Abstract
To study the effect of increasing the chain length over C-18 and varying the oxidation level in synthesized N (4),N (9)-diacyl spermines on DNA and siRNA formulation, and then to compare their transfection efficiency in cell lines
The five novel very long chain N (4),N (9)-diacyl polyamines: N (4),N (9)-[diarachidoyl, diarachidonoyl, dieicosenoyl, dierucoyl and dinervonoyl]-1,12-diamino-4,9-diazadodecane were synthesized. The abilities of these novel compounds to condense DNA and to form nanoparticles were studied using ethidium bromide fluorescence quenching and nanoparticle characterization techniques. Transfection efficiency was studied in FEK4 primary skin cells and in an immortalized cancer cell line (HtTA), and compared with the non-liposomal transfection formulation Lipogen, N (4),N (9)-dioleoyl-1,12-diamino-4,9-diazadodecane. Also, the abilities of these compounds to condense siRNA and to form nanoparticles were studied using a RiboGreen intercalation assay and their abilities to deliver siRNA into cells were studied in FEK4 and HtTA cells using fluorescein-labelled Label ITA (R) RNAi Delivery Control, a sequenced 21-mer from Mirus.
We show efficient pEGFP and siRNA formulation and delivery to primary skin and cancer cell lines.
Adding two C20 or C22 chains, both mono-cis-unsaturated, N (4),N (9)-dieicosenoyl spermine and N (4),N (9)-dierucoyl spermine, gave efficient siRNA delivery vectors, even in the presence of serum, comparable to TransIT-TKO and with excellent cell viability.