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Efficient exon skipping by base-editor-mediated abrogation of exonic splicing enhancers

Han Qiu, Geng Li, Juanjuan Yuan, Dian Yang, Yunqing Ma, Feng Wang, Yi Dai, Xing Chang

2023Cell Reports16 citationsDOIOpen Access PDF

Abstract

Duchenne muscular dystrophy (DMD) is a severe genetic disease caused by the loss of the dystrophin protein. Exon skipping is a promising strategy to treat DMD by restoring truncated dystrophin. Here, we demonstrate that base editors (e.g., targeted AID-mediated mutagenesis [TAM]) are able to efficiently induce exon skipping by disrupting functional redundant exonic splicing enhancers (ESEs). By developing an unbiased and high-throughput screening to interrogate exonic sequences, we successfully identify novel ESEs in DMD exons 51 and 53. TAM-CBE (cytidine base editor) induces near-complete skipping of the respective exons by targeting these ESEs in patients' induced pluripotent stem cell (iPSC)-derived cardiomyocytes. Combined with strategies to disrupt splice sites, we identify suitable single guide RNAs (sgRNAs) with TAM-CBE to efficiently skip most DMD hotspot exons without substantial double-stranded breaks. Our study thus expands the repertoire of potential targets for CBE-mediated exon skipping in treating DMD and other RNA mis-splicing diseases.

Topics & Concepts

Exon skippingExonDuchenne muscular dystrophyRNA splicingBiologyEnhancerGeneticsExonic splicing enhancerDystrophinComputational biologyAlternative splicingRNAGeneTranscription factorRNA and protein synthesis mechanismsRNA Research and SplicingRNA Interference and Gene Delivery
Efficient exon skipping by base-editor-mediated abrogation of exonic splicing enhancers | Litcius