Cytidine acetylation yields a hypoinflammatory synthetic messenger RNA

Synthetic messenger RNA (mRNA) is an emerging therapeutic platform with important applications in oncology and infectious disease. Effective mRNA medicines must be translated by the ribosome but not trigger a strong nucleic acid-mediated immune response. To expand the medicinal chemistry toolbox for...

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Bibliographic Details
Published inCell chemical biology Vol. 29; no. 2; pp. 312 - 320.e7
Main Authors Nance, Kellie D., Gamage, Supuni Thalalla, Alam, Md Masud, Yang, Acong, Levy, Michaella J., Link, Courtney N., Florens, Laurence, Washburn, Michael P., Gu, Shuo, Oppenheim, Joost J., Meier, Jordan L.
Format Journal Article
LanguageEnglish
Published United States Elsevier Ltd 17.02.2022
Subjects
Acetylation
acetylcytidine
Cells, Cultured
Cytidine - metabolism
Humans
Inflammation - metabolism
messenger RNA
mRNA vaccines
Protein Processing, Post-Translational
pseudouridine
RNA modifications
RNA, Messenger - metabolism
acetylation
mRNA vaccines
acetylcytidine
pseudouridine
messenger RNA
RNA modifications
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Summary:Synthetic messenger RNA (mRNA) is an emerging therapeutic platform with important applications in oncology and infectious disease. Effective mRNA medicines must be translated by the ribosome but not trigger a strong nucleic acid-mediated immune response. To expand the medicinal chemistry toolbox for these agents, here we report the properties of the naturally occurring nucleobase N4-acetylcytidine (ac4C) in synthetic mRNAs. We find that ac4C is compatible with, but does not enhance, protein production in the context of synthetic mRNA reporters. However, replacement of cytidine with ac4C diminishes inflammatory gene expression in immune cells caused by synthetic mRNAs. Chemoproteomic capture indicates that ac4C alters the protein interactome of synthetic mRNAs, reducing binding to cytidine-binding proteins and an immune sensor. Overall, our studies illustrate the unique ability of ac4C to modulate RNA-protein interactions and provide a foundation for using N4-cytidine acylation to fine-tune the properties of nucleic acid therapeutics. [Display omitted] •N4-acetylcytidine (ac4C) incorporated into synthetic eGFP messenger RNAs (mRNA)•Synthetic ac4C mRNAs produce comparable eGFP as modified/unmodified mRNAs•Synthetic ac4C mRNAs are less inflammatory in immune cells than cytidine mRNAs•Cytidine acetylation alters the protein interaction landscape of synthetic mRNAs Messenger RNA (mRNA) therapeutic platforms benefit from nucleotide components that enable protein translation while evading immune activation. Here, Nance et al. report the exploration of N4-acetylcytidine (ac4C) as a medicinal chemistry element in a synthetic mRNA.
Bibliography:Contributions: Conceptualization: J.L.M., K.D.N.; Methodology: K.D.N., S.T.G., M.M.A., A.Y. C.L., M.J.L.; Formal analysis: J.L.M., K.D.N., M.J.L., L.F. Investigation: K.D.N., S.T.G., M.M.A., A.Y. C.L., M.J.L. Writing-original draft: J.L.M., K.D.N.; Writing-review: J.L.M., K.D.N., S.G. J.O., M.J.L., M.M.A., A.Y., M.P.W., L.F. Writing-editing: J.L.M., K.D.N.; Supervision: J.L.M., J.O., S.G., M.P.W., L.F. funding acquisition: J.L.M., J.O., S.G., M.P.W., L.F.
ISSN:2451-9456
2451-9448
2451-9456
DOI:10.1016/j.chembiol.2021.07.003