mRNA-based vaccines are relatively new technologies that have been in the field of interest of research centers and pharmaceutical companies in recent years. Such therapeutics are an attractive alternative for DNA-based vaccines since they provide material that can be used with no risk of genomic integration. Additionally, mRNA can be quite easily engineered to introduce modifications for different applications or to modulate its properties, for example, to increase translational efficiency or stability, which is not available for DNA vectors. Here, we describe the use of N2 modified dinucleotide cap analogs as components of mRNA transcripts. The compounds obtained showed very promising biological properties while incorporated into mRNA. The presented N2-guanine modifications within the cap structure ensure proper attachment of the dinucleotide to the transcripts in the IVT reaction, guarantees their incorporation only in the correct orientation, and enables highly efficient translation of mRNA both in the in vitro translation system and in human HEK293 cells.
Keywords: cap analogs; cap-dependent translation; mRNA; mRNA technology; mRNA therapeutics.
© 2023 Grzela et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.