Guanidine and morpholine functionalized aliphatic polycarbonate polymers able to efficiently deliver histone deacetylase 5 (HDAC5) siRNA into the cytoplasm of cancer cells in vitro leading to a decrease of cell proliferation were previously developed. To allow these biodegradable and biocompatible polyplex nanoparticles to overcome the extracellular barriers and be effective in vivo after an intravenous injection, polyethylene glycol chains (PEG 750 Hemocompatibility tests showed no effect of these polyplexes on hemolysis and coagulation. In vivo biodistribution in mice was performed and showed a better siRNA accumulation at the tumor site for PEGylated polyplexes. However, cellular uptake in protein-rich conditions showed that PEGylated polyplex lost their ability to interact with biological membranes and enter into cells, showing the importance to perform in vitro investigations in physiological conditions closed to in vivo situation. In vitro, the efficiency of PEGylated nanoparticles decreases compared to non-PEGylated particles, leading to the loss of the antiproliferative effect on cancer cells.
For the first time, the effectiveness of triazolinedione (TAD) click chemistry onto aliphatic polycarbonates (APC) is demonstrated. Statistic copolymers carrying click‐reactive conjugated diene (in a ratio of 10%) are synthesized via organocatalyzed ring‐opening polymerization. The highly efficient click reaction of TADs carrying simple butyl and phenyl functions are confirmed by 1H‐NMR and DSC. Network formation using a bivalent TAD is also performed and simply characterized by DSC. This post‐polymerization functionalization of biocompatible and biodegradable APC pave the way to easy and versatile “on‐demand” materials design.
Dystrophia myotonica type 1 (DM1) results from
nuclear sequestration of splicing factors by a messenger RNA (mRNA)
harboring a large (CUG)n repeat array
transcribed from the causal (CTG)n DNA
amplification. Several compounds were previously shown to bind the
(CUG)n RNA and release the splicing factors.
We now investigated for the first time the interaction of an aliphatic
polycarbonate carrying guanidinium functions to DM1 DNA/RNA model
probes by affinity capillary electrophoresis. The apparent association
constants (Ka) were in the range described
for reference compounds such as pentamidine. Further macromolecular
engineering could improve association specificity. The polymer presented
no toxicity in cell culture at concentrations of 1.6–100.0
μg/mL as evaluated both by MTT and real-time monitoring xCELLigence
method. These promising results may lay the foundation for a new branch
of potential therapeutic agents for DM1.
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