Department of Biomedical Molecular Biology, Ghent University, 9052, Ghent, Belgium.
School of Pharmacy, Queen's University Belfast, BT7 1NN, Belfast, Northern Ireland.
Adv Healthc Mater. 2017 Jul;6(13). doi: 10.1002/adhm.201601412. Epub 2017 Apr 24.
To date, the mRNA delivery field has been heavily dominated by lipid-based systems. Reports on the use of nonlipid carriers for mRNA delivery in contrast are rare in the context of mRNA vaccination. This paper describes the potential of a cell-penetrating peptide containing the amphipathic RALA motif to deliver antigen-encoding mRNA to the immune system. RALA condenses mRNA into nanocomplexes that display acidic pH-dependent membrane disruptive properties. RALA mRNA nanocomplexes enable mRNA escape from endosomes and thereby allow expression of mRNA inside the dendritic cell cytosol. Strikingly, RALA mRNA nanocomplexes containing pseudouridine and 5-methylcytidine modified mRNA elicit potent cytolytic T cell responses against the antigenic mRNA cargo and show superior efficacy in doing so when compared to RALA mRNA nanocomplexes containing unmodified mRNA. RALA's unique sequence and structural organization are vital to act as mRNA vaccine vehicle, as arginine-rich peptide variants that lack the RALA motif show reduced mRNA complexation, impaired cellular uptake and lose the ability to transfect dendritic cells in vitro and to evoke T cell immunity in vivo.
迄今为止,mRNA 递送领域主要由基于脂质的系统主导。相比之下,在 mRNA 疫苗接种方面,关于使用非脂质载体递 mRNA 的报道很少。本文描述了一种含有两亲性 RALA 基序的细胞穿透肽将编码抗原的 mRNA 递送到免疫系统的潜力。RALA 将 mRNA 浓缩成纳米复合物,这些复合物显示出酸性 pH 依赖性的膜破坏特性。RALA mRNA 纳米复合物能够使 mRNA 从内涵体中逃逸,从而允许 mRNA 在树突状细胞质内表达。引人注目的是,含有假尿嘧啶和 5-甲基胞嘧啶修饰的 mRNA 的 RALA mRNA 纳米复合物可引发针对抗原性 mRNA carg 的细胞毒性 T 细胞反应,并在与含有未修饰 mRNA 的 RALA mRNA 纳米复合物相比时显示出优越的功效。RALA 独特的序列和结构组织对于作为 mRNA 疫苗载体至关重要,因为缺乏 RALA 基序的富含精氨酸的肽变体显示出 mRNA 复合物形成减少、细胞摄取受损,并丧失在体外转染树突状细胞和在体内引发 T 细胞免疫的能力。
