A functional screen for optimization of short hairpin RNA biogenesis and RISC loading

Gene silencing via short hairpin mediated RNAi (shRNA) is a valuable experimental tool and has promise as a therapeutic strategy. Several shRNA platforms make use of the loop and flanking sequences from the endogenous microRNA (miRNAs) miR-30a or other miRNAs to provide an RNA structure for efficient and accurate biogenesis of the RNA trigger. However, the stem regions of these shRNAs are typically designed as perfect duplex structures which is an uncommon feature for endogenous miRNA precursors. A limitation of these designs is that shRNAs with perfect duplex stems undergo extensive stem cleavage analogous to the Dicer independent miRNA miR-451, destroying the shRNA trigger sequence that is present in the 3P arm. We employed an unbiased screen of > 9000 shRNA structures to identify features that prevent stem cleavage and promote canonical biogenesis and loading into the effector complex RISC. We find that a central stem bulge or kink reduces central stem cleavage and improves accuracy of Dicer processing. Furthermore, 9 - 10 GC nucleotides in the guide strand improves shRNA efficiency. These design rules enable more effective shRNA tools and are compatible with existing sets of optimized guide/target sequences.