Sequence-defined lipo-oligomers generated via solid-phase assisted synthesis have been developed as siRNA delivery systems for RNA-interference (RNAi) based gene silencing. Here, novel siRNA lipo-polyplexes were established, which were postmodified with monovalent or bivalent DBCO-PEG24 agents terminated with peptide GE11 (YHWYGYTPQNVI) for epidermal growth factor receptor (EGFR)-targeted siRNA delivery into EGFR-positive tumor cells. Lipo-oligomers containing eight cationizable succinoyltetraethylene-pentamine (Stp) units mediated higher siRNA nanoparticle core stability than those containing four Stp units, and the incorporation of histidines for enhanced endosomal buffer capacity resulted in an improved gene silencing efficiency. Lipo-polyplexes modified with monovalent or bivalent PEG-GE11 via the copper-free click reaction possessed significantly enhanced cellular internalization and transfection efficiency in EGF receptor-positive human cervical KB and hepatoma Huh7 cells in comparison with the corresponding lipo-polyplexes shielded with PEG24 without targeting. Furthermore, modification with the bivalent DBCO-PEG24-GE11 ligand resulted in higher gene silencing efficiency than modification with the same equivalents of the monovalent DBCO-PEG24-GE11 ligand.
Keywords: EGF receptor; click-chemistry; gene silencing; shielding; siRNA delivery; tumor targeting.