We highlight current glycovaccines in the clinic and derive principles for the construction of the next generation of synthetically defined glycoconjugate vaccines.
The use of stimuli-responsive bioactive molecules is an attractive strategy to circumvent selectivity issues in vivo. Here, we report an activatable cell penetrating peptide (CPP) strategy ultimately aimed at delivering nucleic acid drugs to the colon mucosa using bacterial azoreductase as the local reconversion trigger. Through screening of a panel of CPPs, we identified a sequence (M918) capable of carrying a nucleic acid analogue payload. A modified M918 peptide conjugated to a peptide nucleic acid (PNA) was shown to silence luciferase in colon adenocarcinoma cells (HT-29-luc). Reversible functionalization of the conjugate's lysine residues via an azobenzene self-immolative linkage abolished transfection activity, and the free CPP-PNA was recovered after reduction of the azobenzene bond. This activatable CPP conjugate platform could find applications in the selective delivery of nucleic acid drugs to the colon mucosa, opening therapeutic avenues in colon diseases.
Targeted delivery of therapeutic agents to hepatocytes is a particularly attractive strategy for the treatment of hepatocellular carcinoma and other liver diseases. The asialoglycoprotein receptor (ASGP-R) is abundantly expressed on hepatocytes and minimally found on extra-hepatic cells, making it an ideal entry gateway for hepatocyte-targeted therapy. Numerous multivalent ligands have been developed to target ASGP-R, among which well-defined multivalent ligands display especially high binding affinity to the receptor. Recently, several gene delivery systems based on such ligands for ASGP-R showed encouraging clinical results, drawing increasing interest in the scientific community and eventually promoting the improvement of current treatment for liver diseases. Here, we review ASGP-R targeting with a special emphasis on well-defined systems and properties such as the linker's length, hydrophilic-hydrophobic balance of the linker, and the spatial geometry of the scaffold. The present manuscript provides important guidelines for the design of multivalent ligands for ASGP-R.
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