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Peptide Nanoparticle Delivery of Charge-Neutral Splice-Switching Morpholino Oligonucleotides

Authors: 
Järver P, Zaghloul EM, Arzumanov AA, Saleh AF, McClorey G, Hammond SM, Hällbrink M, Langel Ü, Smith CI, Wood MJ, Gait MJ, Andaloussi SE
Citation: 
Nucleic Acid Ther. 2015 Jan 16. [Epub ahead of print]
Abstract: 
Oligonucleotide analogs have provided novel therapeutics targeting various disorders. However, their poor cellular uptake remains a major obstacle for their clinical development. Negatively charged oligonucleotides, such as 2'-O-Methyl RNA and locked nucleic acids have in recent years been delivered successfully into cells through complex formation with cationic polymers, peptides, liposomes, or similar nanoparticle delivery systems. However, due to the lack of electrostatic interactions, this promising delivery method has been unsuccessful to date using charge-neutral oligonucleotide analogs. We show here that lipid-functionalized cell-penetrating peptides can be efficiently exploited for cellular transfection of the charge-neutral oligonucleotide analog phosphorodiamidate morpholino. The lipopeptides form complexes with splice-switching phosphorodiamidate morpholino oligonucleotide and can be delivered into clinically relevant cell lines that are otherwise difficult to transfect while retaining biological activity. To our knowledge, this is the first study to show delivery through complex formation of biologically active charge-neutral oligonucleotides by cationic peptides.
Epub: 
Yes
Organism or Cell Type: 
cell culture: U2OS cells, murine H2K mdx myotubes, human SMA type 1 fibroblasts
Delivery Method: 
peptide nanoparticle