Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways

Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways

IgG antibodies (Abs) mediate their effector functions through the interaction with Fcγ receptors (FcγRs) and the complement factors. The main IgG-mediated complement activation pathway is induced through the binding of complement C1q to IgG Abs. This interaction is dependent on antigen-dependent hex...

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Main Authors: Gina-Maria Lilienthal, Johann Rahmöller, Janina Petry, Yannic C. Bartsch, Alexei Leliavski, Marc Ehlers
Format: Article
Language:English
Published: Frontiers Media S.A. 2018-05-01
Series:Frontiers in Immunology
Subjects:
complement
C1q
IgG4
IgG
IgG hexamer
IgG glycosylation
Online Access:http://journal.frontiersin.org/article/10.3389/fimmu.2018.00958/full
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spelling doaj-4b263bfd0a614e328bc083c2ca08210c2020-11-24T23:41:10ZengFrontiers Media S.A.Frontiers in Immunology1664-32242018-05-01910.3389/fimmu.2018.00958357875Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation PathwaysGina-Maria Lilienthal0Johann Rahmöller1Johann Rahmöller2Janina Petry3Yannic C. Bartsch4Alexei Leliavski5Marc Ehlers6Marc Ehlers7Laboratories of Immunology and Antibody Glycan Analysis, Institute for Nutrition Medicine, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyLaboratories of Immunology and Antibody Glycan Analysis, Institute for Nutrition Medicine, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyDepartment of Anesthesiology and Intensive Care, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyLaboratories of Immunology and Antibody Glycan Analysis, Institute for Nutrition Medicine, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyLaboratories of Immunology and Antibody Glycan Analysis, Institute for Nutrition Medicine, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyLaboratories of Immunology and Antibody Glycan Analysis, Institute for Nutrition Medicine, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyLaboratories of Immunology and Antibody Glycan Analysis, Institute for Nutrition Medicine, University of Lübeck and University Medical Center of Schleswig-Holstein, Lübeck, GermanyAirway Research Center North (ARCN), University of Lübeck, German Center for Lung Research (DZL), Lübeck, GermanyIgG antibodies (Abs) mediate their effector functions through the interaction with Fcγ receptors (FcγRs) and the complement factors. The main IgG-mediated complement activation pathway is induced through the binding of complement C1q to IgG Abs. This interaction is dependent on antigen-dependent hexamer formation of human IgG1 and IgG3 to increase the affinity for the six-headed C1q molecule. By contrast, human IgG4 fails to bind to C1q. Instead, it has been suggested that human IgG4 can block IgG1 and IgG3 hexamerization required for their binding to C1q and activating the complement. Here, we show that murine IgG1, which functionally resembles human IgG4 by not interacting with C1q, inhibits the binding of IgG2a, IgG2b, and IgG3 to C1q in vitro, and suppresses IgG2a-mediated complement activation in a hemolytic assay in an antigen-dependent and IgG subclass-specific manner. From this perspective, we discuss the potential of murine IgG1 and human IgG4 to block the complement activation as well as suppressive effects of sialylated IgG subclass Abs on FcγR-mediated immune cell activation. Accumulating evidence suggests that both mechanisms seem to be responsible for preventing uncontrolled IgG (auto)Ab-induced inflammation in mice and humans. Distinct IgG subclass distributions and functionally opposite IgG Fc glycosylation patterns might explain different outcomes of IgG-mediated immune responses and provide new therapeutic options through the induction, enrichment, or application of antigen-specific sialylated human IgG4 to prevent complement and FcγR activation as well.http://journal.frontiersin.org/article/10.3389/fimmu.2018.00958/fullcomplementC1qIgG4IgGIgG hexamerIgG glycosylation
collection DOAJ
language English
format Article
sources DOAJ
author Gina-Maria Lilienthal
Johann Rahmöller
Johann Rahmöller
Janina Petry
Yannic C. Bartsch
Alexei Leliavski
Marc Ehlers
Marc Ehlers
spellingShingle Gina-Maria Lilienthal
Johann Rahmöller
Johann Rahmöller
Janina Petry
Yannic C. Bartsch
Alexei Leliavski
Marc Ehlers
Marc Ehlers
Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways
Frontiers in Immunology
complement
C1q
IgG4
IgG
IgG hexamer
IgG glycosylation
author_facet Gina-Maria Lilienthal
Johann Rahmöller
Johann Rahmöller
Janina Petry
Yannic C. Bartsch
Alexei Leliavski
Marc Ehlers
Marc Ehlers
author_sort Gina-Maria Lilienthal
title Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways
title_short Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways
title_full Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways
title_fullStr Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways
title_full_unstemmed Potential of Murine IgG1 and Human IgG4 to Inhibit the Classical Complement and Fcγ Receptor Activation Pathways
title_sort potential of murine igg1 and human igg4 to inhibit the classical complement and fcγ receptor activation pathways
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2018-05-01
description IgG antibodies (Abs) mediate their effector functions through the interaction with Fcγ receptors (FcγRs) and the complement factors. The main IgG-mediated complement activation pathway is induced through the binding of complement C1q to IgG Abs. This interaction is dependent on antigen-dependent hexamer formation of human IgG1 and IgG3 to increase the affinity for the six-headed C1q molecule. By contrast, human IgG4 fails to bind to C1q. Instead, it has been suggested that human IgG4 can block IgG1 and IgG3 hexamerization required for their binding to C1q and activating the complement. Here, we show that murine IgG1, which functionally resembles human IgG4 by not interacting with C1q, inhibits the binding of IgG2a, IgG2b, and IgG3 to C1q in vitro, and suppresses IgG2a-mediated complement activation in a hemolytic assay in an antigen-dependent and IgG subclass-specific manner. From this perspective, we discuss the potential of murine IgG1 and human IgG4 to block the complement activation as well as suppressive effects of sialylated IgG subclass Abs on FcγR-mediated immune cell activation. Accumulating evidence suggests that both mechanisms seem to be responsible for preventing uncontrolled IgG (auto)Ab-induced inflammation in mice and humans. Distinct IgG subclass distributions and functionally opposite IgG Fc glycosylation patterns might explain different outcomes of IgG-mediated immune responses and provide new therapeutic options through the induction, enrichment, or application of antigen-specific sialylated human IgG4 to prevent complement and FcγR activation as well.
topic complement
C1q
IgG4
IgG
IgG hexamer
IgG glycosylation
url http://journal.frontiersin.org/article/10.3389/fimmu.2018.00958/full
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