Author: van Dülmen, Melissa; Muthmann, Nils; Rentmeister, Andrea
Title: Chemoâ€Enzymatic Modification of the 5′ Cap Maintains Translation and Increases Immunogenic Properties of mRNA Cord-id: ztnuh0h1 Document date: 2021_5_6
ID: ztnuh0h1
Snippet: Eukaryotic mRNAs are emerging modalities for protein replacement therapy and vaccination. Their 5′ cap is important for mRNA translation and immune response and can be naturally methylated at different positions by Sâ€adenosylâ€lâ€methionine (AdoMet)â€dependent methyltransferases (MTases). We report on the cosubstrate scope of the MTase CAPAM responsible for methylation at the N (6)â€position of adenosine start nucleotides using synthetic AdoMet analogs. The chemoâ€enzymatic propargylati
Document: Eukaryotic mRNAs are emerging modalities for protein replacement therapy and vaccination. Their 5′ cap is important for mRNA translation and immune response and can be naturally methylated at different positions by Sâ€adenosylâ€lâ€methionine (AdoMet)â€dependent methyltransferases (MTases). We report on the cosubstrate scope of the MTase CAPAM responsible for methylation at the N (6)â€position of adenosine start nucleotides using synthetic AdoMet analogs. The chemoâ€enzymatic propargylation enabled production of siteâ€specifically modified reporterâ€mRNAs. These capâ€propargylated mRNAs were efficiently translated and showed ≈3â€fold increased immune response in human cells. The same effects were observed when the receptor binding domain (RBD) of SARSâ€CoVâ€2—a currently tested epitope for mRNA vaccination—was used. Siteâ€specific chemoâ€enzymatic modification of eukaryotic mRNA may thus be a suitable strategy to modulate translation and immune response of mRNAs for future therapeutic applications.
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