Optimization of a lipid nanoparticle-based protocol for RNA transfection into primary mononuclear phagocytes.
Yu ZhangLouis-Charles BélandSabrina RousselNicolas BertrandSébastien S HébertLuc VallièresPublished in: Journal of leukocyte biology (2024)
The effective delivery of synthetic RNA into mononuclear phagocytes is a prerequisite for experimental research and therapeutic development. However, traditional methods are highly ineffective and toxic for these cells. Here, we aimed to optimize a transfection protocol for primary bone marrow-derived phagocytes, specifically dendritic cells and macrophages, using lipid nanoparticles generated by microfluidics. Our results show that a lipid mixture similar to that used in Moderna's COVID-19 mRNA vaccine outperforms the others tested. Improved mRNA transfection can be achieved by replacing uridine with methylpseudouridine but not methoxyuridine, which interferes with transfection. The addition of diphenyleneiodonium or apocynin can enhance transfection in a cell type-dependent manner without adverse effects, while apolipoprotein E provides no added value. These optimized transfection conditions can also be used for microRNA agonists and antagonists. In sum, this study offers a straightforward, highly efficient, reproducible, and non-toxic protocol to deliver RNA into different primary mononuclear phagocytes in culture.