Targeted complement inhibition using bispecific antibodies that bind local antigens and endogenous complement regulators

Haiyu Wang; Fleur S. van de Bovenkamp; Douwe J. Dijkstra; Leoni Abendstein; Nicole V. Borggreven; Jos Pool; Rob Zuijderduijn; Christoph Gstoettner; Kyra A. Gelderman; Timon Damelang; Gestur Vidarsson; Anna M. Blom; Elena Dominguez-Vega; Paul W. H. I. Parren; Thomas H. Sharp; Leendert A. Trouw

doi:10.3389/fimmu.2024.1288597

Targeted complement inhibition using bispecific antibodies that bind local antigens and endogenous complement regulators

Haiyu Wang, Fleur S. van de Bovenkamp, Douwe J. Dijkstra, Leoni Abendstein, Nicole V. Borggreven, Jos Pool, Rob Zuijderduijn, Christoph Gstoettner, Kyra A. Gelderman, Timon Damelang, Gestur Vidarsson, Anna M. Blom, Elena Dominguez-Vega, Paul W. H. I. Parren, Thomas H. Sharp, Leendert A. Trouw

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Complement activation protects against infection but also contributes to pathological mechanisms in a range of clinical conditions such as autoimmune diseases and transplant rejection. Complement-inhibitory drugs, either approved or in development, usually act systemically, thereby increasing the risk for infections. We therefore envisioned a novel class of bispecific antibodies (bsAbs) which are capable of site-directed complement inhibition by bringing endogenous complement regulators in the vicinity of defined cell surface antigens. Here, we analyzed a comprehensive set of obligate bsAbs designed to crosslink a specific target with either complement regulator factor H (FH) or C4b-binding protein (C4BP). The bsAbs were assessed for their capacity to inhibit complement activation and cell lysis in an antigen-targeted manner. We observed that the bsAbs inhibited classical, lectin, and alternative pathway complement activation in which sufficient endogenous serum FH and C4BP could be recruited to achieve local inhibition. Importantly, the bsAbs effectively protected antigen-positive liposomes, erythrocytes, and human leukocytes from complement-mediated lysis. In conclusion, localized complement inhibition by bsAbs capable of recruiting endogenous human complement regulators (such as FH or C4BP) to cell surfaces potentially provides a novel therapeutic approach for the targeted treatment of complement-mediated diseases.

Original language	English
Article number	1288597
Pages (from-to)	1-13
Number of pages	13
Journal	Frontiers in Immunology
Volume	15
DOIs	https://doi.org/10.3389/fimmu.2024.1288597
Publication status	Published - 16 May 2024

Bibliographical note

Publisher Copyright:
Copyright © 2024 Wang, van de Bovenkamp, Dijkstra, Abendstein, Borggreven, Pool, Zuijderduijn, Gstöttner, Gelderman, Damelang, Vidarsson, Blom, Domínguez-Vega, Parren, Sharp and Trouw.

Funding

The author(s) declare financial support was received for the research, authorship, and/or publication of this article. LT has received funding from the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation program (grant agreement no. 724517). HW was financially supported by a grant from the Chinese Scholarschip Counsil number: 202006210040.CSC. The author(s) declare financial support was received for the research, authorship, and/or publication of this article. LT has received funding from the European Research Council (ERC) under the European Union\u2019s Horizon 2020 research and innovation program (grant agreement no. 724517). HW was financially supported by a grant from the Chinese Scholarschip Counsil number: 202006210040.CSC. Acknowledgments

Funders	Funder number
European Research Council
Horizon 2020 Framework Programme	724517, 202006210040
Horizon 2020 Framework Programme

Keywords

Antibobies
Autoimmunity
Complement
Inhibition
Targeted

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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Wang, H., van de Bovenkamp, F. S., Dijkstra, D. J., Abendstein, L., Borggreven, N. V., Pool, J., Zuijderduijn, R., Gstoettner, C., Gelderman, K. A., Damelang, T., Vidarsson, G., Blom, A. M., Dominguez-Vega, E., Parren, P. W. H. I., Sharp, T. H., & Trouw, L. A. (2024). Targeted complement inhibition using bispecific antibodies that bind local antigens and endogenous complement regulators. Frontiers in Immunology, 15, 1-13. Article 1288597. https://doi.org/10.3389/fimmu.2024.1288597

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title = "Targeted complement inhibition using bispecific antibodies that bind local antigens and endogenous complement regulators",

abstract = "Complement activation protects against infection but also contributes to pathological mechanisms in a range of clinical conditions such as autoimmune diseases and transplant rejection. Complement-inhibitory drugs, either approved or in development, usually act systemically, thereby increasing the risk for infections. We therefore envisioned a novel class of bispecific antibodies (bsAbs) which are capable of site-directed complement inhibition by bringing endogenous complement regulators in the vicinity of defined cell surface antigens. Here, we analyzed a comprehensive set of obligate bsAbs designed to crosslink a specific target with either complement regulator factor H (FH) or C4b-binding protein (C4BP). The bsAbs were assessed for their capacity to inhibit complement activation and cell lysis in an antigen-targeted manner. We observed that the bsAbs inhibited classical, lectin, and alternative pathway complement activation in which sufficient endogenous serum FH and C4BP could be recruited to achieve local inhibition. Importantly, the bsAbs effectively protected antigen-positive liposomes, erythrocytes, and human leukocytes from complement-mediated lysis. In conclusion, localized complement inhibition by bsAbs capable of recruiting endogenous human complement regulators (such as FH or C4BP) to cell surfaces potentially provides a novel therapeutic approach for the targeted treatment of complement-mediated diseases.",

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author = "Haiyu Wang and {van de Bovenkamp}, {Fleur S.} and Dijkstra, {Douwe J.} and Leoni Abendstein and Borggreven, {Nicole V.} and Jos Pool and Rob Zuijderduijn and Christoph Gstoettner and Gelderman, {Kyra A.} and Timon Damelang and Gestur Vidarsson and Blom, {Anna M.} and Elena Dominguez-Vega and Parren, {Paul W. H. I.} and Sharp, {Thomas H.} and Trouw, {Leendert A.}",

note = "Publisher Copyright: Copyright {\textcopyright} 2024 Wang, van de Bovenkamp, Dijkstra, Abendstein, Borggreven, Pool, Zuijderduijn, Gst{\"o}ttner, Gelderman, Damelang, Vidarsson, Blom, Dom{\'i}nguez-Vega, Parren, Sharp and Trouw.",

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Wang, H, van de Bovenkamp, FS, Dijkstra, DJ, Abendstein, L, Borggreven, NV, Pool, J, Zuijderduijn, R, Gstoettner, C, Gelderman, KA, Damelang, T, Vidarsson, G, Blom, AM, Dominguez-Vega, E, Parren, PWHI, Sharp, TH & Trouw, LA 2024, 'Targeted complement inhibition using bispecific antibodies that bind local antigens and endogenous complement regulators', Frontiers in Immunology, vol. 15, 1288597, pp. 1-13. https://doi.org/10.3389/fimmu.2024.1288597

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AU - Wang, Haiyu

AU - van de Bovenkamp, Fleur S.

AU - Dijkstra, Douwe J.

AU - Abendstein, Leoni

AU - Borggreven, Nicole V.

AU - Pool, Jos

AU - Zuijderduijn, Rob

AU - Gstoettner, Christoph

AU - Gelderman, Kyra A.

AU - Damelang, Timon

AU - Vidarsson, Gestur

AU - Blom, Anna M.

AU - Dominguez-Vega, Elena

AU - Parren, Paul W. H. I.

AU - Sharp, Thomas H.

AU - Trouw, Leendert A.

N1 - Publisher Copyright: Copyright © 2024 Wang, van de Bovenkamp, Dijkstra, Abendstein, Borggreven, Pool, Zuijderduijn, Gstöttner, Gelderman, Damelang, Vidarsson, Blom, Domínguez-Vega, Parren, Sharp and Trouw.

PY - 2024/5/16

Y1 - 2024/5/16

N2 - Complement activation protects against infection but also contributes to pathological mechanisms in a range of clinical conditions such as autoimmune diseases and transplant rejection. Complement-inhibitory drugs, either approved or in development, usually act systemically, thereby increasing the risk for infections. We therefore envisioned a novel class of bispecific antibodies (bsAbs) which are capable of site-directed complement inhibition by bringing endogenous complement regulators in the vicinity of defined cell surface antigens. Here, we analyzed a comprehensive set of obligate bsAbs designed to crosslink a specific target with either complement regulator factor H (FH) or C4b-binding protein (C4BP). The bsAbs were assessed for their capacity to inhibit complement activation and cell lysis in an antigen-targeted manner. We observed that the bsAbs inhibited classical, lectin, and alternative pathway complement activation in which sufficient endogenous serum FH and C4BP could be recruited to achieve local inhibition. Importantly, the bsAbs effectively protected antigen-positive liposomes, erythrocytes, and human leukocytes from complement-mediated lysis. In conclusion, localized complement inhibition by bsAbs capable of recruiting endogenous human complement regulators (such as FH or C4BP) to cell surfaces potentially provides a novel therapeutic approach for the targeted treatment of complement-mediated diseases.

AB - Complement activation protects against infection but also contributes to pathological mechanisms in a range of clinical conditions such as autoimmune diseases and transplant rejection. Complement-inhibitory drugs, either approved or in development, usually act systemically, thereby increasing the risk for infections. We therefore envisioned a novel class of bispecific antibodies (bsAbs) which are capable of site-directed complement inhibition by bringing endogenous complement regulators in the vicinity of defined cell surface antigens. Here, we analyzed a comprehensive set of obligate bsAbs designed to crosslink a specific target with either complement regulator factor H (FH) or C4b-binding protein (C4BP). The bsAbs were assessed for their capacity to inhibit complement activation and cell lysis in an antigen-targeted manner. We observed that the bsAbs inhibited classical, lectin, and alternative pathway complement activation in which sufficient endogenous serum FH and C4BP could be recruited to achieve local inhibition. Importantly, the bsAbs effectively protected antigen-positive liposomes, erythrocytes, and human leukocytes from complement-mediated lysis. In conclusion, localized complement inhibition by bsAbs capable of recruiting endogenous human complement regulators (such as FH or C4BP) to cell surfaces potentially provides a novel therapeutic approach for the targeted treatment of complement-mediated diseases.

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KW - Autoimmunity

KW - Complement

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Targeted complement inhibition using bispecific antibodies that bind local antigens and endogenous complement regulators

Abstract

Bibliographical note

Funding

Keywords

UN SDGs

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