Carrier-free programmed spherical nucleic acid for effective ischemic stroke therapy via self-delivery antisense oligonucleotide

Antisense oligonucleotide(ASO)for anti-apoptosis is emerging as a highly promising therapeutic agents for ischemic stroke with complex pathological environment.However,its therapeutic efficacy is seriously limited by a number of challenges including inefficient internalization,low blood-brain barrier(BBB)penetration,poor stability,and potential toxicity of the carrier.Herein,a carrier-free programmed spherical nucleic acid nanostructure is developed for effective ischemic stroke therapy via integrating multifunctional modules into one DNA structure.By co-encoding caspase-3-ASO and transferrin receptor(TfR)aptamer into circle template,the spherical nucleic acid nanostructure(TD)was obtained via self-assembly.The experimental results demonstrated that the developed TD displayed efficient BBB penetration capability(6.4 times)and satisfactory caspase-3 silence effect(2.3 times)due to the dense DNA packaging in TD.Taken together,our study demonstrated that the carrier-free programmed spherical nucleic acid nanostructure could significantly improve the therapeutic efficacy of ischemic stroke and was a promising therapeutic tool for various brain damage-related diseases.