Afucosylated immunoglobulin G responses are a hallmark of enveloped virus infections and show an exacerbated phenotype in COVID-19

Abstract: 27IgG antibodies are crucial for protection against invading pathogens. A highly conserved N-28 linked glycan within the IgG-Fc-tail, essential for IgG function, shows variable composition in 29 humans. Afucosylated IgG variants are already used in anti-cancer therapeutic antibodies for 30 their elevated binding and killing activity through Fc receptors (FcγRIIIa). Here, we report that 31 afucosylated IgG which are of minor abundance in humans (~6% of total IgG) are specifically 32 formed against surface epito… Show more

“…Previously, we and others have shown that anti-Spike IgG of severe COVID-19 patients has aberrant fucose and galactose expression, both compared to the total IgG within these individual patients, as well as compared to anti-Spike IgG from mild or asymptomatic patients (26,27). For a subset of COVID-19 serum samples in the present study, the glycosylation pattern of anti-Spike IgG1 had been determined previously for the study of Larsen et al (26), which showed significantly decreased fucosylation and increased galactosylation of anti-Spike IgG compared to total IgG within the tested patients (IgG glycosylation of the sera used in this study is depicted in Figure S2A). When plotting the percentage of anti-Spike IgG fucosylation against pro-inflammatory cytokine production, we observed an inverse correlation for IgG fucosylation and production of IL-1β, IL-6, and TNF ( Figure 3B), while this was not seen for IL-8 and IL-10 ( Figure S2B).…”

“…One of the key characteristics that determines IgG pathogenicity is glycosylation of the IgG Fc tail at position 297 (24,25). Previously, we and others have shown that anti-Spike IgG of severe COVID-19 patients has aberrant fucose and galactose expression, both compared to the total IgG within these individual patients, as well as compared to anti-Spike IgG from mild or asymptomatic patients (26,27). For a subset of COVID-19 serum samples in the present study, the glycosylation pattern of anti-Spike IgG1 had been determined previously for the study of Larsen et al (26), which showed significantly decreased fucosylation and increased galactosylation of anti-Spike IgG compared to total IgG within the tested patients (IgG glycosylation of the sera used in this study is depicted in Figure S2A).…”

“…In severely ill COVID-19 patients the glycosylation of anti-Spike IgG is changed, which we here show amplifies the IgG effector function to promote pro-inflammatory cytokine production, of which COVID-19-associated cytokines such as IL-1β, IL-6, and TNF (5,32) are most pronounced. Decreased IgG fucosylation, as observed in severe cases of COVID-19, has so far only been observed in patients infected with HIV and Dengue virus (33,34), but may actually be a general phenomenon in a response to enveloped viruses (26). While decreased fucosylation increases the infection of cells by a process known as antibody-dependent enhancement (ADE)(35), there is little evidence for antibody-enhanced infection in COVID-19 (36).…”

“…To determine the glycosylation of COVA1-18, aliquots of the mAb samples (5µg) were subjected to acid denaturation (100 mM formic acid, 5 minutes), followed by vacuum centrifugation. Subsequently, samples were trypsinized, and Fc glycopeptides were measured as described previously (26). Relative abundances of Fc glycopeptides were determined, and levels of bisection, fucosylation, galactosylation and sialylation were determined as described before (26).…”

“…Subsequently, samples were trypsinized, and Fc glycopeptides were measured as described previously (26). Relative abundances of Fc glycopeptides were determined, and levels of bisection, fucosylation, galactosylation and sialylation were determined as described before (26).…”

Anti-SARS-CoV-2 IgG from severely ill COVID-19 patients promotes macrophage hyper-inflammatory responses

“…Previously, we and others have shown that anti-Spike IgG of severe COVID-19 patients has aberrant fucose and galactose expression, both compared to the total IgG within these individual patients, as well as compared to anti-Spike IgG from mild or asymptomatic patients (26,27). For a subset of COVID-19 serum samples in the present study, the glycosylation pattern of anti-Spike IgG1 had been determined previously for the study of Larsen et al (26), which showed significantly decreased fucosylation and increased galactosylation of anti-Spike IgG compared to total IgG within the tested patients (IgG glycosylation of the sera used in this study is depicted in Figure S2A). When plotting the percentage of anti-Spike IgG fucosylation against pro-inflammatory cytokine production, we observed an inverse correlation for IgG fucosylation and production of IL-1β, IL-6, and TNF ( Figure 3B), while this was not seen for IL-8 and IL-10 ( Figure S2B).…”

“…One of the key characteristics that determines IgG pathogenicity is glycosylation of the IgG Fc tail at position 297 (24,25). Previously, we and others have shown that anti-Spike IgG of severe COVID-19 patients has aberrant fucose and galactose expression, both compared to the total IgG within these individual patients, as well as compared to anti-Spike IgG from mild or asymptomatic patients (26,27). For a subset of COVID-19 serum samples in the present study, the glycosylation pattern of anti-Spike IgG1 had been determined previously for the study of Larsen et al (26), which showed significantly decreased fucosylation and increased galactosylation of anti-Spike IgG compared to total IgG within the tested patients (IgG glycosylation of the sera used in this study is depicted in Figure S2A).…”

“…In severely ill COVID-19 patients the glycosylation of anti-Spike IgG is changed, which we here show amplifies the IgG effector function to promote pro-inflammatory cytokine production, of which COVID-19-associated cytokines such as IL-1β, IL-6, and TNF (5,32) are most pronounced. Decreased IgG fucosylation, as observed in severe cases of COVID-19, has so far only been observed in patients infected with HIV and Dengue virus (33,34), but may actually be a general phenomenon in a response to enveloped viruses (26). While decreased fucosylation increases the infection of cells by a process known as antibody-dependent enhancement (ADE)(35), there is little evidence for antibody-enhanced infection in COVID-19 (36).…”

“…To determine the glycosylation of COVA1-18, aliquots of the mAb samples (5µg) were subjected to acid denaturation (100 mM formic acid, 5 minutes), followed by vacuum centrifugation. Subsequently, samples were trypsinized, and Fc glycopeptides were measured as described previously (26). Relative abundances of Fc glycopeptides were determined, and levels of bisection, fucosylation, galactosylation and sialylation were determined as described before (26).…”

“…Subsequently, samples were trypsinized, and Fc glycopeptides were measured as described previously (26). Relative abundances of Fc glycopeptides were determined, and levels of bisection, fucosylation, galactosylation and sialylation were determined as described before (26).…”

Anti-SARS-CoV-2 IgG from severely ill COVID-19 patients promotes macrophage hyper-inflammatory responses

Dynamics of antibodies to SARS‐CoV‐2 in convalescent plasma donors

Divergent SARS‐CoV‐2‐specific T‐ and B‐cell responses in severe but not mild COVID‐19 patients