Bhavani Kedika scite author profile

The molecular structure of the cationic lipids greatly influences their transfection efficiency. High transfection efficiencies of tocopherol-based simple monocationic transfection lipids with hydroxylethyl headgroups were recently reported by us (Kedika, B., et al. J. Med. Chem.2011, 54 (2), 548-561). Toward enhancing the transfection efficiency of tocopherol-based lipids, we have synthesized two tocopherol-based dicationic lipids (1 and 2) using simple cystine in the headgroup region. The efficiency of tocopherol-based lipids (1 and 2) were compared with nontocopherol-based lipids (3 and 4) with cystine in the headgroup region. We report also a comprehensive structure-activity relationship study that identified tocopherol-based gemini cationic lipid 1 is a better transfecting agent than its monomeric lipid counterpart 2 and two other nontocopherol-based gemini cationic lipids (3 and 4). The transfection efficiency of lipid 1 was also greater than that of commercial formulation in HepG2 cell lines. A major characteristic feature of this investigation is that serum does not inhibit the transfection activity of tocopherol-based lipids (1 and 2) in general and in particular lipid 1 which is found to be highly serum-compatible even at higher concentrations of serum when compared to its monomeric counterpart lipid 2 and the other two control lipid analogues 3 and 4.

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Design, Synthesis, and inVitro Transfection Biology of Novel Tocopherol Based Monocationic Lipids: A Structure−Activity Investigation

Kedika

Patri

2010

J. Med. Chem.

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Herein, we report on the design, synthesis, and in vitro gene delivery efficacies of five novel tocopherol based cationic lipids (1-5) in transfecting CHO, B16F10, A-549, and HepG2 cells. The in vitro gene transfer efficiencies of lipids (1-5) were evaluated by both β-galactosidase reporter gene expression and inverted fluorescent microscopic experiments. The results of the present structure-activity investigation convincingly demonstrate that the tocopherol based lipid with three hydroxyl groups in its headgroup region showed 4-fold better transfection efficiency than the commercial formulation. The results also demonstrate that these tocopherol based lipids may be targeted to liver. Transfection efficiency of all the relevant lipids was maintained even when the serum was present during the transfection conditions. The results indicated that the designed systems are quite capable of transferring the DNA into all four types of cells studied with low or no toxicity.

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Influence of Minor Backbone Structural Variations in Modulating the in Vitro Gene Transfer Efficacies of α-Tocopherol Based Cationic Transfection Lipids

Kedika

Patri

2011

Bioconjugate Chem.

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Toward probing the influence of backbone structural variation in cationic lipid mediated gene delivery of α-tocopherol based lipids, two novel α-tocopherol based lipids 1 and 2 have been designed and synthesized. The only structural difference between the cationic amphiphiles 1 and 2 is the backbone structure, where lipid 1 has a non-glycerol backbone and lipid 2 has a glycerol backbone. The lipids 1 and 2 showed contrasting transfection efficiencies: lipid 1 showed high gene transfer efficacy in multiple cultured animals cell lines, whereas lipid 2 is transfection incompetent. In summary, the present findings demonstrate that in the case of α-tocopherol based lipids even minor structural variations like backbone can profoundly influence size, DNA binding characteristics, cellular uptake, and consequently gene delivery efficacies.

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Benzothiazole head group based cationic lipids: Synthesis and application for gene delivery

Kedika

Patri

2014

European Journal of Medicinal Chemistry

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Synthesis of 5-{[(1-Aryl-1H-1,2,3-triazol-4-yl)methyl]sulfanyl}-1-phenyl-1H-tetrazoles

et al. 2020

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Bhavani Kedika

Synthesis and Gene Transfer Activities of Novel Serum Compatible Reducible Tocopherol-Based Cationic Lipids

Design, Synthesis, and inVitro Transfection Biology of Novel Tocopherol Based Monocationic Lipids: A Structure−Activity Investigation

Influence of Minor Backbone Structural Variations in Modulating the in Vitro Gene Transfer Efficacies of α-Tocopherol Based Cationic Transfection Lipids

Benzothiazole head group based cationic lipids: Synthesis and application for gene delivery

Synthesis of 5-{[(1-Aryl-1H-1,2,3-triazol-4-yl)methyl]sulfanyl}-1-phenyl-1H-tetrazoles

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