Science and Research

mRNA vaccines against SARS-CoV-2 induce comparably low long-term IgG Fc galactosylation and sialylation levels but increasing long-term IgG4 responses compared to an adenovirus-based vaccine

BACKGROUND: The new types of mRNA-containing lipid nanoparticle vaccines BNT162b2 and mRNA-1273 and the adenovirus-based vaccine AZD1222 were developed against SARS-CoV-2 and code for its spike (S) protein. Several studies have investigated short-term antibody (Ab) responses after vaccination. OBJECTIVE: However, the impact of these new vaccine formats with unclear effects on the long-term Ab response - including isotype, subclass, and their type of Fc glycosylation - is less explored. METHODS: Here, we analyzed anti-S Ab responses in blood serum and the saliva of SARS-CoV-2 naïve and non-hospitalized pre-infected subjects upon two vaccinations with different mRNA- and adenovirus-based vaccine combinations up to day 270. RESULTS: We show that the initially high mRNA vaccine-induced blood and salivary anti-S IgG levels, particularly IgG1, markedly decrease over time and approach the lower levels induced with the adenovirus-based vaccine. All three vaccines induced, contrary to the short-term anti-S IgG1 response with high sialylation and galactosylation levels, a long-term anti-S IgG1 response that was characterized by low sialylation and galactosylation with the latter being even below the corresponding total IgG1 galactosylation level. Instead, the mRNA, but not the adenovirus-based vaccines induced long-term IgG4 responses - the IgG subclass with inhibitory effector functions. Furthermore, salivary anti-S IgA levels were lower and decreased faster in naïve as compared to pre-infected vaccinees. Predictively, age correlated with lower long-term anti-S IgG titers for the mRNA vaccines. Furthermore, higher total IgG1 galactosylation, sialylation, and bisection levels correlated with higher long-term anti-S IgG1 sialylation, galactosylation, and bisection levels, respectively, for all vaccine combinations. CONCLUSION: In summary, the study suggests a comparable "adjuvant" potential of the newly developed vaccines on the anti-S IgG Fc glycosylation, as reflected in relatively low long-term anti-S IgG1 galactosylation levels generated by the long-lived plasma cell pool, whose induction might be driven by a recently described T(H1)-driven B cell response for all three vaccines. Instead, repeated immunization of naïve individuals with the mRNA vaccines increased the proportion of the IgG4 subclass over time which might influence the long-term Ab effector functions. Taken together, these data shed light on these novel vaccine formats and might have potential implications for their long-term efficacy.

  • Buhre, J. S.
  • Pongracz, T.
  • Künsting, I.
  • Lixenfeld, A. S.
  • Wang, W.
  • Nouta, J.
  • Lehrian, S.
  • Schmelter, F.
  • Lunding, H. B.
  • Dühring, L.
  • Kern, C.
  • Petry, J.
  • Martin, E. L.
  • Föh, B.
  • Steinhaus, M.
  • von Kopylow, V.
  • Sina, C.
  • Graf, T.
  • Rahmöller, J.
  • Wuhrer, M.
  • Ehlers, M.

Keywords

  • Humans
  • *Immunoglobulin G
  • SARS-CoV-2
  • COVID-19 Vaccines
  • BNT162 Vaccine
  • ChAdOx1 nCoV-19
  • *COVID-19/prevention & control
  • mRNA Vaccines
  • Adenoviridae/genetics
  • Covid-19
  • IgA
  • IgG
  • IgG glycosylation
  • IgG subclass
  • antibody
  • vaccination
Publication details
DOI: 10.3389/fimmu.2022.1020844
Journal: Front Immunol
Pages: 1020844 
Work Type: Original
Location: Assoziierter Partner, ARCN
Disease Area: PALI
Partner / Member: UKSH (Lübeck), UzL
Access-Number: 36713457

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