Cationic Amphiphiles as Delivery System for Genes into Eukaryotic Cells

Cationic liposomes, consisting of synthetic amphiphiles and a socalled helper lipid, rapidly form complexes with DNA, known as lipoplexes. When incubated with cells in culture, the DNA can be delivered into the cell and becomes expressed. Because of these properties, lipoplexes are considered a useful alternative for viral vectors for in vivo genetherapy. Yet, many hurdles have still to be taken. These are illustrated in the present overview, which briefly describes the critical steps involved in overall gene delivery in vitro, ranging from lipoplex formation to nuclear penetration and delivery of the desired gene.

Lipofection-based delivery of DNA vaccines

The preventive and therapeutic potential of DNA vaccines combined with benefits of lipid-based delivery (lipofection) allow efficient nucleic acid transfer and immunization applicable in treatment of infections, cancer or autoimmune disorders. Lipofecting compositions consisting of cationic and neutral lipids can be used for both in vitro and in vivo applications and may also play the role of adjuvants. Here we describe a simple protocol of DNA vaccine carrier preparation based on cationic polyprenyl derivatives (PTAI-trimethylpolyprenylammonium iodides) and commonly used helper lipids with use of basic laboratory equipment. Such formulas have proven effective for immunization of animals as well as for cell transfection