Multiscale dynamic immunomodulation by a nanoemulsified Trojan-TLR7/8 adjuvant for robust protection against heterologous pandemic and endemic viruses
Yeon Jeong Yoo, Suhyeon Kim, Asha Wickramasinghe, Jaemoo Kim, JuA Song, Young‐Il Kim, Juryeon Gil, Young‐Woock Noh, Min‐Ho Lee, Sang‐Seok Oh, Myeong-Mi Lee, Yebin Seong, Jong‐Soo Lee, Young Ki Choi, Yong Taik Lim
Abstract
Abstract The demand for safe vaccines that ensure long-term and broad protection against multiple viral variants has dramatically increased after the emergence of catastrophic infectious diseases such as COVID-19. To ensure long-term and broad protection against heterologous virus variants, antigen-specific polyfunctional T cells should be orchestrated with the activation of follicular helper T (T FH ) cells and germinal center (GC) B cells. Herein, we suggest a novel engineered nanoadjuvant (SE(Trojan-TLR7/8a)) that enhances the migration of nonexhausted antigen-presenting cells (APCs) into lymph nodes and elicits the activation of T FH cells, the generation of GC B cells, and polyfunctional T cells via multiscale dynamic immunomodulation through squalene nanoemulsion (SE)-mediated macroscopic control of vaccine delivery and Trojan-TLR7/8a-enabled dynamic and sustained activation of APCs at the cellular level. SE(Trojan-TLR7/8a) can be lyophilized, reduce systemic toxicity, and outperform current commercial vaccine adjuvants (Alum or AS03) and mRNA vaccines. SE(Trojan-TLR7/8a) ensures cross-protection against diverse influenza and SARS-CoV-2 variants, providing 100% protection while maintaining a healthy state. SE(Trojan-TLR7/8a) also sustains a potent T-cell response in an aged ferret model of SFTSV infection. SE(Trojan-TLR7/8a) suggested herein provides a novel vaccine design principle for dynamic modulation at the multiscale level and demonstrates long-term and broad protective immunity against emerging pandemic and endemic infectious viruses.