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Dendrimer-Coated Gold Nanoparticles for Efficient Folate-Targeted mRNA Delivery In Vitro

Londiwe Simphiwe Mbatha, Fiona Maiyo, Aliscia Daniels, Moganavelli Singh

2021Pharmaceutics69 citationsDOIOpen Access PDF

Abstract

Messenger RNA (mRNA) is not an attractive candidate for gene therapy due to its instability and has therefore received little attention. Recent studies show the advantage of mRNA over DNA, especially in cancer immunotherapy and vaccine development. This study aimed to formulate folic-acid-(FA)-modified, poly-amidoamine-generation-5 (PAMAM G5D)-grafted gold nanoparticles (AuNPs) and to evaluate their cytotoxicity and transgene expression using the luciferase reporter gene (FLuc-mRNA) in vitro. Nanocomplexes were spherical and of favorable size. Nanocomplexes at optimum nanoparticle:mRNA (w/w) binding ratios showed good protection of the bound mRNA against nucleases and were well tolerated in all cell lines. Transgene expression was significantly (p < 0.0001) higher with FA-targeted, dendrimer-grafted AuNPs (Au:G5D:FA) in FA receptors overexpressing MCF-7 and KB cells compared to the G5D and G5D:FA NPs, decreasing significantly (p < 0.01) in the presence of excess competing FA ligand, which confirmed nanocomplex uptake via receptor mediation. Overall, transgene expression of the Au:G5D and Au:G5D:FA nanocomplexes exceeded that of G5D and G5D:FA nanocomplexes, indicating the pivotal role played by the inclusion of the AuNP delivery system. The favorable properties imparted by the AuNPs potentiated an increased level of luciferase gene expression.

Topics & Concepts

Folate receptorMessenger RNAMolecular biologyGene deliveryIn vitroChemistryDendrimerLuciferaseCytotoxicityColloidal goldTransgeneReceptorGene expressionGenetic enhancementIn vivoTransfectionCancer cellNanoparticleGeneBiologyBiochemistryCancerNanotechnologyMaterials scienceGeneticsBiotechnologyRNA Interference and Gene DeliveryAdvanced biosensing and bioanalysis techniquesVirus-based gene therapy research
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