In this study, we explore the effect of a library of 2¢-, 4¢-, and 2¢,4¢-modified uridine nucleosides and their impact on silencing firefly luciferase and on down-regulated in renal cell carcinoma (DRR) gene targets. The modifications studied were 2¢-F-ribose, 2¢-F-arabinose, 2¢-OMe-ribose, 2¢-F,4¢-OMe-ribose, 2¢-F,4¢-OMe-arabinose, and 2¢-OMe,4¢-F-ribose. We found that 2¢,4¢-modifications are well tolerated within A-form RNA duplexes, leading to virtually no change in melting temperature as assessed by UV thermal melting. The impact of the dual (2¢,4¢) modification was assessed by comparing gene silencing ability to 2¢-or 4¢-(singly) modified siRNA counterparts. siRNAs with (2¢,4¢)-modified overhangs generally outperformed the native siRNA as well as siRNAs with a 2¢-or 4¢-modified overhang, suggesting that 2¢,4¢-modified nucleotides interact favorably with Argonaute protein's PAZ domain. Among the most active siRNAs were those with 2¢-F,4¢-OMe-ribose or 2¢-F,4¢-OMe-arabinose at the overhangs. When modifications were placed at both overhangs and internal positions, a duplex with the 2¢-F (internal) and 2¢-F,4¢-OMe (overhang) combination was found to be the most potent, followed by the duplex with 2¢-OMe (internal) and 2¢,4¢-diOMe (overhang) modifications. Given the nuclease resistance exhibited by 2¢,4¢-modified siRNAs, particularly when the modification is placed at or near the overhangs, these findings may allow the creation of superior siRNAs for therapy.
