Efficient Transfection of <em>In vitro</em> Transcribed mRNA in Cultured Cells Using Peptide-Poloxamine Nanoparticles

转染 信使核糖核酸 体外 分子生物学 生物 基因传递 细胞培养 基因 生物化学 遗传学
作者
Qin Xiao,Yuheng Liu,Dandan Zhang,Chao Li,Qihua Yang,Dongshui Lu,Wei Zhang,Joseph Rosenecker,Quanming Zou,Yan Li,Shan Guan
出处
期刊:Journal of Visualized Experiments [MyJOVE]
卷期号: (186)
标识
DOI:10.3791/64288
摘要

In vitro transcribed messenger RNA (mRNA) vaccines have displayed enormous potential in fighting against the coronavirus disease 2019 (COVID-19) pandemic. Efficient and safe delivery systems must be included in the mRNA vaccines due to the fragile properties of mRNA. A self-assembled peptide-poloxamine nanoparticle (PP-sNp) gene delivery system is specifically designed for the pulmonary delivery of nucleic acids and displays promising capabilities in mediating successful mRNA transfection. Here, an improved method for preparing PP-sNp is described to elaborate on how the PP-sNp encapsulates Metridia luciferase (MetLuc) mRNA and successfully transfects cultured cells. MetLuc-mRNA is obtained by an in vitro transcription process from a linear DNA template. A PP-sNp is produced by mixing synthetic peptide/poloxamine with mRNA solution using a microfluidic mixer, allowing for the self-assembly of PP-sNp. The charge of PP-sNp is subsequently evaluated by measuring the zeta potential. Meanwhile, the polydispersity and hydrodynamic size of PP-sNp nanoparticles are measured using dynamic light scattering. The mRNA/PP-sNp nanoparticles are transfected into cultured cells, and supernatants from the cell culture are assayed for luciferase activity. The representative results demonstrate their capacity for in vitro transfection. This protocol may shed light on developing next-generation mRNA vaccine delivery systems.

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