Lipoplexes recouverts d’acide hyaluronique pour le ciblage d’ARN interférant à des cellules tumorales surexprimant le récepteur CD44

摘要

Recent progresses in the preclinical and clinical use of small interfering RNA (siRNA) have shown their potential as an inhibitor of protein synthesis in many diseases such as cancer. The administration of siRNA encounters a number of problems related to their rapid degradation in biological media, and their difficulty in penetrating targeted cells due to their hydrophilicity and negative charge. A key to improving the therapeutic efficacy of these molecules is based on the use of vectors. In this thesis, lipoplexes that can protect siRNA against degradation and facilitate their transport into target cells were developed and optimized. To do this, lipoplexes covered with HA were formulated for active vectorization of siRNA to tumor cells overexpressing the receptor CD44.In the first part of this thesis, the formation of lipoplexes was studied, and the parameters influencing their supramolecular organization. Insertion of HA within the liposome structure during vesicle formation resulted in the increase in liposome size as a function of HA concentration. Their complexation with siRNA has further increased the size of the particles obtained. The addition of siRNAs when forming lipoplexes caused a displacement of a portion of the HA-DOPE conjugate from the lipoplexes structure, as shown by capillary electrophoresis. The isothermal titration calorimetry and X-ray diffraction studies showed that a rearrangement of the lipid bilayers occur under the effect of electrostatic interactions with siRNAs, leading to the formation of oligolamellar vesicles, which was visually confirmed by cryo-microscopy. Finally, the proper positioning of the HA on the surface of the lipoplexes and its ability to specifically bind to the CD44 receptors has been demonstrated by the surface plasmon resonance technique.In the second part of this thesis, cellular uptake and intracellular localization of HA-lipoplexes were assessed by flow cytometry and fluorescence microscopy, and showed that lipoplexes modified by HA are internalized more rapidly than unmodified lipoplexes, and once in the cells, they are mainly localized within the endosomes. The ability of lipoplexes to transport intact siRNA molecules to the cytoplasm was confirmed by 81% of luciferase in vitro expression inhibition on the lung cancer cell line A549-luc. In vivo, treatment with HA-lipoplexes carrying anti-luciferase siRNA led to a statistically significant decrease in expression of luciferase, which was confirmed by reducing the mRNA expression of luciferase in lungs of animals treated with HA-lipoplexes. The analysis of the distribution of lipoplexes in the lungs showed that lipoplexes modified with HA are distributed more evenly in the lung tissue than unmodified lipoplexes.In the third part of this thesis, the movement of siRNA HA-lipoplexes in the mucus was studied to assess the feasibility of administering these particles directly to the lungs. Studies using the technique of "multiple particle tracking (MPT)" showed that the presence of HA combined with the addition of siRNA allowed the preparation of two lipoplexes formulations with efficient mucus-penetration, HA-lipoplexes and PEG/HA-lipoplexes.In conclusion, an efficient siRNA lipoplex system for inhibiting gene expression targeted TO the CD44 receptorS has been developed. The results confirm that the HA-lipoplexes are able to effectively release in vitro and in vivo the siRNA molecules in the cytoplasm of cells.