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Guidelines for Antisense Oligonucleotide Design and Insight Into Splice-modulating Mechanisms

2008; Elsevier BV; Volume: 17; Issue: 3 Linguagem: Inglês

10.1038/mt.2008.205

1525-0024

Annemieke Aartsma‐Rus, Laura Van de Vliet, Marscha Hirschi, Anneke A. M. Janson, Hans Heemskerk, C.L. de Winter, S. de Kimpe, Judith CT van Deutekom, Peter A.C. ‘t Hoen, Gert‐Jan B. van Ommen,

RNA Interference and Gene Delivery

Antisense oligonucleotides (AONs) can interfere with mRNA processing through RNase H-mediated degradation, translational arrest, or modulation of splicing. The antisense approach relies on AONs to efficiently bind to target sequences and depends on AON length, sequence content, secondary structure, thermodynamic properties, and target accessibility. We here performed a retrospective analysis of a series of 156 AONs (104 effective, 52 ineffective) previously designed and evaluated for splice modulation of the dystrophin transcript. This showed that the guanine-cytosine content and the binding energies of AON-target and AON-AON complexes were significantly higher for effective AONs. Effective AONs were also located significantly closer to the acceptor splice site (SS). All analyzed AONs are exon-internal and may act through steric hindrance of Ser-Arg-rich (SR) proteins to exonic splicing enhancer (ESE) sites. Indeed, effective AONs were significantly enriched for ESEs predicted by ESE software programs, except for predicted binding sites of SR protein Tra2beta, which were significantly enriched in ineffective AONs. These findings compile guidelines for development of AONs and provide more insight into the mechanism of antisense-mediated exon skipping. On the basis of only four parameters, we could correctly classify 79% of all AONs as effective or ineffective, suggesting these parameters can be used to more optimally design splice-modulating AONs.