Increasing the Genetic Diagnosis Yield in Inherited Retinal Dystrophies: Assigning Pathogenicity to Novel Non-canonical Splice Site Variants

• Main Authors: Vasileios Toulis, Vianney Cortés-González, Marta de Castro-Miró, Juliana Ferraz Sallum, Jaume Català-Mora, Cristina Villanueva-Mendoza, Marcela Ciccioli, Roser Gonzàlez-Duarte, Rebeca Valero, Gemma Marfany
• Format: Article
• Language: English
• Published: MDPI AG 2020-03-01
• Series: Genes
• Subjects: inherited retinal dystrophies; non-canonical splice sites; aberrant splicing; minigenes
• Online Access: https://www.mdpi.com/2073-4425/11/4/378
• ISSN: 2073-4425

Aims: We aimed to validate the pathogenicity of genetic variants identified in inherited retinal dystrophy (IRD) patients, which were located in non-canonical splice sites (NCSS). Methods: After next generation sequencing (NGS) analysis (target gene panels or whole exome sequencing (WES)), NCSS variants were prioritized according to in silico predictions. In vivo and in vitro functional tests were used to validate their pathogenicity. Results: Four novel NCSS variants have been identified. They are located in intron 33 and 34 of <i>ABCA4</i> (c.4774-9G>A and c.4849-8C>G, respectively), intron 2 of <i>POC1B</i> (c.101-3T>G) and intron 3 of <i>RP2</i> (c.884-14G>A). Functional analysis detected different aberrant splicing events, including intron retention, exon skipping and intronic nucleotide addition, whose molecular effect was either the disruption or the elongation of the open reading frame of the corresponding gene. Conclusions: Our data increase the genetic diagnostic yield of IRD patients and expand the landscape of pathogenic variants, which will have an impact on the genotype–phenotype correlations and allow patients to opt for the emerging gene and cell therapies.