Twin disulfides as opportunity for improving stability and transfection efficiency of oligoaminoethane polyplexes

The synthesis of precise gene delivery vehicles by solid-supported chemistry is an effective way to establish structure–activity relationships and optimize existing transfection carriers. Sequence-defined cationic oligomers with different topologies were modified with twin disulfide-forming cysteine–arginine–cysteine (CRC) motifs. The influence of this motif versus single disulfide on the biophysical properties and biological performance of polyplexes was investigated, with pDNA and siRNA as nucleic acid cargoes. Clear differences between structures with isolated cysteines and CRC motifs were observed with respect to properties like nucleic acid binding, serum stability, response to reducing agents, and gene transfer/silencing. The main observed effect of the CRC motif was to increase polyplex stability. The consequences for nucleic acid delivery were less predictable and depended on oligomer topology. For some oligomers intrinsically forming stable polyplexes (i.e., already in the absence of CRC motif), this further stabilization resulted in a reduction or even loss in transfection efficiency. For PEGylated and targeted oligomers with intrinsically less stable polyplex structures, this modification led to a significant enhancement in transfection efficiency.

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