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Communication Dans Un Congrès Année : 2014

Novel nanostructured lipid carriers dedicated to nucleic acid delivery for RNAi purposes

Résumé

RNA interference discovery has opened up new fields of study, including the understanding of dysregulation occurring in pathogenesis, especially in cancerogenesis. Through this mechanism, the controlled specific down-regulation improves the identification of gene function involved in a biological mechanism and their contribution in an altered phenotype. In this way, high-throughput screening (HTS) of RNAi has emerged as a potent tool in order to study a large number of gene functions for the identification of new biomarkers and/or therapeutic targets. However, HTS requires for that purpose generic carriers with highly efficient transfection. Recently, progresses have been made regarding the design of non-viral vectors (lipids, peptides, polymers) as delivery agents. The efficiency and specificity of gene-based expression of siRNA have been improved, while at the same time reducing toxicity. Among these carriers, lipid-based agents, already used as commercial reagents for in vitro transfection, are considered as a promising approach for siRNA delivery. Here, we have developed novel nanostructured lipid carriers through a design of experiment approach which promote high transfection efficiency in several human cell lines. These lipid nanoparticles present an outstanding colloidal stability, whereas their cationic shell promotes ready- to-use features for fast and simple complexation with nucleic acids by electrostatic bonds establishment, without inducing cytotoxicity. As evidenced by gel retardation assay, complexation is stable over time, even in cell culture media, enabling thus stable transfection efficiency for all samples in a protocol of large-scale screening. Compared to the commercially available lipoplexes, these lipid nanoemulsions offer the possibility to combine several functions into a unique carrier, such as fluorescent particle tracking through the encapsulation of lipophilic dyes and/or the co-delivery of other drugs. Thereby, the distribution monitoring into cells with nanocarriers entrapping lipophilic cyanine derivatives demonstrates an improved internalization of nucleic acids. Furthermore, preliminary experiments performed on primary cells in culture demonstrated also an improved transfection compared to commercially available lipoplexes, opening thus the way for RNAi screening in that cells recognised as hard to transfect Besides, ligand moieties can be grafted onto the particle surface in order to selectively target a specific subset of cells. Such cationic lipid nanodroplets open new avenues in the development of high throughput RNAi screening as well as their translation to clinics.
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Dates et versions

hal-01078933 , version 1 (30-10-2014)

Identifiants

  • HAL Id : hal-01078933 , version 1

Citer

Jonathan Bruniaux, Eric Sulpice, Frédérique Mittler, Mathilde Menneteau, Thierry Bastogne, et al.. Novel nanostructured lipid carriers dedicated to nucleic acid delivery for RNAi purposes. Nanotech Advanced Materials and Applications, Nanotech 2014, Jun 2014, Washington DC, United States. ⟨hal-01078933⟩
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