AI Article Synopsis
- - A series of multifunctional peptides were created to improve gene delivery by combining elements like cationic antimicrobial peptides, cell-penetrating peptides, and hydrophobic components for better DNA interaction and cellular uptake.
- - The peptide design included TAT and AMP segments to help the genes enter cells and escape endosomes, while specific structural properties enhanced their effectiveness in binding DNA and maintaining stability in biological conditions.
- - Experimental results showed these peptides effectively delivered a plasmid into cells with high efficiency and low toxicity, making them promising non-viral gene vectors compared to traditional methods like Lipofectamine 2000.
Article Abstract
To overcome barriers associated with gene delivery, a series of peptides consisting of multifunctional fragments, including a cationic amphiphilic α-helical antimicrobial peptide (AMP), a cell penetrating peptide (CPP), TAT, a stearyl moiety, and cysteine residues, were designed and synthesized for evaluation as non-viral gene vectors. TAT and AMP segments were utilized to mediate cellular uptake and endosomal escape, respectively. Stearyl moieties provide an intramolecular hydrophobic environment to promote AMPs to form an α-helical conformation in PBS, and this is beneficial for DNA binding, cellular uptake, and endosomal escape. The α-helical content of the peptides, as well as the particle size, zeta potential, and morphology of the peptide/DNA complexes, was characterized. Fluorescence activated cell sorting (FACS) and confocal microscopy data showed that the peptides were able to efficiently translocate a pGL3 control plasmid across the plasma membrane via endocytosis, and then they successfully evaded endosomal entrapment and possible metabolic degradation. Moreover, one of the peptide vectors exhibited a high transfection efficiency similar to that of Lipofectamine 2000, concomitant with lower cytotoxicity. Overall, a combination of the four functional segments tested was used to generate a non-viral gene vector that synergistically promoted cellular uptake, endosomal escape, and gene expression.
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| http://dx.doi.org/10.1039/c4tb01353k | DOI Listing |
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