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Structural Stability against Disintegration by Anionic Lipids Rationalizes the Efficiency of Cationic Liposome/DNA Complexes

Reported here is the correlation between the transfection efficiency of cationic liposome/DNA complexes (lipoplexes) and the structural evolution that they undergo when interacting with anionic membrane lipids. Multicomponent lipoplexes, incorporating from three to six lipid species simultaneously,...

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Published in:	Langmuir 2007-04, Vol.23 (8), p.4498-4508
Main Authors:	Caracciolo, Giulio, Marchini, Cristina, Pozzi, Daniela, Caminiti, Ruggero, Amenitsch, Heinz, Montani, Maura, Amici, Augusto
Format:	Article
Language:	English
Subjects:	Anions - chemistry Biophysics - methods Cations Chemistry Chemistry, Physical - methods Colloidal state and disperse state Cytosol - chemistry DNA - chemistry Electrophoresis, Agar Gel - methods Endosomes - chemistry Exact sciences and technology General and physical chemistry Lipids - chemistry Liposomes - chemistry Membranes Molecular Conformation Phosphatidylglycerols - chemistry Synchrotrons Transfection X-Ray Diffraction
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creator	Caracciolo, Giulio Marchini, Cristina Pozzi, Daniela Caminiti, Ruggero Amenitsch, Heinz Montani, Maura Amici, Augusto
description	Reported here is the correlation between the transfection efficiency of cationic liposome/DNA complexes (lipoplexes) and the structural evolution that they undergo when interacting with anionic membrane lipids. Multicomponent lipoplexes, incorporating from three to six lipid species simultaneously, presented a much higher transfection efficiency than binary lipoplexes, which are more commonly used for gene-delivery purposes. The discovery that a high transfection efficiency can be achieved by employing multicomponent complexes at a lower-than-ever-before membrane charge density of lipoplexes was of primary significance. Synchrotron small-angle X-ray diffraction (SAXD) experiments showed that anionic liposomes made of dioleoylphosphatidylglycerol (DOPG) disintegrated the lamellar phase of lipoplexes. DNA unbinding was measured by electrophoresis on agarose gels. Most importantly, structural changes induced by anionic lipids strictly depended on the lipid composition of lipoplexes. We found evidence of the existence of three different regimes of stability related to the interaction between complexes and anionic membranes. Both unstable (with low membrane charge density, σM) and highly stable lipoplexes (with high σM) exhibited low transfection efficiency whereas highly efficient multicomponent lipoplexes exhibited an “optimal stability”. This intermediate regime reflects a compromise between two opposing constraints: protection of DNA in the cytosol and endosomal escape. Here we advance the concept that structural stability, upon interaction with cellular anionic lipids, is a key factor governing the transfection efficiency of lipoplexes. Possible molecular mechanisms underlying experimental observations are also discussed.
doi_str_mv	10.1021/la063456o
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Both unstable (with low membrane charge density, σM) and highly stable lipoplexes (with high σM) exhibited low transfection efficiency whereas highly efficient multicomponent lipoplexes exhibited an “optimal stability”. This intermediate regime reflects a compromise between two opposing constraints: protection of DNA in the cytosol and endosomal escape. Here we advance the concept that structural stability, upon interaction with cellular anionic lipids, is a key factor governing the transfection efficiency of lipoplexes. 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subjects	Anions - chemistry Biophysics - methods Cations Chemistry Chemistry, Physical - methods Colloidal state and disperse state Cytosol - chemistry DNA - chemistry Electrophoresis, Agar Gel - methods Endosomes - chemistry Exact sciences and technology General and physical chemistry Lipids - chemistry Liposomes - chemistry Membranes Molecular Conformation Phosphatidylglycerols - chemistry Synchrotrons Transfection X-Ray Diffraction
title	Structural Stability against Disintegration by Anionic Lipids Rationalizes the Efficiency of Cationic Liposome/DNA Complexes
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