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All‐In‐One Dendrimer‐Based Lipid Nanoparticles Enable Precise HDR‐Mediated Gene Editing In Vivo

Lukas Farbiak, Qiang Cheng, Tuo Wei, Ester Álvarez‐Benedicto, Lindsay T. Johnson, Sang M. Lee, Daniel J. Siegwart

2021Advanced Materials96 citationsDOIOpen Access PDF

Abstract

Clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated (Cas) protein gene editing is poised to transform the treatment of genetic diseases. However, limited progress has been made toward precise editing of DNA via homology-directed repair (HDR) that requires careful orchestration of complex steps. Herein, dendrimer-based lipid nanoparticles (dLNPs) are engineered to co-encapsulate and deliver multiple components for in vivo HDR correction. BFP/GFP switchable HEK293 cells with a single Y66H amino acid mutation are employed to assess HDR-mediated gene editing following simultaneous, one-pot delivery of Cas9 mRNA, single-guide RNA, and donor DNA. Molar ratios of individual LNP components and weight ratios of the three nucleic acids are systematically optimized to increase HDR efficiency. Using flow cytometry, fluorescence imaging, and DNA sequencing to quantify editing, optimized 4A3-SC8 dLNPs edit >91% of all cells with 56% HDR efficiency in vitro and >20% HDR efficiency in xenograft tumors in vivo. Due to the all-in-one simplicity and high efficacy, the developed dLNPs offer a promising route toward the gene correction of disease-causing mutations.

Topics & Concepts

Genome editingIn vivoComputational biologyDNACRISPRCas9Gene deliveryHomology directed repairNucleic acidMaterials scienceGeneBiologyGenetic enhancementBiochemistryGeneticsDNA repairDNA mismatch repairCRISPR and Genetic EngineeringRNA Interference and Gene DeliveryVirus-based gene therapy research
All‐In‐One Dendrimer‐Based Lipid Nanoparticles Enable Precise HDR‐Mediated Gene Editing In Vivo | Litcius