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Enzymatic inactivation of endogenous IgG by IdeS enhances therapeutic antibody efficacy

Enzymatic inactivation of endogenous IgG by IdeS enhances therapeutic antibody efficacy
Enzymatic inactivation of endogenous IgG by IdeS enhances therapeutic antibody efficacy
Endogenous plasma IgG sets an immunologic threshold that dictates the activity of tumor-directed therapeutic antibodies. Saturation of cellular antibody receptors by endogenous antibody limits antibody-dependent cell-mediated cytotoxicity (ADCC) and antibody-dependent cellular phagocytosis (ADCP). Here, we show how enzymatic cleavage of IgG using the bacterial enzyme IdeS can be utilized to empty both high and low affinity Fcγ-receptors and clear the entire endogenous antibody pool. Using in vitro models, tumor animal models as well as ex vivo analysis of sera collected during a previous clinical trial with IdeS, we show how clearing of competing plasma antibody levels with IdeS unblocks cellular antibody receptors. We show that therapeutic antibodies against breast cancer (trastuzumab), colon cancer (cetuximab), and lymphomas (rituximab and alemtuzumab) can be potentiated when endogenous IgG is removed. Overall, IdeS is shown to be a potent tool to reboot the human antibody repertoire and to generate a window to preferentially load therapeutic antibodies onto effector cells and thereby create an armada of dedicated tumor-seeking immune cells.
1535-7163
1887-1897
Järnum, Sofia
9edf237d-45d0-4485-9c0f-61e2d0c6f1fe
Runström, Anna
091a9787-e050-4bd3-bbb3-a773f12c012d
Bockermann, Robert
4f33d895-d960-47ef-8367-6d6235e77531
Winstedt, Lena
f34c9eea-1917-4eb6-946d-cf7745194629
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Kjellman, Christian
04f6fdac-f220-4b46-8bf5-385bcd75c559
Järnum, Sofia
9edf237d-45d0-4485-9c0f-61e2d0c6f1fe
Runström, Anna
091a9787-e050-4bd3-bbb3-a773f12c012d
Bockermann, Robert
4f33d895-d960-47ef-8367-6d6235e77531
Winstedt, Lena
f34c9eea-1917-4eb6-946d-cf7745194629
Crispin, Max
cd980957-0943-4b89-b2b2-710f01f33bc9
Kjellman, Christian
04f6fdac-f220-4b46-8bf5-385bcd75c559

Järnum, Sofia, Runström, Anna, Bockermann, Robert, Winstedt, Lena, Crispin, Max and Kjellman, Christian (2017) Enzymatic inactivation of endogenous IgG by IdeS enhances therapeutic antibody efficacy. Molecular Cancer Therapeutics, 16 (9), 1887-1897. (doi:10.1158/1535-7163.MCT-17-0108).

Record type: Article

Abstract

Endogenous plasma IgG sets an immunologic threshold that dictates the activity of tumor-directed therapeutic antibodies. Saturation of cellular antibody receptors by endogenous antibody limits antibody-dependent cell-mediated cytotoxicity (ADCC) and antibody-dependent cellular phagocytosis (ADCP). Here, we show how enzymatic cleavage of IgG using the bacterial enzyme IdeS can be utilized to empty both high and low affinity Fcγ-receptors and clear the entire endogenous antibody pool. Using in vitro models, tumor animal models as well as ex vivo analysis of sera collected during a previous clinical trial with IdeS, we show how clearing of competing plasma antibody levels with IdeS unblocks cellular antibody receptors. We show that therapeutic antibodies against breast cancer (trastuzumab), colon cancer (cetuximab), and lymphomas (rituximab and alemtuzumab) can be potentiated when endogenous IgG is removed. Overall, IdeS is shown to be a potent tool to reboot the human antibody repertoire and to generate a window to preferentially load therapeutic antibodies onto effector cells and thereby create an armada of dedicated tumor-seeking immune cells.

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Accepted/In Press date: 19 May 2017
e-pub ahead of print date: 22 May 2017
Published date: 1 September 2017

Identifiers

Local EPrints ID: 415838
URI: http://eprints.soton.ac.uk/id/eprint/415838
DOI: doi:10.1158/1535-7163.MCT-17-0108
ISSN: 1535-7163
PURE UUID: 5496632a-6a90-4913-9392-b471e4d77e90
ORCID for Max Crispin: ORCID iD orcid.org/0000-0002-1072-2694

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Date deposited: 24 Nov 2017 17:30
Last modified: 16 Mar 2024 04:30

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Author: Sofia Järnum
Author: Anna Runström
Author: Robert Bockermann
Author: Lena Winstedt
Author: Max Crispin ORCID iD
Author: Christian Kjellman

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