z-logo
open-access-imgOpen Access
A synthetic DNA template for fast manufacturing of versatile single epitope mRNA
Author(s) -
Wout de Mey,
Phaedra De Schrijver,
Dorien Autaers,
Lena Pfitzer,
Bruno Fant,
Hanne Locy,
Arthur Esprit,
Lien Lybaert,
Cedric Bogaert,
Magali Verdonck,
Kris Thielemans,
Karine Breckpot,
Lorenzo Franceschini
Publication year - 2022
Publication title -
molecular therapy — nucleic acids
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.208
H-Index - 59
ISSN - 2162-2531
DOI - 10.1016/j.omtn.2022.08.021
Subject(s) - epitope , immunogenicity , messenger rna , computational biology , cancer immunotherapy , human leukocyte antigen , dna vaccination , biology , plasmid , dna , immunotherapy , antigen , cancer , gene , genetics
A flexible, affordable, and rapid vaccine platform is necessary to unlock the potential of personalized cancer vaccines in order to achieve full clinical efficiency. mRNA cancer vaccine manufacture relies on the rigid sequence design of multiepitope constructs produced by laborious bacterial cloning and time-consuming plasmid preparation. Here, we introduce a synthetic DNA template (SDT) assembly process, which allows cost- and time-efficient manufacturing of single (neo)epitope mRNA. We benchmarked SDT-derived mRNA against mRNA derived from a plasmid DNA template (PDT), showing that monocyte-derived dendritic cells (moDCs) electroporated with SDT-mRNA or PDT-mRNA, encoding HLA-I- or HLA-II-restricted (neo)epitopes, equally activated T cells that were modified to express the cognate T cell receptors. Furthermore, we validated the SDT-mRNA platform for neoepitope immunogenicity screening using the characterized HLA-A2-restricted neoepitope DHX40B and four new candidate HLA-A2-restricted melanoma neoepitopes. Finally, we compared SDT-mRNA with PDT-mRNA for vaccine development purposes. moDCs electroporated with mRNA encoding the HLA-A2-restricted, mutated Melan-A/Mart-1 epitope together with TriMix mRNA-generated high levels of functional Melan-A/Mart-1-specific CD8 + T cells. In conclusion, SDT single epitope mRNA can be manufactured in a more flexible, cost-efficient, and time-efficient way compared with PDT-mRNA, allowing prompt neoepitope immunogenicity screening, and might be exploited for the development of personalized cancer vaccines.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.
Having issues? You can contact us here
Accelerating Research

Address

John Eccles House
Robert Robinson Avenue,
Oxford Science Park, Oxford
OX4 4GP, United Kingdom