Incorporation of Reversibly Cross-Linked Polyplexes into LPDII Vectors for Gene Delivery

LPDII vectors are synthetic vehicles for gene delivery composed of polycation-condensed DNA complexed with anionic liposomes. In this study, we evaluated the stability and transfection properties of polyethylenimine (PEI, 25 kDa)/DNA polyplexes before and after covalent cross-linking with dithiobis(succinimidylpropionate) (DSP) or dimethyl·3,3‘-dithiobispropionimidate·2HCl (DTBP), either alone or as a component of LPDII vectors. We found that cross-linking PEI/DNA polyplexes at molar ratios ≥10:1 (DSP or DTBP:PEI) stabilized these complexes against polyanion disruption, and that this effect was reversible by reduction with 20 mM dithioerythritol (DTE). Transfection studies with polyplexes cross-linked at molar ratios of 10:1−100:1 in KB cells, a folate receptor-positive oral carcinoma cell line, showed decreasing luciferase gene expression with increasing cross-linking ratio. Subsequently, polyplexes, cross-linked with DSP at a molar ratio of 10:1, were combined with anionic liposomes composed of diolein/cholesteryl hemisuccinate (CHEMS) (6:4 mol/mol), diolein/CHEMS/poly(ethylene glycol)-distearoylphosphatidylethanolamine (PEG-DSPE) (6:4:0.05 mol/mol), or diolein/CHEMS/folate-PEG-cholesterol (folate-PEG-Chol) (6:4:0.05 mol/mol) for LPDII formation. Transfection studies in KB cells showed that LPDII vectors containing cross-linked polyplexes mediated ∼2−15-fold lower gene expression than LPDII prepared with un-cross-linked polyplexes, depending on the lipid:DNA ratio. Inclusion of PEG-DSPE at 0.5 mol % appeared to further decrease transfection levels ∼2−5-fold. Compared with LPDII formulated with PEG-DSPE, LPDII incorporating 0.5 mol % folate-PEG-Chol exibited higher luciferase activities at all lipid:DNA ratios tested, achieving an ∼10-fold increase at a lipid:DNA ratio of 5. Compared with cross-linked LPDII vectors without PEG-DSPE, inclusion of folate-PEG-Chol increased luciferase acitivities 3−4-fold between lipid:DNA ratios of 1 and 5. Interestingly, inclusion of 1 mM free folate in the growth media during transfection increased transfection activity ∼3−4-fold for cross-linked LPDII vectors and LPDII containing folate-PEG-Chol, but had no effect on the transfection activity of LPDII formulated with PEG-DSPE. However, in the presence of 5 mM free folate, the luciferase activity mediated by LPDII vectors containing folate-PEG-Chol was reduced ∼6-fold. Transmission electron micrographs were also obtained to provide evidence of LPDII complex formation. Res