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Merck

Polymeric Nanocarriers with Controlled Chain Flexibility Boost mRNA Delivery In Vivo through Enhanced Structural Fastening.

Advanced healthcare materials (2020-06-26)
Takuya Miyazaki, Satoshi Uchida, Satoru Nagatoishi, Kyoko Koji, Taehun Hong, Shigeto Fukushima, Kouhei Tsumoto, Kazuhiko Ishihara, Kazunori Kataoka, Horacio Cabral
RESUMEN

Messenger RNA (mRNA) shows high therapeutic potential, though effective delivery systems are still needed for boosting its application. Nanocarriers loading mRNA via polyion complexation with block catiomers into core-shell micellar structures are promising systems for enhancing mRNA delivery. Engineering the interaction between mRNA and catiomers through polymer design can promote the development of mRNA-loaded micelles (mRNA/m) with increased delivery efficiency. Particularly, the polycation chain rigidity may critically affect the mRNA-catiomer interplay to yield potent nanocarriers, yet its effect remains unknown. Herein, the influence of polycation stiffness on the performance of mRNA/m by developing block complementary catiomers having polycation segments with different flexibility, that is, poly(ethylene glycol)-poly(glycidylbutylamine) (PEG-PGBA) and PEG-poly(L-lysine) (PEG-PLL) is studied. PEG-PGBA allows more than 50-fold stronger binding to mRNA than the relatively more rigid PEG-PLL, resulting in mRNA/m with enhanced protection against enzymatic attack and polyanions. mRNA/m from PEG-PGBA significantly enhances mRNA in vivo bioavailability and increased protein translation, indicating the importance of controlling polycation flexibility for forming stable polyion complexes with mRNA toward improved delivery.

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Sigma-Aldrich
1,2-Epoxy-5-hexene, 97%