Cationic Lipid Transfection

Cationic lipid-mediated transfection is a fast, simple, and reproducible means for introducing DNA, RNA, siRNA, or oligonucleotides into eukaryotic cells.

In this method, cationic lipids are mixed with nucleic acids in solution and added to cells. Next, the nucleic acid-lipid complex is taken up by the cells. This chemical transfection method allows the highly efficient delivery of nucleic acids into a broad range of cell types, including adherent, suspension, and insect cells, as well as primary cultures.

Specially designed cationic lipids, such as Invitrogen Lipofectamine transfection reagents, facilitate DNA and RNA delivery into cells [1–3]. The basic structure of cationic lipids consists of a positively charged head group and one or two hydrocarbon chains.

Cationic lipid-based reagents spontaneously form condensed nucleic acid-cationic lipid complexes via electrostatic interactions between the negatively charged nucleic acid and the positively charged head group of the synthetic lipid.

In addition, some cationic lipid reagents are formulated with a neutral co-lipid or helper lipid, followed by extrusion or microfluidization, resulting in a unilamellar liposomal structure with a positive surface charge when in water. The positive surface charge of the liposomes mediates the interaction of the nucleic acid and the cell membrane, allowing for fusion of the liposome/nucleic acid transfection complex with the negatively charged cell membrane. The transfection complex is thought to enter the cell through endocytosis.

Once inside the cell, the complex must escape the endosomal pathway and diffuse through the cytoplasm. Transfected DNA is translocated to the nucleus to be expressed, while RNA or antisense oligonucleotides skip the translocation step and remain in the cytoplasm. Cationic lipids are thought to facilitate DNA transfection during the early steps of the process by mediating DNA condensation and DNA/cellular interactions.

Advantages of lipid-based transfection over other chemical transfection methods 

The advantages of cationic lipid-mediated transfection are the ability to transfect a broad range of cell lines with high efficiency, its applicability to high-throughput screens, and the ability to deliver DNA of all sizes, as well as RNA and proteins. In addition, this method can be applied to both stable and transient expression, and unlike other chemical transfection methods, it can be used for in vivo transfer of DNA and RNA to animals and humans.

Moreover, many cell lines normally resistant to transfection by other methods can be transfected successfully with cationic lipid reagents.

The main drawback of cationic lipid-mediated transfection is the dependence of transfection efficiency on the cell type and culture conditions, requiring the optimization of transfection conditions for each cell type and transfection reagent.

The first step for successful transfections is to choose the best transfection reagent for your application. Further optimization may be necessary. The table below will help you address some of these important factors so that you can easily achieve superior transfection results.

Thermo Fisher Scientific offers a wide selection of cationic lipid-mediated transfection reagents for efficiently introducing DNA, RNA, siRNA, or oligonucleotides into a broad range of cell types, including the Lipofectamine 3000 reagent.

Importantly, when selecting a transfection reagent, consider the payload you wish to deliver and the type of cells you want to transfect, because the choice of the transfection reagent strongly influences transfection results.

For more information on selecting the appropriate transfection reagent for your application, explore our transfection reagent selection guide.

Visit Transfection Basics to learn more about performing transfection in your lab.