Abstract
Short-interfering RNAs (siRNAs) are common tools in molecular biology; however, the development of RNAi-based therapeutics is limited by immunostimulatory and nonspecific effects mediated by off-target RNA-binding proteins. The RNA-dependent protein kinase (PKR) and adenosine deaminase that acts on RNA 1 (ADAR1) are two proteins implicated in RNAi off-target effects and share a common means of interaction with siRNAs through double-stranded RNA binding motifs (dsRBMs). Here we report the site-specific introduction of N²-propargyl 2-aminopurine into siRNAs and subsequent conversion to two bulky products via copper-catalyzed azide alkyne cycloaddition (CuAAC) with either N-azidoacetyl-mannosamine azide or N-ethylpiperidine azide. We observed position-specific effects on RNAi activity for modifications made to both the passenger and guide strands. These findings are rationalized in light of recent structural studies of components of the RNA-induced silencing complex (RISC) and RISC-loading complex (RLC). The most active siRNAs were assayed for binding affinity to PKR and ADAR1. PKR binding was significantly reduced by multiple modifications, regardless of size, and ADAR1 binding was reduced in a position- and size-sensitive manner. Our findings present a strategy for designing siRNAs that reduce off-target dsRBM-protein binding while retaining native RNAi activity.
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