Bioreducible Peptide-Dendrimeric Nanogels with Abundant
Expanded Voids for Efficient Drug Entrapment and Delivery
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Abstract
Dendrimer-based nanoplatforms have
exhibited wide prospects in
the field of nanomedicine for drug delivery, without great success
due to many predicaments of cytotoxicity, high cost, and low yield.
In this work, we report a feasible strategy on dynamic cross-linkings
of low-generation peptide dendrimers into bioreducible nanogels for
efficient drug controlled release. With a facile fabrication, the
disulfide cross-linking of biocompatible peptide dendrimers successfully
possess well-defined and stable nanostructures with abundant expanded
voids for efficient molecular encapsulation. More importantly, high
reducing condition is capable of triggering the cleavage of disulfide
bonds, the disintegration of peptide-dendrimeric nanogels, and stimuli-responsive
release of guest molecules. The bioreducible nanogels improve antitumor
drug internalization, contribute to endosomal escape, and realize
intracellular drug controlled release. The doxorubicin-loaded nanogels
afford high antitumor efficiency and reduce the side effects to BALB/c
mice bearing 4T1 tumor. Therefore, dynamic cross-linkings of low-generation
dendrimers into smart nanogels will be an alternative and promising
strategy to resolve the dilemmas of current dendrimer-based nanocarriers
as well as develop innovative nanoplatforms