Emerging Microbes and Infections (Dec 2022)

Transcriptomic analysis of the innate immune signatures of a SARS-CoV-2 protein subunit vaccine ZF2001 and an mRNA vaccine RRV

  • Qian Wang,
  • Ziyang Song,
  • Jinghuan Yang,
  • Qian He,
  • Qunying Mao,
  • Yu Bai,
  • Jianyang Liu,
  • Chaoqiang An,
  • Xujia Yan,
  • Bopei Cui,
  • Lifang Song,
  • Dong Liu,
  • Miao Xu,
  • Zhenglun Liang

DOI
https://doi.org/10.1080/22221751.2022.2059404
Journal volume & issue
Vol. 11, no. 1
pp. 1145 – 1153

Abstract

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Analysis of large-scale gene expression post vaccination can provide an overview of immune responses. We used transcriptional approaches to comprehensively analyze the innate immune response signatures elicited by protein subunit (PS) vaccine ZF2001 and an mRNA vaccine named RRV. A fine-grained time-dependent dissection of large-scale gene expression post immunization revealed that ZF001 induced MHC class II-related genes, including cd74 and H2-Aa, more expeditiously than the RRV. Notably, the RRV induced MHC class I-related genes such as Tap1/2, B2m, and H2-D1/K1. At day 21 post immunization, the titres of binding and neutralization antibody (NAb) induced by both vaccines were comparable, which were accordant with the expression level of genes essential to BCR/TCR signalling transduction and B/T cells activation at day 7. However, compared to ZF2001, the early responses of RRV were more robust, including the activation of pattern recognition receptors (PRRs), expression of genes involved in RNA degradation, and transcription inhibition, which are directly related to anti-viral signals. This pattern also coincided with the induction of cytokines by the RRV. Generally, the transcriptomic patterns of two very different vaccines mapped here provide a framework for establishing correlates between the induction of genes and protection, which can be tailored for evoking specific and potent immune responses against SARS-CoV-2.

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