Bioinspired Cell Nuclear Nanotransporters Generated by Self-Assembly of Amphiphilic Polysaccharide-Amino Acid Derivatives Conjugates.

Abstract

Development of nanomaterials that surely transport functional biomacromolecules and bioactive synthetic compounds into the cell nucleus must be promising for the generation of nuclear-targeting new technologies. However, the development of nuclear transporting nanomaterials thus still remains a significant challenge, because molecular transport between the cytoplasm and the nucleus of a eukaryotic cell is strictly regulated by the sole gateway through the nuclear envelope, the nuclear pore complexes (NPCs). Here, the rational design of novel artificial nuclear nanotransporters (NucPorters), inspired by importin, naturally occurring nuclear transporters is shown. The NucPorter is generated by simple molecular design: self-assembly of amphiphilic polymers, where a few numbers of hydrophobic amino-acid derivatives with phenyl groups are conjugated to negatively charged hydrophilic heparin. The NucPorter can mimic essential structural and chemical features of importin machinery to pass through the NPCs. Importantly, the NucPorter demonstrates remarkable rapid and high efficient nuclear transport in cultured cells, tissue/organ, and living mice. Moreover, the NucPorter successfully imports both enzymes and synthetic anticancer drugs into the nucleus while maintaining their bioactivity. Thus, the NucPorter provides a promising new route to generate innovative nuclear-targeting medicines, diagnostics, cell imaging and engineering techniques, and drug delivery systems.