Frontiers in Immunology (Jul 2023)

Metabolomics acts as a powerful tool for comprehensively evaluating vaccines approved under emergency: a CoronaVac retrospective study

  • Xinyu Liu,
  • Xinyu Liu,
  • Congshu Xiao,
  • Pengwei Guan,
  • Pengwei Guan,
  • Pengwei Guan,
  • Qianqian Chen,
  • Qianqian Chen,
  • Lei You,
  • Lei You,
  • Lei You,
  • Hongwei Kong,
  • Wangshu Qin,
  • Wangshu Qin,
  • Peng Dou,
  • Peng Dou,
  • Qi Li,
  • Qi Li,
  • Yanju Li,
  • Ying Jiao,
  • Zhiwei Zhong,
  • Jun Yang,
  • Jun Yang,
  • Jun Yang,
  • Xiaolin Wang,
  • Xiaolin Wang,
  • Qingqing Wang,
  • Qingqing Wang,
  • Qingqing Wang,
  • Jinhui Zhao,
  • Jinhui Zhao,
  • Jinhui Zhao,
  • Zhiliang Xu,
  • Hong Zhang,
  • Rongkuan Li,
  • Peng Gao,
  • Peng Gao,
  • Guowang Xu,
  • Guowang Xu,
  • Guowang Xu

DOI
https://doi.org/10.3389/fimmu.2023.1168308
Journal volume & issue
Vol. 14

Abstract

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IntroductionTo control the COVID-19 pandemic, great efforts have been made to realize herd immunity by vaccination since 2020. Unfortunately, most of the vaccines against COVID-19 were approved in emergency without a full-cycle and comprehensive evaluation process as recommended to the previous vaccines. Metabolome has a close tie with the phenotype and can sensitively reflect the responses to stimuli, rendering metabolomic analysis have the potential to appraise and monitor vaccine effects authentically.MethodsIn this study, a retrospective study was carried out for 330 Chinese volunteers receiving recommended two-dose CoronaVac, a vaccine approved in emergency in 2020. Venous blood was sampled before and after vaccination at 5 separate time points for all the recipients. Routine clinical laboratory analysis, metabolomic and lipidomic analysis data were collected.Results and discussionIt was found that the serum antibody-positive rate of this population was around 81.82%. Most of the laboratory parameters were slightly perturbated within the relevant reference intervals after vaccination. The metabolomic and lipidomic analyses showed that the metabolic shift after inoculation was mainly in the glycolysis, tricarboxylic acid cycle, amino acid metabolism, urea cycle, as well as microbe-related metabolism (bile acid metabolism, tryptophan metabolism and phenylalanine metabolism). Time-course metabolome changes were found in parallel with the progress of immunity establishment and peripheral immune cell counting fluctuation, proving metabolomics analysis was an applicable solution to evaluate immune effects complementary to traditional antibody detection. Taurocholic acid, lysophosphatidylcholine 16:0 sn-1, glutamic acid, and phenylalanine were defined as valuable metabolite markers to indicate the establishment of immunity after vaccination. Integrated with the traditional laboratory analysis, this study provided a feasible metabolomics-based solution to relatively comprehensively evaluate vaccines approved under emergency.

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