Trends in lipoplex physical properties dependent on cationic lipid structure, vehicle and complexation procedure do not correlate with biological activity

doi:10.1093/nar/29.7.1539

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Nucleic Acids Research, 2001, Vol. 29, No. 7 1539-1548
© 2001 Oxford University Press

Trends in lipoplex physical properties dependent on cationic lipid structure, vehicle and complexation procedure do not correlate with biological activity

Marilyn E. Ferrari, Denis Rusalov, Joel Enas and Carl J. Wheeler^*

Department of Chemistry, Vical Incorporated, 9373 Towne Centre Drive, Suite 100, San Diego, CA 92121, USA

Using a group of structurally related cytofectins, the effectsof different vehicle constituents and mixing techniques on thephysical properties and biological activity of lipoplexes weresystematically examined. Physical properties were examined usinga combination of dye accessibility assays, centrifugation, gelelectrophoresis and dynamic light scattering. Biological activitywas examined using in vitro transfection. Lipoplexes were formulatedusing two injection vehicles commonly used for in vivo delivery(PBS pH 7.2 and 0.9% saline), and a sodium phosphate vehiclepreviously shown to enhance the biological activity of nakedpDNA and lipoplex formulations. Phosphate was found to be uniquein its effect on lipoplexes. Specifically, the accessible pDNAin lipoplexes formulated with cytofectins containing a ${gamma}$ -aminesubstitution in the headgroup was dependent on alkyl side chainlength and sodium phosphate concentration, but the same effectswere not observed when using cytofectins containing a ß-OHheadgroup substitution. The physicochemical features of thephosphate anion, which give rise to this effect in ${gamma}$ -amine cytofectins,were deduced using a series of phosphate analogs. The effectsof the formulation vehicle on transfection were found to becell type-dependent; however, of the formulation variables examined,the liposome/pDNA mixing method had the greatest effect on transgeneexpression in vitro. Thus, though predictive physical structurerelationships involving the vehicle and cytofectin componentsof the lipoplex were uncovered, they did not extrapolate totrends in biological activity.

^* To whom correspondence should be addressed. Tel: +1 858 6461216; Fax: +1 858 646 1250; Email: cwheeler{at}vical.com

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