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Solution structures of human myeloma IgG3 antibody reveal extended Fab and Fc regions relative to the other IgG subclasses

Valentina A. Spiteri, Margaret Goodall, James Doutch, Robert P. Rambo, Jayesh Gor, Stephen J. Perkins

2021Journal of Biological Chemistry13 citationsDOIOpen Access PDF

Abstract

values were 6.95 nm for glycosylated IgG3 and were unchanged after deglycosylation, again indicating an elongated structure. The distance distribution function P(r) showed a maximum length of 25 to 28 nm and three distinct maxima. The molecular structure of IgG3 was determined using atomistic modeling based on molecular dynamics simulations of the IgG3 hinge and Monte Carlo simulations to identify physically realistic arrangements of the Fab and Fc regions. This resulted in libraries containing 135,135 and 73,905 glycosylated and deglycosylated IgG3 structures, respectively. Comparisons with the X-ray and neutron scattering curves gave 100 best-fit models for each form of IgG3 that accounted for the experimental scattering curves. These models revealed the first molecular structures for full-length IgG3. The structures exhibited relatively restricted Fab and Fc conformations joined by an extended semirigid hinge, which explains the potent effector functions of IgG3 relative to the other subclasses IgG1, IgG2, and IgG4.

Topics & Concepts

Fragment crystallizable regionChemistryGlycosylationImmunoglobulin Fc FragmentsImmunoglobulin Fab FragmentsMolecular dynamicsSmall-angle X-ray scatteringNeutron scatteringAnalytical UltracentrifugationCrystallographyImmunoglobulin GScatteringUltracentrifugeAntibodyReceptorPeptide sequenceBiologyBiochemistryPhysicsGeneImmunologyComputational chemistryOpticsComplementarity determining regionGlycosylation and Glycoproteins ResearchMonoclonal and Polyclonal Antibodies ResearchEnzyme Structure and Function
Solution structures of human myeloma IgG3 antibody reveal extended Fab and Fc regions relative to the other IgG subclasses | Litcius