B-cell–independent sialylation of IgG

Jones, Mark B.; Oswald, Douglas M.; Joshi, Smita; Whiteheart, Sidney W.; Orlando, Ron; Cobb, Brian A.

doi:10.1073/pnas.1523968113

Cited by 107 publications

(118 citation statements)

References 37 publications

(45 reference statements)

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“…Recent work has demonstrated that activated platelets release the CMP-Sia that serves as the donor for circulating ST6Gal-I, allowing for the remodeling of the glycans of hematopoietic progenitor cells (Lee et al 2014). Additional in vivo support for the biosynthetic role of circulating ST6Gal-I comes from a recent study showing that ST6Gal-I-deficient B cells express IgGs that are modified with α2,6-sialylated glycans and these are synthesized by circulatory ST6Gal-I released from the liver and CMP-Sia from activated platelets (Jones et al 2016).…”

Section: St6gal-i and St6gal-iimentioning

confidence: 99%

Sialylation of N-glycans: mechanism, cellular compartmentalization and function

Bhide

Colley

2016

Histochem Cell Biol

178

144

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Sialylated N-glycans play essential roles in the immune system, pathogen recognition and cancer. This review approaches the sialylation of N-glycans from three perspectives. The first section focuses on the sialyltransferases that add sialic acid to N-glycans. Included in the discussion is a description of these enzymes' glycan acceptors, conserved domain organization and sequences, molecular structure and catalytic mechanism. In addition, we discuss the protein interactions underlying the polysialylation of a select group of adhesion and signaling molecules. In the second section, the biosynthesis of sialic acid, CMP-sialic acid and sialylated N-glycans is discussed, with a special emphasis on the compartmentalization of these processes in the mammalian cell. The sequences and mechanisms maintaining the sialyltransferases and other glycosylation enzymes in the Golgi are also reviewed. In the final section, we have chosen to discuss processes in which sialylated glycans, both N- and O-linked, play a role. The first part of this section focuses on sialic acid-binding proteins including viral hemagglutinins, Siglecs and selectins. In the second half of this section, we comment on the role of sialylated N-glycans in cancer, including the roles of β1-integrin and Fas receptor N-glycan sialylation in cancer cell survival and drug resistance, and the role of these sialylated proteins and polysialic acid in cancer metastasis.

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Section: St6gal-i and St6gal-iimentioning

confidence: 99%

Sialylation of N-glycans: mechanism, cellular compartmentalization and function

Bhide

Colley

2016

Histochem Cell Biol

178

144

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“…Furthermore, significant shifts in relative levels have been associated with age (all glycosylation features except fucosylation), infection and pregnancy111213141516. The type of glycosylation is dependent on expression levels of glycosyltransferases and glycosidases in the secretion pathway of the antibody-producing plasma B cell17, except for sialylation which is probably also depended on extracellular sialyltransferase expression in the circulation181920. The degree of fucosylation and bisection of IgG is generally very stable, with ~95% serum IgG being fucosylated and ~15% bisected.…”

mentioning

confidence: 99%

Multi-level glyco-engineering techniques to generate IgG with defined Fc-glycans

Dekkers

Plomp

Koeleman

et al. 2016

Sci Rep

101

119

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Immunoglobulin G (IgG) mediates its immune functions through complement and cellular IgG-Fc receptors (FcγR). IgG contains an evolutionary conserved N-linked glycan at position Asn297 in the Fc-domain. This glycan consists of variable levels of fucose, galactose, sialic acid, and bisecting N-acetylglucosamine (bisection). Of these variations, the lack of fucose strongly enhances binding to the human FcγRIII, a finding which is currently used to improve the efficacy of therapeutic monoclonal antibodies. The influence of the other glycan traits is largely unknown, mostly due to lack of glyco-engineering tools. We describe general methods to produce recombinant proteins of any desired glycoform in eukaryotic cells. Decoy substrates were used to decrease the level of fucosylation or galactosylation, glycosyltransferases were transiently overexpressed to enhance bisection, galactosylation and sialylation and in vitro sialylation was applied for enhanced sialylation. Combination of these techniques enable to systematically explore the biological effect of these glycosylation traits for IgG and other glycoproteins.

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“…However, this can only be firmly concluded when general glycosylation patterns of RSV‐specific antibodies made by the infant are known. An alternative explanation for the age‐related changes in glycosylation of RSV‐specific antibodies is extracellular glycan modification of antibodies, but this remains speculative and has thus far only been shown for sialylation . Even for sialylation, most of the incorporated sialic acid is still expected to be assembled in the B cells, as antigen‐specific antibodies formed in certain immune responses can deviate markedly from total IgG …”

Section: Discussionmentioning

confidence: 99%

Natural killer cell activation by respiratory syncytial virus‐specific antibodies is decreased in infants with severe respiratory infections and correlates with Fc‐glycosylation

et al. 2020

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Objectives Respiratory syncytial virus (RSV) is a major cause of severe lower respiratory tract infections in infants, and there is no vaccine available. In early life, the most important contributors to protection against infectious diseases are the innate immune response and maternal antibodies. However, antibody‐mediated protection against RSV disease is incompletely understood, as both antibody levels and neutralisation capacity correlate poorly with protection. Since antibodies also mediate natural killer (NK) cell activation, we investigated whether this functionality correlates with RSV disease. Methods We performed an observational case–control study including infants hospitalised for RSV infection, hernia surgery or RSV‐negative respiratory viral infections. We determined RSV antigen‐specific antibody levels in plasma using a multiplex immunoassay. Subsequently, we measured the capacity of these antibodies to activate NK cells. Finally, we assessed Fc‐glycosylation of the RSV‐specific antibodies by mass spectrometry. Results We found that RSV‐specific maternal antibodies activate NK cells in vitro. While concentrations of RSV‐specific antibodies did not differ between cases and controls, antibodies from infants hospitalised for severe respiratory infections (RSV and/or other) induced significantly less NK cell interferon‐γ production than those from uninfected controls. Furthermore, NK cell activation correlated with Fc‐fucosylation of RSV‐specific antibodies, but their glycosylation status did not significantly differ between cases and controls. Conclusion Our results suggest that Fc‐dependent antibody function and quality, exemplified by NK cell activation and glycosylation, contribute to protection against severe RSV disease and warrant further studies to evaluate the potential of using these properties to evaluate and improve the efficacy of novel vaccines.

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B-cell–independent sialylation of IgG

Cited by 107 publications

References 37 publications

Sialylation of N-glycans: mechanism, cellular compartmentalization and function

Sialylation of N-glycans: mechanism, cellular compartmentalization and function

Multi-level glyco-engineering techniques to generate IgG with defined Fc-glycans

Natural killer cell activation by respiratory syncytial virus‐specific antibodies is decreased in infants with severe respiratory infections and correlates with Fc‐glycosylation

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