Nucleic acid carrier composed of a branched fatty acid lysine conjugate-Interaction studies with blood components.

For the development of gene therapeutics for systemic administration several hurdles have to be overcome. In this article we screen the branched fatty acid lysine conjugate T14diLys, a newly designed cationic lipid for lipofection, regarding this problem. The structure and particle size of lipoplexes, prepared with lipid formulations which are based on these lipid as nucleic acid complexing agent, are investigated in absence and presence of serum. Nuclease digestion assays were performed to evaluate the protective characteristics of the lipid formulation for the complexed nucleic acid. Furthermore, the lipid formulation is investigated regarding the interaction with different serum proteins to get first insights into the protein corona formation. Another focus is set on the hemocompatibility using in vitro assays for hemolysis and complement activation and the irritation test at the chorion allantois membrane of the chicken embryo as in vivo model. Finally, preliminary transfection efficiency studies with cell culture models for cells which are assessable via systemic administration are performed to evaluate possibilities for future therapeutic applications of the new lipid formulations. Summarizing, T14diLys with the co-lipid DOPE can be used to prepare a lipoplex formulation which can be applied systemically and can be used to develop gene therapeutics for targeting endothelial cells, macrophages, or leucocytes.