Monomolecular collapse of plasmid DNA into stable virus-like particles.

Cationic lipids are being widely used for cell transfection in vitro. The lipid/DNA complexes, however, tend to aggregate into large and polydisperse particle mixtures; this hampers their use in vivo. Cationic detergents, on the contrary, do not mediate cell transfection per se, yet are capable of condensing individual DNA molecules into discrete entities. We have taken (only) the interesting features of both types of amphiphiles for the two-step formation of stable core particles reminiscent of viruses. Individual anionic plasmid molecules were cooperatively collapsed with a carefully tailored cationic cysteine-based detergent. The resulting 23-nm particles were then simply "frozen" by spontaneous aerobic dimerization of the cysteine-detergent into a cystine-lipid on the template DNA. The population of spherical particles is monodisperse and stable over days, in physiological conditions. Together with a negative surface potential, these properties should ensure good tissue dissemination and escape from the blood stream after i.v. injection.