Microarray analysis of the toxicogenomics and the genotoxic potential of a cationic lipid-based gene delivery nanosystem in human alveolar epithelial A549 cells

Viral and nonviral vectors have been widely used in gene therapy as delivery reagents for nucleic acids. Toxicity with viral vectors has increasingly led to the search for suitable nonviral vectors, such as cationic lipids/polymers, as potentially safer alternatives. However, little is known about the genomic toxicity of these delivery systems in target cells/tissues. In the current investigation, we report on the toxicogenomics and genotoxicity of cationic lipid Oligofectamine (OF) nanosystems in human alveolar epithelial A549 cells. To investigate the nature and the ontology of the gene expression changes in A549 cells upon treatment with OF nanoliposomes, microarray gene expression profiling methodology was utilized. For microarray analysis, cyanine (Cy3/Cy5)-labeled cDNA samples from treated and untreated cells were hybridized on target arrays housing 200 genes. Both OF and OF-DNA lipoplex induced significant gene expression changes belonging to the different genomic ontologies such as cell defense and apoptosis pathways. Flow cytometry analyses revealed induction of apoptosis in A549 cells treated with these nanosystems that is likely due to interactions and/or deterioration of the cell membranes. However, no DNA damage was detected by the Comet assay. These data suggest that cationic nanoliposomes in the absence of direct DNA damage elicit multiple gene expression changes in A549 cells that may compromise the main goals of gene medicine where only therapy-defined gene changes are required.