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Morphology of Cationic Liposome/DNA Complexes in Relation to Their Chemical Composition
Abstract:Abstract

Electron microscopy is used to show the morphology of liposome/DNA complexes as related to their cationic component, the molar ratio of the helper lipid (usually DOPE1), the nature of the DNA-component, as well as the composition of the media. Liposomes made of monovalent cationic amphiphiles adhere and fuse during interaction with negatively charged DNA thereby complexing the DNA. The size of the resulting complexes is depending upon charge neutralization and is smallest at a slightly positive net charge. At molar ratios of DOPE, to the cationic component of ≥ 1.5, hexagonal lipid tubules are formed, especially in media containing high salt concentrations, and even in the control lipid mixture, not interacting with any DNA or oligonucleotide. Complexes, made of plasmid-DNA, monovalent cationic amphiphiles, and DOPE at a lower molar ratio, show additionally to the semifused or fused liposomes a new structure, called spaghetti-like structure, representing a bilayer-coated, supercoiled DNA. Single-strand and short oligonucleotides seem not to form such structures during interaction with monovalent cationic liposomes. Neither fusion nor spaghetti formation is observed during interaction of DNA with liposomes made of polyvalent cationic amphiphiles. In general, small complexes consisting of some few semifused liposomes bearing the self-encapsulated nucleic acid and additionally the spaghetti-like structure, free or connected with these complexes, seem to be candidates for the transfectionactive structure rather than large extended HII1-lipid arrangements.
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