Advanced Science (Dec 2023)

mRNA‐based Vaccines Targeting the T‐cell Epitope‐rich Domain of Epstein Barr Virus Latent Proteins Elicit Robust Anti‐Tumor Immunity in Mice

  • Ge‐Xin Zhao,
  • Guo‐Long Bu,
  • Gang‐Feng Liu,
  • Xiang‐Wei Kong,
  • Cong Sun,
  • Zi‐Qian Li,
  • Dan‐Ling Dai,
  • Hai‐Xia Sun,
  • Yin‐Feng Kang,
  • Guo‐Kai Feng,
  • Qian Zhong,
  • Mu‐Sheng Zeng

DOI
https://doi.org/10.1002/advs.202302116
Journal volume & issue
Vol. 10, no. 35
pp. n/a – n/a

Abstract

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Abstract Epstein‐Barr virus (EBV) is associated with various malignancies and infects >90% of the global population. EBV latent proteins are expressed in numerous EBV‐associated cancers and contribute to carcinogenesis, making them critical therapeutic targets for these cancers. Thus, this study aims to develop mRNA‐based therapeutic vaccines that express the T‐cell‐epitope‐rich domain of truncated latent proteins of EBV, including truncatedlatent membrane protein 2A (Trunc‐LMP2A), truncated EBV nuclear antigen 1 (Trunc‐EBNA1), and Trunc‐EBNA3A. The vaccines effectively activate both cellular and humoral immunity in mice and show promising results in suppressing tumor progression and improving survival time in tumor‐bearing mice. Furthermore, it is observed that the truncated forms of the antigens, Trunc‐LMP2A, Trunc‐EBNA1, and Trunc‐EBNA3A, are more effective than full‐length antigens in activating antigen‐specific immune responses. In summary, the findings demonstrate the effectiveness of mRNA‐based therapeutic vaccines targeting the T‐cell‐epitope‐rich domain of EBV latent proteins and providing new treatment options for EBV‐associated cancers.

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