New Formulation for the Delivery of Oligonucleotides Using 'Clickable' siRNA-Polyisoprenoid-Conjugated Nanoparticles: Application to Cancers Harboring Fusion Oncogenes

摘要

The aim of the present study is to take advantage of the unique property of polyisoprenoid chains to adopt a compact molecular conformation and to use these natural and biocompatible lipids as nanocarriers of drugs to deliver siRNA. A new chemical strategy is applied here to conjugate squalene (SQJ and solanesol (SOLA) to siRNA consisting of an activated variant of the azide-alkyne Huisgen cycloaddition also known as copper-free (Cu-free) click chemistry. We conjugated siRNA against TMPRSS2-ERG, a fusion oncogene found in more than 50% of prostate cancers to SQ or SOLA. First, several parameters such as molar ratio, solvents, temperature, incubation time, and the annealing schedule between both siRNA strands were investigated to bioconjugate the SQ or SOLA via Cu-free click chemistry. The best parameters of the new bioconjugation approach allowed us to (i) increase the synthesis yield up to 95%, (ii) avoid the formation of byproducts during the synthesis, and (iii) improve the reproducibility of the bioconjugation. Then, the biological activity of the resulting nanoparticles was assessed. In vitro, all four formulations were able to decrease the corresponding oncogene and oncoprotein expression. In vivo, only two of the four nanoformulations showed anti-neoplastic activity that seems to be tightly related to their dissimilar biodistribution behavior. In conclusion, we performed a new approach easily transposable for pharmaceutical development to synthesize siRNA-SQ and siRNA-SOLA and to obtain efficient siRNA-nanoparticles. The robustness of the process could be extended to several other polyterpenes and likely applied to other siRNA targeting genes whose overexpression results in the development of cancers or other genetic diseases.