Direct Cytoplasmic Transcription and Trimeric RBD Design Synergize to Enhance DNA Vaccine Potency Against SARS-CoV-2
Yunju Nam, Sang Chul Shin, Sang Won Cho, Hyung Jun Ahn

TL;DR
This study shows that combining a trimeric RBD antigen with cytoplasmic transcription improves DNA vaccine effectiveness against SARS-CoV-2.
Contribution
The integration of trimeric RBD design with cytoplasmic transcription is novel for enhancing DNA vaccine performance.
Findings
T7-driven cytoplasmic transcription significantly boosts antigen expression compared to conventional plasmid delivery.
Rpol/tRBD vaccines induce higher antibody titers, neutralizing activity, and CD8⁺ T cell responses than monomeric or plasmid-based trimeric RBD vaccines.
The vaccine elicits Th1-skewed immune responses with minimal toxicity and germinal center activation.
Abstract
Background/Objectives: The emergence of immune-evasive SARS-CoV-2 variants highlights the need for adaptable vaccine strategies. Trimeric receptor-binding domain (tRBD) antigens offer structural and immunological advantages over monomeric RBDs, but DNA vaccine efficacy has been limited by inefficient antigen expression, particularly in non-dividing antigen-presenting cells. Although cytoplasmic transcription–based DNA platforms have been developed to overcome nuclear entry barriers, their utility for antigen structure–function optimization remains underexplored. This study evaluated whether integrating a rationally designed trimeric RBD with a T7-driven cytoplasmic transcription system could enhance immunogenic performance. Methods: A DNA vaccine encoding a tandem trimeric SARS-CoV-2 RBD was delivered using a T7 RNA polymerase-driven cytoplasmic transcription system. In vitro antigen…
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Taxonomy
TopicsImmunotherapy and Immune Responses · SARS-CoV-2 and COVID-19 Research · RNA Interference and Gene Delivery
