RNA interference (RNAi) is a new therapeutic approach, silencing genes to disrupt diseases. However, short interfering siRNAs (molecule used in RNAi) can have off-target effects, activating the immune system through RNA sensing toll-like receptors (TLR) 3, 7 and 8. We have previously proposed that in some diseases (cancers, ectopic pregnancies) it may be useful to enhance the immune response. A novel class of immunostimulatory siRNAs could be developed, silencing genes important to disease and recruiting the immune system to further aid disease clearance. We set out to develop a rational design strategy that enhances immunostimulatory properties to any siRNA sequence but maintains effective gene silencing. We screened a set of siRNAs targeting lamin. All were of the same sequence, except for different immunostimulatory motifs on the 3′ end of the sense strand. We also investigated a different design where we added a small micro-RNA like poly-uridine bulge (potentially immunostimulatory) on the sense strand. We used human peripheral blood mononuclear cells (PBMCs) to test for immunostimulation, and HEK 293-T-cells to test for lamin gene knockdown.Of all strategies tested, the poly-uridine bulge was best. It silenced the lamin gene as effectively as control, but caused a 2–3 fold increase of IFN-α and TNF-α. We verified this approach by adding the poly-uridine bulge onto an siRNA of low immunostimulatory potential targeting GFP. The bulge markedly enhanced immunostimulation in a dose response manner, and did not compromise gene knockdown. The addition of a poly-uridine bulge to siRNAs can increase immunostimulation without affecting gene silencing efficacy. Immunostimulatory siRNAs might be particularly efficacious to treat ectopic pregnancies where there are abundant immune cells, and functional TLR 7/8 in the trophoblast (unpublished observations). We now plan to test this immunostimulatory siRNA approach in an in vivo ectopic pregnancy model using JEG-3 cells xenographted in NOD-SCID mice.