Combined genetic and high-throughput strategies for molecular diagnosis of inherited retinal dystrophies

Most diagnostic laboratories are confronted with the increasing demand for molecular diagnosis from patients and families and the ever-increasing genetic heterogeneity of visual disorders. Concerning Retinal Dystrophies (RD), almost 200 causative genes have been reported to date, and most families c...

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Bibliographic Details
Published in:PloS one 2014-02, Vol.9 (2), p.e88410-e88410
Main Authors: de Castro-Miró, Marta, Pomares, Esther, Lorés-Motta, Laura, Tonda, Raul, Dopazo, Joaquín, Marfany, Gemma, Gonzàlez-Duarte, Roser
Format: Article
Language:English
Subjects:
Analysis
Biology
Chromosomes
Congenital diseases
Deoxyribonucleic acid
Diagnosis
Diagnostic systems
Diagnòstic molecular
DNA
DNA Mutational Analysis
Eye diseases
Family
Female
Founder effect
Gene mapping
Gene mutation
Gene sequencing
Genes
Genetic analysis
Genetic aspects
Genetic counseling
Genetic disorders
Genetic screening
Genetic Testing
Genomics
Genotype
Genotyping
Guanylate cyclase 1
Haplotypes
Humans
Lead
Leber congenital amaurosis
Malalties de la retina
Male
Medical diagnosis
Medicine
Molecular diagnosis
Molecular Diagnostic Techniques - methods
Mutation
Patients
Pedigree
Polymorphism, Single Nucleotide
Respiratory distress syndrome
Retina
Retinal diseases
Retinal Dystrophies - diagnosis
Retinal Dystrophies - genetics
Retinitis
Retinitis pigmentosa
Single-nucleotide polymorphism
Spain
USH2A protein
Vision
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Summary:Most diagnostic laboratories are confronted with the increasing demand for molecular diagnosis from patients and families and the ever-increasing genetic heterogeneity of visual disorders. Concerning Retinal Dystrophies (RD), almost 200 causative genes have been reported to date, and most families carry private mutations. We aimed to approach RD genetic diagnosis using all the available genetic information to prioritize candidates for mutational screening, and then restrict the number of cases to be analyzed by massive sequencing. We constructed and optimized a comprehensive cosegregation RD-chip based on SNP genotyping and haplotype analysis. The RD-chip allows to genotype 768 selected SNPs (closely linked to 100 RD causative genes) in a single cost-, time-effective step. Full diagnosis was attained in 17/36 Spanish pedigrees, yielding 12 new and 12 previously reported mutations in 9 RD genes. The most frequently mutated genes were USH2A and CRB1. Notably, RD3-up to now only associated to Leber Congenital Amaurosis- was identified as causative of Retinitis Pigmentosa. The main assets of the RD-chip are: i) the robustness of the genetic information that underscores the most probable candidates, ii) the invaluable clues in cases of shared haplotypes, which are indicative of a common founder effect, and iii) the detection of extended haplotypes over closely mapping genes, which substantiates cosegregation, although the assumptions in which the genetic analysis is based could exceptionally lead astray. The combination of the genetic approach with whole exome sequencing (WES) greatly increases the diagnosis efficiency, and revealed novel mutations in USH2A and GUCY2D. Overall, the RD-chip diagnosis efficiency ranges from 16% in dominant, to 80% in consanguineous recessive pedigrees, with an average of 47%, well within the upper range of massive sequencing approaches, highlighting the validity of this time- and cost-effective approach whilst high-throughput methodologies become amenable for routine diagnosis in medium sized labs.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0088410