Functionalized lipid-like nanoparticles for in vivo mRNA delivery and base editing

Xinfu Zhang; Weiyu Zhao; Giang N. Nguyen; Chengxiang Zhang; Chunxi Zeng; Jinyue Yan; Shi Du; Xucheng Hou; Wenqing Li; Justin Jiang; Binbin Deng; David W. McComb; Robert Dorkin; Aalok Shah; Luis Barrera; Francine M. Gregoire; Manmohan Singh; Delai Chen; Denise E. Sabatino; Yizhou Dong

doi:10.1126/sciadv.abc2315

Functionalized lipid-like nanoparticles for in vivo mRNA delivery and base editing

Xinfu Zhang(Dalian University of Technology), Weiyu Zhao(The Ohio State University), Giang N. Nguyen(Children's Hospital of Philadelphia), Chengxiang Zhang(The Ohio State University), Chunxi Zeng(The Ohio State University), Jinyue Yan(The Ohio State University), Shi Du(The Ohio State University), Xucheng Hou(The Ohio State University), Wenqing Li(The Ohio State University), Justin Jiang(The Ohio State University), Binbin Deng(The Ohio State University), David W. McComb(The Ohio State University), Robert Dorkin(Beam Therapeutics (United States)), Aalok Shah(Beam Therapeutics (United States)), Luis Barrera(Beam Therapeutics (United States)), Francine M. Gregoire(Beam Therapeutics (United States)), Manmohan Singh(Beam Therapeutics (United States)), Delai Chen(Beam Therapeutics (United States)), Denise E. Sabatino(Children's Hospital of Philadelphia), Yizhou Dong(Lung Institute)

Science Advances

August 21, 2020

10.1126/sciadv.abc2315

Cited by 176Open Access

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Abstract

Messenger RNA (mRNA) therapeutics have been explored to treat various genetic disorders. Lipid-derived nanomaterials are currently one of the most promising biomaterials that mediate effective mRNA delivery. However, efficiency and safety of this nanomaterial-based mRNA delivery remains a challenge for clinical applications. Here, we constructed a series of lipid-like nanomaterials (LLNs), named functionalized TT derivatives (FTT), for mRNA-based therapeutic applications in vivo. After screenings on the materials, we identified FTT5 as a lead material for efficient delivery of long mRNAs, such as human factor VIII (hFVIII) mRNA (~4.5 kb) for expression of hFVIII protein in hemophilia A mice. Moreover, FTT5 LLNs demonstrated high percentage of base editing on PCSK9 in vivo at a low dose of base editor mRNA (~5.5 kb) and single guide RNA. Consequently, FTT nanomaterials merit further development for mRNA-based therapy.

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