Controlling miRNA-like off-target effects of an siRNA with nucleobase modifications.
Suter, S.R., Ball-Jones, A., Mumbleau, M.M., Valenzuela, R., Ibarra-Soza, J., Owens, H., Fisher, A.J., Beal, P.A.(2017) Org Biomol Chem 15: 10029-10036
- PubMed: 29164215 
- DOI: https://doi.org/10.1039/c7ob02654d
- Primary Citation of Related Structures:  
6BGB - PubMed Abstract: 
SiRNAs can cause unintended gene silencing due to miRNA-like effects because of the similarity in function of an siRNA guide strand and a miRNA. Here we evaluate the effect on miRNA-like off targeting of introducing the adenosine derivative 7-EAA and triazoles prepared from 7-EAA at different positions in an siRNA guide strand. We find that a sterically demanding triazole placed in the RNA duplex major groove at position six of the guide strand dramatically reduces miRNA-like off targeting potency. A high-resolution structure of an RNA duplex bearing a novel, major-groove localized triazole is reported, which suggests that modified triazoles could be disrupting the hAgo2-guide-target RNA ternary complex. Five different triazole modifications were tested at the guide strand 6-position for effects on on-target and miRNA-like off target knockdown potency. A 7-EAA triazole bearing a benzylamine substituent displayed on-target knockdown activity as potent as the native siRNA, while having an IC 50 against a miRNA-like off target >100-fold higher. Melting temperature studies revealed no obvious correlation between potency in knockdown assays and a modification's effect on duplex stability. These results, along with known structures of hAgo2-guide-target ternary complexes, are used to rationalize the effect of 7-EAA triazoles on miRNA-like off target effects.
Organizational Affiliation: 
Department of Chemistry, University of California, Davis, One Shields Ave, Davis, California, 95616 USA. pabeal@ucdavis.edu.