Science and Research

Anti-TNF therapy impairs both short- and long-term IgG responses after repeated vaccination

BACKGROUND: Recently, it has been questioned whether vaccination of patients with inflammatory (auto)immune diseases under anti-tumor necrosis factor (TNF) treatment leads to impaired vaccine-induced immune responses and protection against breakthrough infections. However, the effects of TNF blockade on short- and long-term immune responses after repeated vaccination remain unclear. Vaccination studies have shown that initial short-term IgG antibodies (Abs) carry highly galactosylated and sialylated Fc glycans, whilst long-term IgG Abs have low levels of galactosylation and sialylation and are most likely generated by long-lived plasma cells (PCs) derived primarily from the germinal center (GC) response. Thus, IgG Fc glycosylation patterns may be applicable to distinguish short- and long-term vaccine responses after repeated vaccination under the influence of anti-TNF treatment. METHODS: We used COVID-19 vaccination as a model to investigate vaccine-induced IgG subclass levels and Fc glycosylation patterns, B cell subsets, and effector functions of short- and long-term Ab responses after up to three vaccinations in patients on anti-TNF or other immunosuppressive treatments and in healthy individuals. Using TriNetX, a global healthcare database, we determined the risk of SARS-CoV-2 breakthrough infections in vaccinated patients treated with anti-TNF or other immunosuppressive drugs. RESULTS: Anti-TNF treatment reduced the long-term abundance of all anti-S IgG subclasses with low levels of galactosylation and sialylation. Re-activation of potential memory B cells initially generated highly galactosylated and sialylated IgG antibodies, which were progressively reduced after each booster dose in anti-TNF-treated patients, especially in the elderly. The reduced short- and long-term IgG (1) levels in anti-TNF-treated patients correlated with diminished functional activity and an increased risk for the development of COVID-19. CONCLUSIONS: The data suggest that anti-TNF treatment reduces both GC-dependent long-lived PCs and GC-dependent memory B cell-derived short-lived PCs, hence both the long- and short-term IgG subclass responses, respectively, after repeated vaccination. We propose that anti-TNF therapy, especially in the elderly, reduces the benefit of booster vaccination.

  • Buhre, J. S.
  • Pongracz, T.
  • Geisen, U. M.
  • Schubert, M.
  • Wang, W.
  • Nouta, J.
  • Obara, M.
  • Lehrian, S.
  • Rahmöller, J.
  • Petry, J.
  • Tran, F.
  • Schreiber, S.
  • Sümbül, M.
  • Berner, D.
  • Gerdes, S.
  • Schirmer, J.
  • Longardt, A. C.
  • Hoff, P.
  • Kalinke, U.
  • Ludwig, R. J.
  • Bartsch, Y. C.
  • Hoyer, B. F.
  • Wuhrer, M.
  • Ehlers, M.

Keywords

  • Covid‐19
  • IgG
  • IgG glycosylation
  • IgG4
  • SARS‐CoV‐2
  • TriNetX
  • antibody
  • anti‐TNF treatment
  • germinal center
  • inflammatory diseases
  • long‐lived plasma cell
  • mRNA vaccine
  • memory B cell
  • short‐lived plasma cell
  • vaccination
Publication details
DOI: 10.1111/all.16241
Journal: Allergy
Work Type: Original
Location: Assoziierter Partner, ARCN, BREATH
Disease Area: AA
Partner / Member: CAU, MHH, UKSH (Kiel), UKSH (Lübeck), UzL
Access-Number: 39049686

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