Gilles Breuzard scite author profile

Lipoplexes and polyplexes, electrostatic complexes between a plasmid DNA and cationic lipids or polymers are chemical systems that are developed for gene delivery. Considerable efforts have been done to delineate the exact knowledge of their entry mechanisms and the intracellular routing of the plasmid DNA that are of major importance for the designing of these gene delivery systems. While the uptake of lipoplexes made with several types of cationic lipids proceeds mainly by the clathrin-dependent pathway, it appears that for polyplexes the uptake pathway is more dependent on the polymer and the cell types. So, after an overview of the current knowledge of different endocytic pathways, we present here a selection of current reports related to the entry mechanisms and intracellular routing of plasmid DNA complexed with select cationic polymers. The review includes the role of glycosaminoglycans, cell polarization and cell cycle in the polyplex uptake and their transfection efficiency. We also report current data showing that the insertion of specific kappaB motifs in the nucleic acid sequence provides an increase of the plasmid import into the nucleus. This has been demonstrated by fluorescence methods suitable to investigate the intracellular trafficking of pDNA. Overall, it appears that polyplex uptake proceeds both by the clathrin-dependent pathway and a clathrin-independent (cholesterol-dependent) pathway. These two entry mechanisms are not exclusive and can occur simultaneously in the same cell. Both of them lead to cell transfection but polyplexes still need improvements for clinical use.

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Exosomal Lipids Impact Notch Signaling and Induce Death of Human Pancreatic Tumoral SOJ-6 Cells

Beloribi

Ristorcelli

Breuzard

et al. 2012

PLoS ONE

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Exosomes are of increasing interest as alternative mode of cell-to-cell communication. We previously reported that exosomes secreted by human SOJ-6 pancreatic tumor cells induce (glyco)protein ligand-independent cell death and inhibit Notch-1 pathway, this latter being particularly active during carcinogenesis and in cancer stem cells. Therefore, we asked whether exosomal lipids were key-elements for cell death and hypothesized that cholesterol-rich membrane microdomains were privileged sites of exosome interactions with tumor cells. To address these questions and based on the lipid composition of exosomes from SOJ-6 cells (Ristorcelli et al. (2008) FASEB J. 22; 3358–3369) enriched in cholesterol and sphingomyelin (lipids forming liquid-ordered phase, Lo) and depleted in phospholipids (lipids forming liquid-disordered phase, Ld), we designed Synthetic Exosome-Like Nanoparticles (SELN) with ratios Lo/Ld from 3.0 to 6.0 framing that of SOJ-6 cell exosomes. SELN decreased tumor cell survival, the higher the Lo/Ld ratio, the lower the cell survival. This decreased survival was due to activation of cell death with inhibition of Notch pathway. FRET analyses indicated fusions/exchanges of SELN with cell membranes. Fluorescent SELN co-localized with the ganglioside GM1 then with Rab5A, markers of lipid microdomains and of early endosomes, respectively. These interactions occurred at lipid microdomains of plasma and/or endosome membranes where the Notch-1 pathway matures. We thus demonstrated a major role for lipids in interactions between SELN and tumor cells, and in the ensued cell death. To our knowledge this is the first report on such effects of lipidic nanoparticles on tumor cell behavior. This may have implications in tumor progression.

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Nuclear delivery of NFκB-assisted DNA/polymer complexes: plasmid DNA quantitation by confocal laser scanning microscopy and evidence of nuclear polyplexes by FRET imaging

Breuzard

Tertil

Gonçalves

et al. 2008

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Quantification of a plasmid DNA (pDNA) and investigation of its polymer-associated state in the nucleus are crucial to evaluate the effectiveness of a gene-delivery system. This study was conducted with p3NF-luc-3NF, a pDNA-bearing optimized κB motif to favour NFκB-driven nuclear import. Here, a quantification of pDNA copies in the nucleus was performed by real-time confocal laser scanning microscopy in HeLa and C2C12 cells transfected with linear polyethylenimine or histidylated polylysine. Förster Resonance Energy Transfer (FRET) from the fluorescein-p3NF-luc-3NF donor to the co-localized rhodamine-polymer acceptor was carried out to investigate whether the pDNA was still condensed with the polymer in the nucleus. Upon 5 h of transfection, the nuclear amount of p3NF-luc3NF was ∼1500 copies in both cell lines whereas that of pTAL-luc, a 3NF-free counterpart pDNA, was less than 250. This quantity of p3NF-luc-3NF dropped dramatically to that of pTAL-luc in the presence of the BAY 11-7085, an inhibitor of NFκB activation. These data strongly support a nuclear import of p3NF-luc3NF mediated by NFκB. Moreover, FRET experiments clearly revealed that most of nuclear pDNA were still condensed with the polymer raising the question of their passage through the nuclear pore complex and their impact on the gene-expression efficiency.

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Gilles Breuzard

Polymer-Based Gene Delivery: A Current Review on the Uptake and Intracellular Trafficking of Polyplexes

Exosomal Lipids Impact Notch Signaling and Induce Death of Human Pancreatic Tumoral SOJ-6 Cells

Nuclear delivery of NFκB-assisted DNA/polymer complexes: plasmid DNA quantitation by confocal laser scanning microscopy and evidence of nuclear polyplexes by FRET imaging

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