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Development of C1q affinity chromatography for the study of C1q-IgG interactions

Development of C1q affinity chromatography for the study of C1q-IgG interactions
Development of C1q affinity chromatography for the study of C1q-IgG interactions
The classical complement system represents a central effector mechanism of Abs initiated by the binding of C1q to target bound IgG. Human C1q contains six heterotrimeric globular head groups that mediate IgG interaction, resulting in an avidity-driven binding event involving multiple IgG molecules binding a single C1q. Accordingly, surface bound IgG molecules are thought to assemble into noncovalent hexameric rings for optimal binding to the six-headed C1q. To study the C1q–Fc interaction of various Abs and screen for altered C1q binding mutants, we developed, to our knowledge, a novel HPLC-based method. Employing a single-chain form of C1q representing one C1q head group, our HPLC methodology was able to detect the interaction between the single-chain monomeric form of C1q and various ligands. We show that, despite a narrow window of specific binding owing to the low affinity of the monomeric C1q–IgG interaction, this approach clearly distinguished between IgG subclasses with established C1q binding properties. IgG3 displayed the strongest binding, followed by IgG1, with IgG2 and IgG4 showing the weakest binding. Fc mutants known to have increased C1q binding through oligomerization or enhanced C1q interaction showed greatly increased column retention, and IgG glycovariants displayed a consistent trend of increasing retention upon increasing galactosylation and sialylation. Furthermore, the column retention of IgG isotypes and glycovariants matches both the cell surface recruitment of C1q and complement-mediated cytotoxicity induced by each variant on an anti-CD20 Ab backbone. This methodology therefore provides a valuable tool for testing IgG Ab (glyco)variants for C1q binding, with clear relevance for therapeutic Ab development.
0022-1767
1837–1848
Marshall, Michael J.E.
4db088a7-c3c0-45e6-91f6-ef307517eca3
Knaupp, Alexander
ba8892ab-365e-4618-b5b8-4c1a7c4074c4
Spick, Christian
86c9d530-e382-4e1e-9055-d9598bc36935
Koese, Ilker
c8b8d4e0-5bb9-4caa-b869-3ee764cdb584
Maier, Maria
6339eeef-e821-49be-9e43-6c0f8ac03f8b
Cragg, Mark S.
ec97f80e-f3c8-49b7-a960-20dff648b78c
Cymer, Florian
75135d40-b758-4831-8576-a0686e2d2510
Schlothauer, Tilman
2dbe2660-5eb9-4bb5-b14a-9e27d78de5c0
Marshall, Michael J.E.
4db088a7-c3c0-45e6-91f6-ef307517eca3
Knaupp, Alexander
ba8892ab-365e-4618-b5b8-4c1a7c4074c4
Spick, Christian
86c9d530-e382-4e1e-9055-d9598bc36935
Koese, Ilker
c8b8d4e0-5bb9-4caa-b869-3ee764cdb584
Maier, Maria
6339eeef-e821-49be-9e43-6c0f8ac03f8b
Cragg, Mark S.
ec97f80e-f3c8-49b7-a960-20dff648b78c
Cymer, Florian
75135d40-b758-4831-8576-a0686e2d2510
Schlothauer, Tilman
2dbe2660-5eb9-4bb5-b14a-9e27d78de5c0

Marshall, Michael J.E., Knaupp, Alexander, Spick, Christian, Koese, Ilker, Maier, Maria, Cragg, Mark S., Cymer, Florian and Schlothauer, Tilman (2023) Development of C1q affinity chromatography for the study of C1q-IgG interactions. The Journal of Immunology, 210 (11), 1837–1848. (doi:10.4049/jimmunol.2100370).

Record type: Article

Abstract

The classical complement system represents a central effector mechanism of Abs initiated by the binding of C1q to target bound IgG. Human C1q contains six heterotrimeric globular head groups that mediate IgG interaction, resulting in an avidity-driven binding event involving multiple IgG molecules binding a single C1q. Accordingly, surface bound IgG molecules are thought to assemble into noncovalent hexameric rings for optimal binding to the six-headed C1q. To study the C1q–Fc interaction of various Abs and screen for altered C1q binding mutants, we developed, to our knowledge, a novel HPLC-based method. Employing a single-chain form of C1q representing one C1q head group, our HPLC methodology was able to detect the interaction between the single-chain monomeric form of C1q and various ligands. We show that, despite a narrow window of specific binding owing to the low affinity of the monomeric C1q–IgG interaction, this approach clearly distinguished between IgG subclasses with established C1q binding properties. IgG3 displayed the strongest binding, followed by IgG1, with IgG2 and IgG4 showing the weakest binding. Fc mutants known to have increased C1q binding through oligomerization or enhanced C1q interaction showed greatly increased column retention, and IgG glycovariants displayed a consistent trend of increasing retention upon increasing galactosylation and sialylation. Furthermore, the column retention of IgG isotypes and glycovariants matches both the cell surface recruitment of C1q and complement-mediated cytotoxicity induced by each variant on an anti-CD20 Ab backbone. This methodology therefore provides a valuable tool for testing IgG Ab (glyco)variants for C1q binding, with clear relevance for therapeutic Ab development.

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Accepted/In Press date: 22 March 2023
e-pub ahead of print date: 24 April 2023
Published date: 1 June 2023

Identifiers

Local EPrints ID: 478482
URI: http://eprints.soton.ac.uk/id/eprint/478482
ISSN: 0022-1767
PURE UUID: 8f00b49b-0f74-46f1-ba3d-076dfdd50ba2
ORCID for Mark S. Cragg: ORCID iD orcid.org/0000-0003-2077-089X

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Date deposited: 04 Jul 2023 16:31
Last modified: 17 Mar 2024 07:45

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Contributors

Author: Michael J.E. Marshall
Author: Alexander Knaupp
Author: Christian Spick
Author: Ilker Koese
Author: Maria Maier
Author: Mark S. Cragg ORCID iD
Author: Florian Cymer
Author: Tilman Schlothauer

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