用于体内 mRNA 递送和碱基编辑的功能化脂质样纳米颗粒。
Functionalized lipid-like nanoparticles for in vivo mRNA delivery and base editing.
机构信息
Division of Pharmaceutics and Pharmacology, College of Pharmacy, The Ohio State University, Columbus, OH 43210, USA.
State Key Laboratory of Fine Chemicals, Dalian University of Technology, Dalian 116024, China.
出版信息
Sci Adv. 2020 Aug 21;6(34). doi: 10.1126/sciadv.abc2315. Print 2020 Aug.
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.
信使 RNA(mRNA)疗法已被探索用于治疗各种遗传疾病。脂质衍生的纳米材料是目前最有前途的生物材料之一,可以有效介导 mRNA 的递送。然而,这种基于纳米材料的 mRNA 递送的效率和安全性仍然是临床应用的一个挑战。在这里,我们构建了一系列类脂纳米材料(LLN),命名为功能化 TT 衍生物(FTT),用于体内基于 mRNA 的治疗应用。在对材料进行筛选后,我们确定 FTT5 是一种有效的长 mRNA 递药材料,例如人凝血因子 VIII(hFVIII)mRNA(4.5 kb),可在血友病 A 小鼠中表达 hFVIII 蛋白。此外,FTT5 LLN 以低剂量的碱基编辑器 mRNA(5.5 kb)和单指导 RNA 在体内对 PCSK9 进行了高比例的碱基编辑。因此,FTT 纳米材料值得进一步开发用于基于 mRNA 的治疗。
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