Characterization and Engineered U1 snRNA Rescue of Splicing Variants in a Turkish Neurodevelopmental Disease Cohort

Abstract

Although they are rare in the population, rare neurodevelopmental disorders (RNDDs) constitute a significant portion of all rare diseases. While advancements in sequencing technologies led to improvements in diagnosing and managing rare neurodevelopmental diseases, accurate pathogenicity classification of the identified variants is still challenging. Sequence variants altering pre-mRNA splicing make up a significant part of pathogenic variants. Despite advances in the in silico prediction tools, noncanonical splice site variants are one of the groups of variants that pose a challenge in their clinical interpretation. In this study, we analyzed the effects of seven splicing variants we had previously proposed as disease-causing and demonstrated that all but one of the seven variants had a strong or moderate effect on splicing, as assessed by a minigene assay. Next, applying U1 snRNAs engineered for different splicing variants in the corresponding genes and expressed with minigene plasmids in HeLa cells provided a partial correction in four of the studied genes to varying degrees. Findings from our study highlight the importance of in vitro minigene-based assays for the reclassification of putative splice-altering variants of uncertain significance and the therapeutic potential of modified U1 snRNAs in RNDDs.