• Title of article

    Structural Determinants of Unique Properties of Human IgG4-Fc

  • Author/Authors

    Anna M. Davies، نويسنده , , Theo Rispens، نويسنده , , Pleuni Ooijevaar-de Heer، نويسنده , , Hannah J. Gould، نويسنده , , Roy Jefferis، نويسنده , , Rob C. Aalberse، نويسنده , , Brian J. Sutton، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2014
  • Pages
    15
  • From page
    630
  • To page
    644
  • Abstract
    Human IgG4, normally the least abundant of the four subclasses of IgG in serum, displays a number of unique biological properties. It can undergo heavy-chain exchange, also known as Fab-arm exchange, leading to the formation of monovalent but bispecific antibodies, and it interacts poorly with FcγRII and FcγRIII, and complement. These properties render IgG4 relatively “non-inflammatory” and have made it a suitable format for therapeutic monoclonal antibody production. However, IgG4 is also known to undergo Fc-mediated aggregation and has been implicated in auto-immune disease pathology. We report here the high-resolution crystal structures, at 1.9 and 2.35 Å, respectively, of human recombinant and serum-derived IgG4-Fc. These structures reveal conformational variability at the CH3–CH3 interface that may promote Fab-arm exchange, and a unique conformation for the FG loop in the CH2 domain that would explain the poor FcγRII, FcγRIII and C1q binding properties of IgG4 compared with IgG1 and -3. In contrast to other IgG subclasses, this unique conformation folds the FG loop away from the CH2 domain, precluding any interaction with the lower hinge region, which may further facilitate Fab-arm exchange by destabilisation of the hinge. The crystals of IgG4-Fc also display Fc–Fc packing contacts with very extensive interaction surfaces, involving both a consensus binding site in IgG-Fc at the CH2–CH3 interface and known hydrophobic aggregation motifs. These Fc–Fc interactions are compatible with intact IgG4 molecules and may provide a model for the formation of aggregates of IgG4 that can cause disease pathology in the absence of antigen.
  • Keywords
    C1q , Antibody , Fab-arm exchange , Fc receptor , Immunoglobulin
  • Journal title
    Journal of Molecular Biology
  • Serial Year
    2014
  • Journal title
    Journal of Molecular Biology
  • Record number

    1255839