Innovation Center of NanoMedicine (iCONM), Kanagawa Institute of Industrial Promotion, 3-25-14 Tonomachi, Kawasaki-ku, Kawasaki, 210-0821, Japan.
Medical Chemistry, Graduate School of Medical Science, Kyoto Prefectural University of Medicine, 1-5 Shimogamohangi-cho, Sakyo-ku, Kyoto, 606-0823, Japan.
Macromol Rapid Commun. 2022 Jun;43(12):e2100754. doi: 10.1002/marc.202100754. Epub 2022 Mar 18.
For efficient delivery of messenger (m)RNA, delivery carriers need two major functions: protecting mRNA from nucleases and translocating mRNA from endolysosomes to the cytoplasm. Herein, these two complementary functionalities are integrated into a single polyplex by fine-tuning the catiomer chemical structure and incorporating the endosomal escape modality. The effect of the methylene spacer length on the catiomer side chain is evaluated by comparing poly(l-lysine) (PLL) with a tetramethylene spacer and poly(L-ornithine) (PLO) with a trimethylene spacer. Noteworthily, the nuclease stability of the mRNA/catiomer polyplexes is largely affected by the difference in one methylene group, with PLO/mRNA polyplex showing enhanced stability compared to PLL/mRNA polyplex. To introduce the endosomal escape function, the PLO/mRNA polyplex is wrapped with a charge-conversion polymer (CCP), which is negatively charged at extracellular pH but turns positive at endosomal acidic pH to disrupt the endosomal membrane. Compared to the parent PLO/mRNA polyplex, CCP facilitated the endosomal escape of the polyplex in cultured cells to improve the protein expression efficiency from mRNA by approximately 80-fold. Collectively, this system synergizes the protective effect of PLO against nucleases and the endosomal escape capability of CCP in mRNA delivery.
为了高效递送信使(m)RNA,递药载体需要两大功能:保护 mRNA 免受核酸酶的降解和将 mRNA 从内涵体转运到细胞质。在此,通过精细调控离子型聚合物的化学结构并整合内涵体逃逸模式,将这两种互补的功能整合到单一的聚合物中。通过比较具有四亚甲基间隔臂的聚(L-赖氨酸)(PLL)和具有三亚甲基间隔臂的聚(L-鸟氨酸)(PLO),评估亚甲基间隔长度对离子型聚合物侧链的影响。值得注意的是,mRNA/离子型聚合物聚合物复合物的核酸酶稳定性在很大程度上受到一个亚甲基差异的影响,与 PLL/mRNA 聚合物复合物相比,PLO/mRNA 聚合物复合物表现出增强的稳定性。为了引入内涵体逃逸功能,将 PLO/mRNA 聚合物复合物用电荷转换聚合物(CCP)包裹,该聚合物在细胞外 pH 下带负电荷,但在内涵体酸性 pH 下带正电荷,从而破坏内涵体膜。与母体 PLO/mRNA 聚合物复合物相比,CCP 促进了聚合物复合物在培养细胞中的内涵体逃逸,使 mRNA 表达的蛋白效率提高了约 80 倍。总之,该系统协同了 PLO 对核酸酶的保护作用和 CCP 对 mRNA 递药的内涵体逃逸能力。
