Sialylation of IgG Fc domain impairs complement-dependent cytotoxicity
Isaak Quast, Christian W. Keller, Michael A. Maurer, John P. Giddens, Björn Tackenberg, Lai-Xi Wang, Christian Münz, Falk Nimmerjahn, Marinos C. Dalakas, Jan D. Lünemann
Isaak Quast, Christian W. Keller, Michael A. Maurer, John P. Giddens, Björn Tackenberg, Lai-Xi Wang, Christian Münz, Falk Nimmerjahn, Marinos C. Dalakas, Jan D. Lünemann
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Research Article Immunology

Sialylation of IgG Fc domain impairs complement-dependent cytotoxicity

Abstract

IgG molecules exert both pro- and antiinflammatory effector functions based on the composition of the fragment crystallizable (Fc) domain glycan. Sialylated IgG Fc domains have antiinflammatory properties that are attributed to their ability to increase the activation threshold of innate effector cells to immune complexes by stimulating the upregulation of the inhibitory Fcγ receptor IIB (FcγRIIB). Here, we report that IgG Fc sialylation of human monoclonal IgG1 molecules impairs their efficacy to induce complement-mediated cytotoxicity (CDC). Fc sialylation of a CD20-targeting antibody had no impact on antibody-dependent cellular cytotoxicity and did not change the affinity of the antibody for activating Fcγ receptors. In contrast, the presence of sialic acid abrogated the increased binding of C1q to Fc-galactosylated IgG1 and resulted in decreased levels of C3b deposition on the cell surface. Similar to monoclonal antibodies, sialic acid inhibited the increased C1q binding to galactosylated Fc fragments in human polyclonal IgG. In sera derived from patients with chronic inflammatory demyelinating polyneuropathy, an autoimmune disease of the peripheral nervous system in which humoral immune responses mediate tissue damage, induction of IgG Fc sialylation was associated with clinical disease remission. Thus, impairment of CDC represents an FcγR-independent mechanism by which Fc-sialylated glycovariants might limit proinflammatory IgG effector functions.

Authors

Isaak Quast, Christian W. Keller, Michael A. Maurer, John P. Giddens, Björn Tackenberg, Lai-Xi Wang, Christian Münz, Falk Nimmerjahn, Marinos C. Dalakas, Jan D. Lünemann

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Figure 5

C1q binding to IgG Fc glycovariants.

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C1q binding to IgG Fc glycovariants. (A) Lectin immunoblotting of RTX gl...
(A) Lectin immunoblotting of RTX glycovariants. (mannose: LCA; terminal galactose: ECL; sialic acid: SNA). (B) Time-course of C1q binding to CD20+ Raji cells in the presence or absence of differentially glycosylated RTX. Mean ± SD of 6 independent experiments. Median fluorescence intensity obtained for the unmodified antibody after 60 minutes was set to 100, and the relative signals were calculated. (C) Quantification of RTX antibody glycovariant-dependent C1q binding to CD20+ Raji and Ramos cells after 30 minutes incubation. Mean ± SD of at least 3 independent experiments. Statistics were performed by 1-way ANOVA and Bonferroni post test. (D) Lectin immunoblotting of hu8-18C5 (anti-MOG) glycovariants. (E) Time-course of C1q binding to MO3.13 MOG cells in the presence or absence of differentially glycosylated variants of hu8-18C5. Mean ± SD of 8 independent experiments. Median fluorescence intensity obtained for the unmodified antibody after 30 minutes was set to 100 and the relative signals were calculated. (F) Quantification of hu8-18C5 antibody glycovariant–dependent C1q binding to MO3.13 MOG cells after 60 minutes. Statistics were performed by 1-way ANOVA and Bonferroni post test. (G) Representative flow cytometry stainings showing C1q binding to the indicated cell type and antibody after 1 hour incubation.