AI Article Synopsis
- Small interfering RNA (siRNA) delivery via synthetic transfection agents reduces the risk of gene mutations compared to viral vectors, but effective synthetic alternatives are still needed.
- Researchers developed a library of lipid-like molecules (lipidoids) that successfully enabled nonviral siRNA delivery and gene knockdown in mammalian cells.
- The top five lipidoids outperformed commercial transfection agents in efficiency and were further tested in zebrafish embryos, showcasing their potential for safe nucleic acid delivery in live organisms.
Article Abstract
Transcriptional inhibition by small interfering RNA (siRNA) delivery using synthetic transfection agents eliminates the subsequent risk of introducing mutations in relevant genes, as opposed to viral vectors. However, synthetic vectors with comparable transfection efficiency to that of viral vectors are yet to be developed. Hence, synthesizing new transfection vehicles with low toxicity is important. In this study, a library of lipid-like molecules (lipidoids) was synthesized by thiolactone chemistry. This library facilitated nonviral delivery of siRNA to mammalian cells, inducing sequence-specific knockdown of a target gene. The liposomal nanoparticles complexed with anti-green fluorescent protein (GFP) siRNA were successfully screened for transfection efficiency using a HeLa-GFP cell line. The five best-performing lipidoids identified in the screening were found to exhibit superior GFP-knockdown efficiency compared with commercially available transfection reagents. The efficiency of siRNA delivery by one of these lipidoids with minimal toxicity was further successfully evaluated using Kdrl:EGFP zebrafish embryos as a model system. Our study would be important as a facile synthetic route of efficient nonviral nucleic acid delivery to live cells and organisms.
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| http://dx.doi.org/10.1021/acs.bioconjchem.0c00013 | DOI Listing |
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