- Serum Compatible Spermine-Based Cationic Lipids with Nonidentical Hydrocarbon Tails Mediate High Transfection Efficiency
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Cationic lipids are widely used as nonviral synthetic vectors for gene delivery as a safer alternative to viral vectors. In this work, a library of L-shaped spermine-based cationic lipids with identical and nonidentical hydrophobic chains having variable carbon lengths (from C10 to C18) was designed and synthesized. These lipids were characterized and the structure-activity relationships of these compounds were determined for DNA binding and transfection ability when formulated as cationic liposomes. The liposomes were then used successfully for the transfection of HEK293T, HeLa, PC3, H460, HepG2, SH-SY5Y and Calu’3 cell lines. The transfection efficiency of lipids with nonidentical hydrocarbon chains was greater than the identical analogue. These reagents exhibited superior efficiency to the commercial reagent, Lipofectamine3000, under both serum-free and 10–40 % serum conditions in HEK293T, HeLa and H460 cell lines. The lipids were not toxic to the tested cell line. The results suggest that L-shaped spermine-based cationic lipids with nonidentical hydrocarbon tails could serve as efficient and safe nonviral vector gene carriers in further in vivo studies.
- Thongbamrer, Chopaka,Roobsoong, Wanlapa,Sattabongkot, Jetsumon,Opanasopit, Praneet,Yingyongnarongkul, Boon-ek
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- Scaling the effect of hydrophobic chain length on gene transfer properties of di-alkyl, di-hydroxy ethylammonium chloride based cationic amphiphiles
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The success of gene therapy critically depends on the availability of efficient transfection vectors. Cationic lipids are the most widely studied non-viral vectors. The molecular architecture of the cationic lipid determines its transfection efficiency. Variations in alkyl chain lengths of lipids influence self-assembly and liposomal fusion with the cell membrane. These factors determine the transfection ability of the lipid. Thus, to probe the effect of asymmetry in hydrophobic chains on transfection efficiency, we designed and synthesized a series of cationic lipids by systematically varying one of the two alkyl chains linked to the quaternary nitrogen centre from C18 to C10 and keeping the other alkyl C18 chain constant (Lip1818-Lip1810). Transfection studies in multiple cultured mammalian cells (CHO, B16F10 and HeLa) revealed that the lipids with C18:C14 and C18:C12 alkyl chains (Lip1814 & Lip1812) showed 20-30% higher transfection efficacies than their counterparts at 2:1 and 4:1 lipid to pDNA charge ratios. Cryo-transmission electron images showed unilamellar vesicle structures for the liposomes of lipids. Mechanistic studies involving Small Angle X-ray Scattering (SAXS) revealed that asymmetry in the hydrophobic region has a significant impact on liposomal fusion with the plasma membrane model. Collectively, these findings demonstrate that chain length asymmetry in the hydrophobic region of cationic lipids has an important role in their liposome-DNA interactions at optimal 2:1 and 4:1 lipid to pDNA charge ratios, which in turn modulates their gene transfer properties.
- Hiwale, Ankita A.,Voshavar, Chandrashekhar,Dharmalingam, Priya,Dhayani, Ashish,Mukthavaram, Rajesh,Nadella, Rasajna,Sunnapu, Omprakash,Gandhi, Sivaraman,Naidu,Chaudhuri, Arabinda,Marepally, Srujan,Vemula, Praveen Kumar
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p. 25398 - 25405
(2017/07/10)
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