AI Article Synopsis
- The combination of cationic lipids, cationic peptides, and DNA vectors can enhance gene delivery to eukaryotic cells, but details on their complex structures are not well understood.
- Using advanced techniques, the study explores the structure and charge of ternary complexes formed by plasmid DNA, cationic liposomes, and a specific cationic peptide.
- The results reveal that these complexes have multilamellar structures with a specific arrangement of DNA, and the distance between DNA strands varies based on the overall charge ratio, which is explained by properties of polyelectrolyte mixtures.
Article Abstract
The combination of cationic lipids with cationic peptides and DNA vectors can produce synergistic effects in gene delivery to eukaryotic cells. Binary complexes of cationic lipids with DNA are well-studied whereas little information is available about the structure of the ternary lipid/peptide/DNA (LPD) complexes and mechanisms defining DNA protection and delivery. Here we use synchrotron small angle X-ray scattering and dynamic light scattering zeta-potential measurements to determine structure and the net charge of supramolecular aggregates of complexes in mixtures of plasmid DNA, cationic liposomes formed from DOTAP, plus a linear cationic epsilon-oligolysine with the pendant alpha-amino acids Leu-Tyr-Arg (LYR), epsilon-(LYR)K10. These ternary complexes display multilamellar structures with relatively constant separation between DOTAP bilayers, accommodating a hydrated monolayer of parallel DNA rods. The DNA-DNA distance in the complexes varies as a function of the net positive to negative (lipid + peptide)/DNA charge ratio. An explanation for the observed dependence of DNA-DNA distance on charge ratio was proposed based on general polyelectrolyte properties of non-stoichiometric polycation-DNA mixtures.
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| http://dx.doi.org/10.1016/j.bbamem.2012.03.022 | DOI Listing |
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