Hyaluronic acid-bearing lipoplexes: Physico-chemical characterization and in vitro targeting of the CD44 receptor

The mechanism by which hyaluronic acid (HA)-bearing lipoplexes target the A549 lung cancer cell line was evaluated. For this purpose, cationic liposomes targeting the CD44 receptor were designed thanks to the incorporation in their composition of a conjugate between high molecular weight HA and the...

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Published in:	Journal of controlled release Vol. 162; no. 3; pp. 545 - 552
Main Authors:	Dufaÿ Wojcicki, Amélie, Hillaireau, Hervé, Nascimento, Thais Leite, Arpicco, Silvia, Taverna, Myriam, Ribes, Sandy, Bourge, Mickaël, Nicolas, Valérie, Bochot, Amélie, Vauthier, Christine, Tsapis, Nicolas, Fattal, Elias
Format:	Journal Article
Language:	English
Published:	Kidlington Elsevier B.V 28-09-2012 Elsevier
Subjects:	A549 Antigens, CD44 Biological and medical sciences CD44 Cell Line, Tumor complement Complement activation Complement C3 Complement C3 - metabolism DNA DNA - administration & dosage DNA - chemistry Endocytosis flow cytometry fluorescence microscopy General pharmacology green fluorescent protein Green Fluorescent Proteins Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Humans Hyaluronan Receptors - metabolism Hyaluronic Acid Hyaluronic Acid - administration & dosage Hyaluronic Acid - chemistry Life Sciences Lipoplexes Liposomes lung neoplasms Medical sciences molecular weight nucleases Pharmaceutical technology. Pharmaceutical industry Pharmacology. Drug treatments Phosphatidylethanolamines Phosphatidylethanolamines - administration & dosage Phosphatidylethanolamines - chemistry plasmids transfection Vegetal Biology zeta potential Endocytosis Complement activation Hyaluronic acid CD44 A549 Lipoplexes Pharmaceutical technology Targeting Activation Complement In vitro Polyelectrolyte Target Healing agent Glycosaminoglycan Oside polymer Antirheumatic agent Lipoplex Physicochemical properties Biological receptor
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Abstract	The mechanism by which hyaluronic acid (HA)-bearing lipoplexes target the A549 lung cancer cell line was evaluated. For this purpose, cationic liposomes targeting the CD44 receptor were designed thanks to the incorporation in their composition of a conjugate between high molecular weight HA and the lipid DOPE (HA-DOPE). Liposomes containing HA-DOPE were complexed at different lipids:DNA ratios with a reporter plasmid encoding the green fluorescent protein (GFP). Diameter, zeta potential, lipoplex stability and DNA protection from nucleases have been determined. Lipids:DNA ratios of 2, 4 and 6 provided a diameter around 250nm with a zeta potential of −30mV. The strength of lipids:DNA interaction and the fraction of DNA protected from enzymatic degradation increased with the lipids:DNA ratio. 2D-immunoelectrophoresis demonstrated the low capacity to activate the C3 fraction of the complement system of any of these three ratios, with and without HA-DOPE. Transfection efficiency in the presence of 0, 10 and 15% of HA-DOPE or unconjugated HA, was determined on the CD44-expressing A549 cells by flow cytometry. Lipoplexes at a lipids:DNA ratio of 2 containing 10% (w/w) of HA-DOPE were the most efficient for transfection. The maximal level of GFP expression was obtained after 6h of incubation demonstrating a slow transfection kinetics of lipoplexes. Finally, lipoplex cellular uptake, measured indirectly by the level of transfection using flow cytometry and validated by fluorescence microscopy, was shown to be mediated by the CD44 receptor and caveolae. These results demonstrate the strong specificity of DNA targeting through the CD44 receptor using HA of high molecular weight as a ligand. [Display omitted]
AbstractList	The mechanism by which hyaluronic acid (HA)-bearing lipoplexes target the A549 lung cancer cell line was evaluated. For this purpose, cationic liposomes targeting the CD44 receptor were designed thanks to the incorporation in their composition of a conjugate between high molecular weight HA and the lipid DOPE (HA-DOPE). Liposomes containing HA-DOPE were complexed at different lipids:DNA ratios with a reporter plasmid encoding the green fluorescent protein (GFP). Diameter, zeta potential, lipoplex stability and DNA protection from nucleases have been determined. Lipids:DNA ratios of 2, 4 and 6 provided a diameter around 250 nm with a zeta potential of -30 mV. The strength of lipids:DNA interaction and the fraction of DNA protected from enzymatic degradation increased with the lipids:DNA ratio. 2D-immunoelectrophoresis demonstrated the low capacity to activate the C3 fraction of the complement system of any of these three ratios, with and without HA-DOPE. Transfection efficiency in the presence of 0, 10 and 15% of HA-DOPE or unconjugated HA, was determined on the CD44-expressing A549 cells by flow cytometry. Lipoplexes at a lipids:DNA ratio of 2 containing 10% (w/w) of HA-DOPE were the most efficient for transfection. The maximal level of GFP expression was obtained after 6h of incubation demonstrating a slow transfection kinetics of lipoplexes. Finally, lipoplex cellular uptake, measured indirectly by the level of transfection using flow cytometry and validated by fluorescence microscopy, was shown to be mediated by the CD44 receptor and caveolae. These results demonstrate the strong specificity of DNA targeting through the CD44 receptor using HA of high molecular weight as a ligand. The mechanism by which hyaluronic acid (HA)-bearing lipoplexes target the A549 lung cancer cell line was evaluated. For this purpose, cationic liposomes targeting the CD44 receptor were designed thanks to the incorporation in their composition of a conjugate between high molecular weight HA and the lipid DOPE (HA-DOPE). Liposomes containing HA-DOPE were complexed at different lipids:DNA ratios with a reporter plasmid encoding the green fluorescent protein (GFP). Diameter, zeta potential, lipoplex stability and DNA protection from nucleases have been determined. Lipids:DNA ratios of 2, 4 and 6 provided a diameter around 250nm with a zeta potential of −30mV. The strength of lipids:DNA interaction and the fraction of DNA protected from enzymatic degradation increased with the lipids:DNA ratio. 2D-immunoelectrophoresis demonstrated the low capacity to activate the C3 fraction of the complement system of any of these three ratios, with and without HA-DOPE. Transfection efficiency in the presence of 0, 10 and 15% of HA-DOPE or unconjugated HA, was determined on the CD44-expressing A549 cells by flow cytometry. Lipoplexes at a lipids:DNA ratio of 2 containing 10% (w/w) of HA-DOPE were the most efficient for transfection. The maximal level of GFP expression was obtained after 6h of incubation demonstrating a slow transfection kinetics of lipoplexes. Finally, lipoplex cellular uptake, measured indirectly by the level of transfection using flow cytometry and validated by fluorescence microscopy, was shown to be mediated by the CD44 receptor and caveolae. These results demonstrate the strong specificity of DNA targeting through the CD44 receptor using HA of high molecular weight as a ligand. [Display omitted] The mechanism by which hyaluronic acid (HA)-bearing lipoplexes target the A549 lung cancer cell line was evaluated. For this purpose, cationic liposomes targeting the CD44 receptor were designed thanks to the incorporation in their composition of a conjugate between high molecular weight HA and the lipid DOPE (HA-DOPE). Liposomes containing HA-DOPE were complexed at different lipids:DNA ratios with a reporter plasmid encoding the green fluorescent protein (GFP). Diameter, zeta potential, lipoplex stability and DNA protection from nucleases have been determined. Lipids:DNA ratios of 2, 4 and 6 provided a diameter around 250nm with a zeta potential of −30mV. The strength of lipids:DNA interaction and the fraction of DNA protected from enzymatic degradation increased with the lipids:DNA ratio. 2D-immunoelectrophoresis demonstrated the low capacity to activate the C3 fraction of the complement system of any of these three ratios, with and without HA-DOPE. Transfection efficiency in the presence of 0, 10 and 15% of HA-DOPE or unconjugated HA, was determined on the CD44-expressing A549 cells by flow cytometry. Lipoplexes at a lipids:DNA ratio of 2 containing 10% (w/w) of HA-DOPE were the most efficient for transfection. The maximal level of GFP expression was obtained after 6h of incubation demonstrating a slow transfection kinetics of lipoplexes. Finally, lipoplex cellular uptake, measured indirectly by the level of transfection using flow cytometry and validated by fluorescence microscopy, was shown to be mediated by the CD44 receptor and caveolae. These results demonstrate the strong specificity of DNA targeting through the CD44 receptor using HA of high molecular weight as a ligand.
Author	Bourge, Mickaël Bochot, Amélie Vauthier, Christine Arpicco, Silvia Tsapis, Nicolas Taverna, Myriam Dufaÿ Wojcicki, Amélie Nicolas, Valérie Ribes, Sandy Hillaireau, Hervé Fattal, Elias Nascimento, Thais Leite
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Keywords	Endocytosis Complement activation Hyaluronic acid CD44 A549 Lipoplexes Pharmaceutical technology Targeting Activation Complement In vitro Polyelectrolyte Target Healing agent Glycosaminoglycan Oside polymer Antirheumatic agent Lipoplex Physicochemical properties Biological receptor
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Snippet	The mechanism by which hyaluronic acid (HA)-bearing lipoplexes target the A549 lung cancer cell line was evaluated. For this purpose, cationic liposomes...
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SubjectTerms	A549 Antigens, CD44 Biological and medical sciences CD44 Cell Line, Tumor complement Complement activation Complement C3 Complement C3 - metabolism DNA DNA - administration & dosage DNA - chemistry Endocytosis flow cytometry fluorescence microscopy General pharmacology green fluorescent protein Green Fluorescent Proteins Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism Humans Hyaluronan Receptors - metabolism Hyaluronic Acid Hyaluronic Acid - administration & dosage Hyaluronic Acid - chemistry Life Sciences Lipoplexes Liposomes lung neoplasms Medical sciences molecular weight nucleases Pharmaceutical technology. Pharmaceutical industry Pharmacology. Drug treatments Phosphatidylethanolamines Phosphatidylethanolamines - administration & dosage Phosphatidylethanolamines - chemistry plasmids transfection Vegetal Biology zeta potential
Title	Hyaluronic acid-bearing lipoplexes: Physico-chemical characterization and in vitro targeting of the CD44 receptor
URI	https://dx.doi.org/10.1016/j.jconrel.2012.07.015 https://www.ncbi.nlm.nih.gov/pubmed/22820451 https://search.proquest.com/docview/1074765331 https://hal.science/hal-00855565
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