Cationic lipids for gene delivery: many players, one goal

•Progress in the rational design of cationic lipids.•Outlook on the influence of cationic lipid domains on nucleic acids complexation and delivery.•Outlook on the influence of cationic lipid composition on its ultimate geometry and supramolecular structures of lipoplexes. Lipid-based carriers repres...

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Bibliographic Details
Published in:Chemistry and physics of lipids 2021-03, Vol.235, p.105032-105032, Article 105032
Main Authors: Ponti, Federica, Campolungo, Matilde, Melchiori, Clara, Bono, Nina, Candiani, Gabriele
Format: Article
Language:English
Subjects:
Cationic lipids
Complexation
Lipoplexes
Non-viral gene delivery
Structure-activity relationship
Transfection
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Summary:•Progress in the rational design of cationic lipids.•Outlook on the influence of cationic lipid domains on nucleic acids complexation and delivery.•Outlook on the influence of cationic lipid composition on its ultimate geometry and supramolecular structures of lipoplexes. Lipid-based carriers represent the most widely used alternative to viral vectors for gene expression and gene silencing purposes. This class of non-viral vectors is particularly attractive for their ease of synthesis and chemical modifications to endow them with desirable properties. Despite combinatorial approaches have led to the generation of a large number of cationic lipids displaying different supramolecular structures and improved behavior, additional effort is needed towards the development of more and more effective cationic lipids for transfection purposes. With this review, we seek to highlight the great progress made in the design of each and every constituent domain of cationic lipids, that is, the chemical structure of the headgroup, linker and hydrophobic moieties, and on the specific effect on the assembly with nucleic acids. Since the complexity of such systems is known to affect their performances, the role of formulation, stability and phase behavior on the transfection efficiency of such assemblies will be thoroughly discussed. Our objective is to provide a conceptual framework for the development of ever more performing lipid gene delivery vectors.
ISSN:0009-3084
1873-2941
DOI:10.1016/j.chemphyslip.2020.105032