arg), p.(Pro189Ser), and p.(Arg198Trp)] and two not yet linked with disease [p.(Thr39Met) and p.(Tyr66Asp)]. Their associated phenotypes ranged from isolated cataracts to a combination of microphthalmia and cataract with/without sclerocornea. Our study confirms
GJA8
variants as an important source of genetic diagnoses for families with structural eye anomalies in addition to cataract and highlights specific mutational hotspots. Furthermore, we confirm an important genotype-phenotype correlation between sclerocornea and the p.(Gly94Arg) variant, and detail intra- and inter-familial phenotypic variability, which is important for clinical assessment and genetic counselling.
Journal Article
PRPH2-Related Retinal Dystrophies: Mutational Spectrum in 103 Families from a Spanish Cohort
by
Perea-Romero, Irene
,
Blanco-Kelly, Fiona
,
Avila-Fernandez, Almudena
in
Disease
,
DNA Mutational Analysis
,
Genes
2024
PRPH2, one of the most frequently inherited retinal dystrophy (IRD)-causing genes, implies a high phenotypic variability. This study aims to analyze the PRPH2 mutational spectrum in one of the largest cohorts worldwide, and to describe novel pathogenic variants and genotype–phenotype correlations. A study of 220 patients from 103 families recruited from a database of 5000 families. A molecular diagnosis was performed using classical molecular approaches and next-generation sequencing. Common haplotypes were ascertained by analyzing single-nucleotide polymorphisms. We identified 56 variants, including 11 novel variants. Most of them were missense variants (64%) and were located in the D2-loop protein domain (77%). The most frequently occurring variants were p.Gly167Ser, p.Gly208Asp and p.Pro221_Cys222del. Haplotype analysis revealed a shared region in families carrying p.Leu41Pro or p.Pro221_Cys222del. Patients with retinitis pigmentosa presented an earlier disease onset. We describe the largest cohort of IRD families associated with PRPH2 from a single center. Most variants were located in the D2-loop domain, highlighting its importance in interacting with other proteins. Our work suggests a likely founder effect for the variants p.Leu41Pro and p.Pro221_Cys222del in our Spanish cohort. Phenotypes with a primary rod alteration presented more severe affectation. Finally, the high phenotypic variability in PRPH2 hinders the possibility of drawing genotype–phenotype correlations.
Journal Article
Fine Breakpoint Mapping by Genome Sequencing Reveals the First Large X Inversion Disrupting the NHS Gene in a Patient with Syndromic Cataracts
by
Tamayo, Alejandra
,
Trujillo-Tiebas, María José
,
Villaverde, Cristina
in
Cataract - congenital
,
Cataract - etiology
,
Cataract - metabolism
2021
Inversions are structural variants that are generally balanced. However, they could lead to gene disruptions or have positional effects leading to diseases. Mutations in the NHS gene cause Nance-Horan syndrome, an X-linked disorder characterised by congenital cataracts and dental anomalies. Here, we aimed to characterise a balanced pericentric inversion X(p22q27), maternally inherited, in a child with syndromic bilateral cataracts by breakpoint mapping using whole-genome sequencing (WGS). 30× Illumina paired-end WGS was performed in the proband, and breakpoints were confirmed by Sanger sequencing. EdU assays and FISH analysis were used to assess skewed X-inactivation patterns. RNA expression of involved genes in the breakpoint boundaries was evaluated by droplet-digital PCR. We defined the breakpoint position of the inversion at Xp22.13, with a 15 bp deletion, disrupting the unusually large intron 1 of the canonical NHS isoform, and also perturbing topologically-associated domains (TADs). Moreover, a microhomology region of 5 bp was found on both sides. RNA analysis confirmed null and reduced NHS expression in the proband and his unaffected mother, respectively. In conclusion, we report the first chromosomal inversion disrupting NHS, fine-mapped by WGS. Our data expand the clinical spectrum and the pathogenic mechanisms underlying the NHS defects.
Journal Article