Formulations which increase the size of lipoplexes prevent serum-associated inhibition of transfection.

BACKGROUND: Cationic lipids are the most widely used nonviral vectors for gene delivery. Upon complexation to DNA, they offer a nonimmunogenic alternative to viral gene transfer. Unfortunately, their in vivo application has been limited due to a serum-associated inhibition of transfection. As a result, significant research effort has focused on overcoming this deleterious effect of serum. METHODS: To better understand this phenomenon, we investigated the influence of lipoplex colloidal stability on gene transfection in the presence of serum. In addition, conditions of the reaction medium were modulated and their effects on collidal stability and subsequent in vitro transfection efficiency were studied. RESULTS: The colloidal stability of the cationic lipid-DNA complexes, which depended on the charge ratio, determined the efficiency of in vitro transfection in the presence of serum. In particular, large-sized, colloidally unstable complexes of over 700 nm mean diameter induced efficient transfection in the presence or absence of serum. Conversely, colloidally stable complexes of less than 250 nm in size resulted in efficient transfection only in the absence of serum. Furthermore, for the same charge ratio, both colloidally stable and unstable lipoplexes could be obtained depending on the degree to which various solution parameters (NaCl concentration, cationic lipid acyl chain length, pH and DNA concentration) were altered. In each case, only those complexes lacking colloidal stability resulted in high levels of in vitro transfection in the presence of serum. This phenomenon was shown to be independent of both the percent DNA internalized and of the lamellar organization of the cationic lipid/DNA lipoplexes. CONCLUSIONS: Through the modulation of various mixture conditions, large-sized lipoplexes can be formed which are resistant to the transfection-inhibiting effect of serum.

Duke Scholars

Author Joseph W Turek Surgery, Cardiovascular and Thoracic Surgery