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Engineering multivalent antibodies to target heregulin-induced HER3 signaling in breast cancer cells

Engineering multivalent antibodies to target heregulin-induced HER3 signaling in breast cancer cells
Engineering multivalent antibodies to target heregulin-induced HER3 signaling in breast cancer cells

The use of antibodies in therapy and diagnosis has undergone an unprecedented expansion during the past two decades. This is due in part to innovations in antibody engineering that now offer opportunities for the production of "second generation" antibodies with multiple specificities or altered valencies. The targeting of individual components of the human epidermal growth factor receptor (HER)3-PI3K signaling axis, including the preferred heterodimerization partner HER2, is known to have limited anti-tumor effects. The efficacy of antibodies or small molecule tyrosine kinase inhibitors (TKIs) in targeting this axis is further reduced by the presence of the HER3 ligand, heregulin. To address these shortcomings, we performed a comparative analysis of two distinct approaches toward reducing the proliferation and signaling in HER2 overexpressing tumor cells in the presence of heregulin. These strategies both involve the use of engineered antibodies in combination with the epidermal growth factor receptor (EGFR)/HER2 specific TKI, lapatinib. In the first approach, we generated a bispecific anti-HER2/HER3 antibody that, in the presence of lapatinib, is designed to sequester HER3 into inactive HER2-HER3 dimers that restrain HER3 interactions with other possible dimerization partners. The second approach involves the use of a tetravalent anti-HER3 antibody with the goal of inducing efficient HER3 internalization and degradation. In combination with lapatinib, we demonstrate that although the multivalent HER3 antibody is more effective than its bivalent counterpart in reducing heregulin-mediated signaling and growth, the bispecific HER2/HER3 antibody has increased inhibitory activity. Collectively, these observations provide support for the therapeutic use of bispecifics in combination with TKIs to recruit HER3 into complexes that are functionally inert.

Antibody engineering, Bispecific antibody, HER2, HER3, Receptor internalization
1942-0862
340-353
Kang, Jeffrey C.
a3dfd242-a85c-475e-9b98-a6a79db7a93c
Poovassery, Jayakumar S.
5a6eea84-0aef-4cef-8e50-e6e3c416472d
Bansal, Pankaj
912367d9-bcdd-4a8c-a7dd-8ee4f9ed6691
You, Sungyong
06e1ba5a-2d3a-4267-9bfd-ac5abeff555b
Manjarres, Isabel M.
7b5eb8e7-47e7-428c-a9c5-fa2af8d26aa4
Ober, Raimund J.
31f4d47f-fb49-44f5-8ff6-87fc4aff3d36
Ward, E. Sally
b31c0877-8abe-485f-b800-244a9d3cd6cc
Kang, Jeffrey C.
a3dfd242-a85c-475e-9b98-a6a79db7a93c
Poovassery, Jayakumar S.
5a6eea84-0aef-4cef-8e50-e6e3c416472d
Bansal, Pankaj
912367d9-bcdd-4a8c-a7dd-8ee4f9ed6691
You, Sungyong
06e1ba5a-2d3a-4267-9bfd-ac5abeff555b
Manjarres, Isabel M.
7b5eb8e7-47e7-428c-a9c5-fa2af8d26aa4
Ober, Raimund J.
31f4d47f-fb49-44f5-8ff6-87fc4aff3d36
Ward, E. Sally
b31c0877-8abe-485f-b800-244a9d3cd6cc

Kang, Jeffrey C., Poovassery, Jayakumar S., Bansal, Pankaj, You, Sungyong, Manjarres, Isabel M., Ober, Raimund J. and Ward, E. Sally (2014) Engineering multivalent antibodies to target heregulin-induced HER3 signaling in breast cancer cells. mAbs, 6 (2), 340-353. (doi:10.4161/mabs.27658).

Record type: Article

Abstract

The use of antibodies in therapy and diagnosis has undergone an unprecedented expansion during the past two decades. This is due in part to innovations in antibody engineering that now offer opportunities for the production of "second generation" antibodies with multiple specificities or altered valencies. The targeting of individual components of the human epidermal growth factor receptor (HER)3-PI3K signaling axis, including the preferred heterodimerization partner HER2, is known to have limited anti-tumor effects. The efficacy of antibodies or small molecule tyrosine kinase inhibitors (TKIs) in targeting this axis is further reduced by the presence of the HER3 ligand, heregulin. To address these shortcomings, we performed a comparative analysis of two distinct approaches toward reducing the proliferation and signaling in HER2 overexpressing tumor cells in the presence of heregulin. These strategies both involve the use of engineered antibodies in combination with the epidermal growth factor receptor (EGFR)/HER2 specific TKI, lapatinib. In the first approach, we generated a bispecific anti-HER2/HER3 antibody that, in the presence of lapatinib, is designed to sequester HER3 into inactive HER2-HER3 dimers that restrain HER3 interactions with other possible dimerization partners. The second approach involves the use of a tetravalent anti-HER3 antibody with the goal of inducing efficient HER3 internalization and degradation. In combination with lapatinib, we demonstrate that although the multivalent HER3 antibody is more effective than its bivalent counterpart in reducing heregulin-mediated signaling and growth, the bispecific HER2/HER3 antibody has increased inhibitory activity. Collectively, these observations provide support for the therapeutic use of bispecifics in combination with TKIs to recruit HER3 into complexes that are functionally inert.

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Engineering multivalent antibodies to target heregulin-induced HER3 signaling in breast cancer cells - Version of Record
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Accepted/In Press date: 23 December 2013
e-pub ahead of print date: 26 December 2013
Published date: 2014
Keywords: Antibody engineering, Bispecific antibody, HER2, HER3, Receptor internalization

Identifiers

Local EPrints ID: 423650
URI: http://eprints.soton.ac.uk/id/eprint/423650
ISSN: 1942-0862
PURE UUID: 9dc4ca9a-7b46-40e0-867e-170241bfeca5
ORCID for Raimund J. Ober: ORCID iD orcid.org/0000-0002-1290-7430
ORCID for E. Sally Ward: ORCID iD orcid.org/0000-0003-3232-7238

Catalogue record

Date deposited: 27 Sep 2018 16:30
Last modified: 18 Mar 2024 03:48

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Contributors

Author: Jeffrey C. Kang
Author: Jayakumar S. Poovassery
Author: Pankaj Bansal
Author: Sungyong You
Author: Isabel M. Manjarres
Author: Raimund J. Ober ORCID iD
Author: E. Sally Ward ORCID iD

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