Danilo D. Lasiç scite author profile

To increase cationic liposome-mediated intravenous DNA delivery extruded DOTAP:cholesterol liposomes were used to form complexes with DNA, resulting in enhanced expression of the chloramphenicol acetyltransferase gene in most tissues examined. The DNA:liposome ratio, and mild sonication, heating, and extrusion steps used for liposome preparation were crucial for improved systemic delivery. Size fractionation studies showed that maximal gene expression was produced by a homogeneous population of DNA:liposome complexes between 200 to 450 nm in size. Cryo-electron microscopy examination demonstrates that the DNA:liposome complexes have a novel morphology, and that the DNA is condensed on the interior of invaginated liposomes between two lipid bilayers. This structure could account for the high efficiency of gene delivery in vivo and for the broad tissue distribution of the DNA:liposome complexes. Ligands can be placed on the outside of this structure to provide for targeted gene delivery.

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Applications of Liposomes

Lasiç¹

1995

356

428

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Modulation of interaction forces between bilayers exposing short-chained ethylene oxide headgroups

Kuhl

Leckband

Lasiç

et al. 1994

Biophysical Journal

324

405

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The use of liposomes as drug delivery systems has been limited by their rapid clearance from circulation by the mononuclear phagocyte system. Recent studies have found that circulation times can be greatly enhanced by incorporating a small amount of modified lipids whose headgroups are derivatized with a bulky water soluble polymeric chain of poly ethylene oxide. We report here a systematic study using the Surface Forces Apparatus to measure directly the interactions between two phosphatidyl ethanolamine lipid bilayers, exposing this polymeric headgroup at different concentrations in the bilayer. We found that the force becomes repulsive at all separations and that the thickness of the steric barrier could be controlled easily by adjusting the concentration of the modified lipids. Equilibrium force profiles were measured that were reversible and largely insensitive to changes in electrolyte concentration and temperature. The results have enabled the Dolan and Edwards theory for the steric forces of low coverage polymer surfaces and the Alexander de Gennes theory for high coverage surfaces to be tested, and both were found to apply. We conclude that these simple theories can be used to model the interactions of surprisingly short segments and, hence, apply to such systems as lipids with bulky headgroups and liposomes containing a sterically stabilizing polymer.

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The Structure of DNA−Liposome Complexes

et al. 1997

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The "Stealth" Liposome: A Prototypical Biomaterial

Lasiç¹,

Needham²

1995

Chem. Rev.

394

278

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Danilo D. Lasiç

Sterically stabilized liposomes: improvements in pharmacokinetics and antitumor therapeutic efficacy.

Sterically stabilized liposomes

Surface modification of nanoparticles to oppose uptake by the mononuclear phagocyte system

Improved DNA: liposome complexes for increased systemic delivery and gene expression

Applications of Liposomes

Modulation of interaction forces between bilayers exposing short-chained ethylene oxide headgroups

The Structure of DNA−Liposome Complexes

The "Stealth" Liposome: A Prototypical Biomaterial

Contact Info

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