Modulation of innate immune response to mRNA vaccination after SARS-CoV-2 infection or sequential vaccination in humans
Fredrika Hellgren, Anja Rosdahl, Rodrigo Arcoverde Cerveira, Klara Lenart, Sebastian Ols, Yong-Dae Gwon, Seta Kurt, Anna Maria Delis, Gustav Joas, Magnus Evander, Johan Normark, Clas Ahlm, Mattias N.E. Forsell, Sara Cajander, Karin Loré
Fredrika Hellgren, Anja Rosdahl, Rodrigo Arcoverde Cerveira, Klara Lenart, Sebastian Ols, Yong-Dae Gwon, Seta Kurt, Anna Maria Delis, Gustav Joas, Magnus Evander, Johan Normark, Clas Ahlm, Mattias N.E. Forsell, Sara Cajander, Karin Loré
View: Text | PDF
Research Article Immunology Vaccines

Modulation of innate immune response to mRNA vaccination after SARS-CoV-2 infection or sequential vaccination in humans

Abstract

mRNA vaccines are likely to become widely used for the prevention of infectious diseases in the future. Nevertheless, a notable gap exists in mechanistic data, particularly concerning the potential effects of sequential mRNA immunization or preexisting immunity on the early innate immune response triggered by vaccination. In this study, healthy adults, with or without documented prior SARS-CoV-2 infection, were vaccinated with the BNT162b2/Comirnaty mRNA vaccine. Prior infection conferred significantly stronger induction of proinflammatory and type I IFN–related gene signatures, serum cytokines, and monocyte expansion after the prime vaccination. The response to the second vaccination further increased the magnitude of the early innate response in both study groups. The third vaccination did not further increase vaccine-induced inflammation. In vitro stimulation of PBMCs with TLR ligands showed no difference in cytokine responses between groups, or before or after prime vaccination, indicating absence of a trained immunity effect. We observed that levels of preexisting antigen-specific CD4 T cells, antibody, and memory B cells correlated with elements of the early innate response to the first vaccination. Our data thereby indicate that preexisting memory formed by infection may augment the innate immune activation induced by mRNA vaccines.

Authors

Fredrika Hellgren, Anja Rosdahl, Rodrigo Arcoverde Cerveira, Klara Lenart, Sebastian Ols, Yong-Dae Gwon, Seta Kurt, Anna Maria Delis, Gustav Joas, Magnus Evander, Johan Normark, Clas Ahlm, Mattias N.E. Forsell, Sara Cajander, Karin Loré

×

Figure 6

Transient changes in distribution of immune cell populations in peripheral blood after mRNA vaccination.

Options: View larger image (or click on image) Download as PowerPoint
Transient changes in distribution of immune cell populations in peripher...
(A) Representative gating of monocyte subsets in peripheral blood. (BE) Quantification of monocyte and monocyte subsets (CM, classical; IM, intermediate; NCM, nonclassical) as proportions of total gated live single cells per sample. (F) Detection of mRNA vaccine transcripts in bulk blood transcriptomic data. The vaccine mRNA sequence was sourced as reported in the repository by Jeong et al. (39) and appended to the human reference genome prior to alignment of blood RNA-Seq data. Transcripts matching the reported BNT162b2 vaccine sequence are reported as log(transcripts per million). (G) Detection of spike protein in serum before and after mRNA vaccination by Mesoscale Discovery assay. Box and whiskers indicate minimum to maximum. Gray shading indicates lower limits of detection (range of total 4 MSD plates run). Groups were compared by multiple Mann-Whitney U test with comparison between groups at each time point and P value adjustment using the Holm-Šidák method (α threshold 0.05). No statistical tests performed for F and G. Number of participants shown: dose 1 = 29, dose 2 = 28 (0H = 27), and dose 3 = 23 (0H = 19) (BE); dose 1 = 15, dose 2 = 14, and dose 3 = 13 (F); and dose 1 = 30; dose 2 = 29; dose 3 = 23 (G).