A flexible, efficient, and scalable platform to produce circular RNAs as new therapeutics

Abstract Messenger RNA (mRNA) has recently emerged as a new drug modality with great therapeutic potential. However, linear mRNAs are relatively unstable and also require base modification to reduce their immunogenicity, imposing a limitation to the broad application. With improved stability, the circular RNA (circRNA) presents a better alternative for prolonged expression of the proteins, however the in vitro circularization of RNA at a large scale is technically challenging. Here we developed a new self-catalyzed system to efficiently produce circRNAs in a co-transcriptional fashion. By rational sequence design, we can efficiently produce scarless circRNAs that do not contain foreign sequences. The resulting circRNAs are very stable and have low immunogenicity, enabling prolonged protein translation in different cells without cellular toxicity. The circRNAs generated from this platform can be encapsulated in lipid nanoparticles and efficiently delivered into mice to direct robust protein expression. Finally, the circRNAs encoding RBD of SARS-CoV-2 S protein induced strong antibody productions, with neutralization antibody titers higher than the preclinical data from the linear mRNAs. Collectively, this study provided a general platform for efficient production of circRNAs, demonstrating the potential of circRNAs as the new generation of mRNA therapy.