Hinge disulfides in human IgG2 CD40 antibodies modulate receptor signaling by regulation of conformation and flexibility
Hinge disulfides in human IgG2 CD40 antibodies modulate receptor signaling by regulation of conformation and flexibility
Antibodies protect from infection, underpin successful vaccines and elicit therapeutic responses in otherwise untreatable cancers and autoimmune conditions. The human IgG2 isotype displays a unique capacity to undergo disulfide shuffling in the hinge region, leading to modulation of its ability to drive target receptor signaling (agonism) in a variety of important immune receptors, through hitherto unexplained molecular mechanisms. To address the underlying process and reveal how hinge disulfide orientation affects agonistic activity, we generated a series of cysteine to serine exchange variants in the hinge region of the clinically relevant monoclonal antibody ChiLob7/4, directed against the key immune receptor CD40. We report how agonistic activity varies with disulfide pattern and is afforded by the presence of a disulfide crossover between F(ab) arms in the agonistic forms, independently of epitope, as observed in the determined crystallographic structures. This structural “switch” affects directly on antibody conformation and flexibility. Small-angle x-ray scattering and ensemble modeling demonstrated that the least flexible variants adopt the fewest conformations and evoke the highest levels of receptor agonism. This covalent change may be amenable for broad implementation to modulate receptor signaling in an epitope-independent manner in future therapeutics.
Antibody, Cancer, Crystallography, Structural biology
1-11
Orr, Christian M.
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Fisher, Hayden
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Yu, Xiaojie
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Chan, Claude H.T.
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Gao, Yunyun
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Duriez, Patrick
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Booth, Steven
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Elliott, Isabel, Grace
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Inzhelevskaya, Tatyana
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Mockridge, Christopher
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Penfold, Christine
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Wagner, Armin
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Glennie, Martin
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White, Ann L
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Essex, Jonathan W.
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Pearson, Arwen R.
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Cragg, Mark
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Tews, Ivo
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8 July 2022
Orr, Christian M.
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Fisher, Hayden
160b3dea-4f68-4638-b2a3-48757c0efd73
Yu, Xiaojie
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Chan, Claude H.T.
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Gao, Yunyun
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Duriez, Patrick
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Booth, Steven
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Elliott, Isabel, Grace
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Inzhelevskaya, Tatyana
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Mockridge, Christopher
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Penfold, Christine
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Wagner, Armin
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Glennie, Martin
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White, Ann L
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Essex, Jonathan W.
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Pearson, Arwen R.
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Cragg, Mark
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Tews, Ivo
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Orr, Christian M., Fisher, Hayden, Yu, Xiaojie, Chan, Claude H.T., Gao, Yunyun, Duriez, Patrick, Booth, Steven, Elliott, Isabel, Grace, Inzhelevskaya, Tatyana, Mockridge, Christopher, Penfold, Christine, Wagner, Armin, Glennie, Martin, White, Ann L, Essex, Jonathan W., Pearson, Arwen R., Cragg, Mark and Tews, Ivo
(2022)
Hinge disulfides in human IgG2 CD40 antibodies modulate receptor signaling by regulation of conformation and flexibility.
Science immunology, 7 (73), , [eabm3723].
(doi:10.1126/sciimmunol.abm3723).
Abstract
Antibodies protect from infection, underpin successful vaccines and elicit therapeutic responses in otherwise untreatable cancers and autoimmune conditions. The human IgG2 isotype displays a unique capacity to undergo disulfide shuffling in the hinge region, leading to modulation of its ability to drive target receptor signaling (agonism) in a variety of important immune receptors, through hitherto unexplained molecular mechanisms. To address the underlying process and reveal how hinge disulfide orientation affects agonistic activity, we generated a series of cysteine to serine exchange variants in the hinge region of the clinically relevant monoclonal antibody ChiLob7/4, directed against the key immune receptor CD40. We report how agonistic activity varies with disulfide pattern and is afforded by the presence of a disulfide crossover between F(ab) arms in the agonistic forms, independently of epitope, as observed in the determined crystallographic structures. This structural “switch” affects directly on antibody conformation and flexibility. Small-angle x-ray scattering and ensemble modeling demonstrated that the least flexible variants adopt the fewest conformations and evoke the highest levels of receptor agonism. This covalent change may be amenable for broad implementation to modulate receptor signaling in an epitope-independent manner in future therapeutics.
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Accepted/In Press date: 20 May 2022
e-pub ahead of print date: 8 July 2022
Published date: 8 July 2022
Additional Information:
Funding Information:
Funding was provided by CRUK grants C1477/A10834, C1477/A20537, C34999/ A18087, and C328/A25139 as well as EU FP7 grant 602262-2. IRIDIS is funded by the University of Southampton. Time on the JADE High Performance Computing Facilities was awarded through the HECBioSim consortium (EPSRC grant EP/R029407/1). C.M.O. was funded by a studentship from Cancer Sciences, University of Southampton, University of Hamburg alongside a Vice Chancellor’s award to A.L.W. C.M.O. and A.R.P. were supported by the Cluster of Excellence “The Hamburg Centre for Ultrafast Imaging” of the Deutsche Forschungsgemeinschaft (DFG EXC1074). H.F. was funded by a studentship from CRUK and the School of Biological Sciences, University of Southampton. X.Y. is funded by a Faculty of Medicine Careertrack award and the Centre for Cancer Immunology TalentFund. I.E. is supported by a studentship from CRUK relating to programme DRCDDRPGMApr2020\100005. Y.G. was supported by a studentship from the International Max Planck Research School for Ultrafast Imaging and Structural Dynamics (UFAST). A.R.P. is supported by the Cluster of Excellence “CUI: Advanced Imaging of Matter” (DFG EXC 2056). We acknowledge Diamond Light Source for time on Beamlines I03 and I23 under proposal 22563.
Publisher Copyright:
Copyright © 2022 The Authors, some rights reserved.
Keywords:
Antibody, Cancer, Crystallography, Structural biology
Identifiers
Local EPrints ID: 467673
URI: http://eprints.soton.ac.uk/id/eprint/467673
ISSN: 2470-9468
PURE UUID: 557d44b2-700b-4ab3-90b3-5288c569dd3f
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Date deposited: 19 Jul 2022 16:36
Last modified: 17 Mar 2024 04:08
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Contributors
Author:
Christian M. Orr
Author:
Hayden Fisher
Author:
Xiaojie Yu
Author:
Claude H.T. Chan
Author:
Yunyun Gao
Author:
Patrick Duriez
Author:
Steven Booth
Author:
Isabel, Grace Elliott
Author:
Tatyana Inzhelevskaya
Author:
Christopher Mockridge
Author:
Christine Penfold
Author:
Armin Wagner
Author:
Ann L White
Author:
Arwen R. Pearson
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