Synthesis, gene-silencing activity and nuclease resistance of 3'-3'-linked double short hairpin RNA.

To improve the nuclease resistance of siRNA while reducing its induction of an innate immune response and maintaining its biological activity for possible therapeutic application, we designed and synthesized a series of double short hairpin RNAs (dshRNAs). Each dshRNA consisted of two identical short hairpin RNAs (shRNAs) linked at their 3' ends by glycerol. The dshRNAs were synthesized on a glycerol-derivatized solid support from amidites with 2-cyanoethoxymethyl (CEM) as the 2'-hydroxyl protecting group. Synthesis was carried out in a single run on a DNA/RNA synthesizer, without the need for enzymatic ligation. The dshRNAs showed structure-dependent gene-silencing activity at the protein level, and dshRNAs in which the 3' end of the two sense regions were linked showed especially high activity. Inclusion of 2'-O-methyluridine residues in the loop region was associated with 1.6- to 2.4-fold lower induction of interferon-α than was siRNA, without loss of gene-silencing activity. dshRNA also showed higher exonuclease resistance than siRNA or canonical shRNA. Our studies provide a new approach to gene silencing based on the concept of linking the 3' end of the sense regions of two shRNA molecules to form a double shRNA.