Scientific Reports (Oct 2023)

A two-arm analysis of the immune response to heterologous boosting of inactivated SARS-CoV-2 vaccines

  • Arnone Nithichanon,
  • Ludthawun Kamuthachad,
  • Kanin Salao,
  • Wisitsak Phoksawat,
  • Chatcharin Kamsom,
  • Surasakdi Wongratanacheewin,
  • Chonlatip Pipattanaboon,
  • Sakawrat Kanthawong,
  • Umaporn Yordpratum,
  • Sirinart Aromseree,
  • Atibordee Meesing,
  • Piroon Mootsikapun,
  • Steven W. Edwards,
  • Supranee Phanthanawiboon

DOI
https://doi.org/10.1038/s41598-023-46053-8
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 11

Abstract

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Abstract Several vaccine programs were introduced during the COVID-19 pandemic, which included inactivated virus, DNA viral vectors and mRNA vaccines. Booster programs are recommended, especially for those in high-risk groups. However, many of these booster programs involve heterologous vaccines. This study enrolled volunteers who first received two full-dose CoronaVac vaccinations before receiving heterologous boosters with DNA- and/or mRNA-vaccines for an additional 2 doses (n = 40) or an additional 3 doses (n = 16). Our results showed no difference in side effects, neutralizing antibodies, or T-cell responses for any of the heterologous vaccination programs. However, the neutralizing capacity and IFN-γ responses against the Omicron variant in volunteers who received 4 or 5 doses were improved. Polarization of peripheral memory T cells after stimulation in all booster groups with Omicron peptide showed an increased trend of naïve and central memory phenotypes of both CD4+ and CD8+ T cells, suggesting that exposure to Omicron antigens will drive T cells into a lymphoid resident T cell phenotype. Our data support a continuous vaccination program to maximize the effectiveness of immunity, especially in people at high risk. Furthermore, the number of boosting doses is important for maintaining immunity.