Improving transient transfection efficiency in a differentiated, polar epithelial cell layer

Abstract

Polar, differentiated epithelial cell culture models (especially at confluence) are difficult to transfect compared with the higher transfection efficiencies that one obtains with relatively less differentiated, nonpolar cell culture models. Here, we sought to develop a strategy to enhance the efficiency of transfecting polar, differentiated epithelial cells. We found that chemically abrading the differentiated CACO-2 human intestinal epithelial cell layer by a trypsin and EDTA pretreatment (before the use of detergent-like transfection reagents) dramatically improved transfection efficiency in this polar, differentiated model. Although this treatment did improve the transfection efficiency, it also induced leakiness in the epithelial barrier by both opening tight junctional complexes and by creating holes in the cell layer because of low-level cell death and detachment. Thus, this approach to enhance the transfection efficiency of polar, differentiated cells will be useful for assessment of the effect of the transfected/expressed protein on (re)formation of an epithelial barrier rather than on a functional barrier itself.