Tuning the Stability of the Polyplex Nanovesicles of Oligonucleotides via a Zinc (II)-Coordinative Strategy

TL;DR: Robust electrostatic-templated polymerization for controllable synthesis of stable and permeable polyelectrolyte vesicles. The method enables fabrication of polyelectrolyte vesicles with regulated stability and permeability by tuning synthesis factors and template design.

TL;DR: An overview of oligonucleotide-based drug platforms is provided, focusing on key approaches — including chemical modification, bioconjugation and the use of nanocarriers — which aim to address the delivery challenge.

TL;DR: By shaping these features, polymeric micelles have been propitious for delivering a wide range of therapeutics through effective sensing of targets in the body and adjustment of their properties in response to particular stimuli, modulating the activity of the loaded drugs at the targeted sites, even at the subcellular level.

TL;DR: As oligonucleotides with a particular chemical design show appropriate distribution and safety profiles for clinical gene silencing in a particular tissue, this will open the door to the rapid development of additional drugs targeting other disease-associated genes in the same tissue.

TL;DR: This review will introduce the most important cationic polymers used as non-viral vectors for gene and oligonucleotide delivery and will summarize strategies for the targeting of these agents to cancer tissues.