A mAb against surface-expressed FSHR engineered to engage adaptive immunity for ovarian cancer immunotherapy
Devivasha Bordoloi, … , Rugang Zhang, David B. Weiner
Devivasha Bordoloi, … , Rugang Zhang, David B. Weiner
Published November 22, 2022
Citation Information: JCI Insight. 2022;7(22):e162553. https://doi.org/10.1172/jci.insight.162553.
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Research Article Oncology Therapeutics

A mAb against surface-expressed FSHR engineered to engage adaptive immunity for ovarian cancer immunotherapy

Abstract

Despite advances in ovarian cancer (OC) therapy, recurrent OC remains a poor-prognosis disease. Because of the close interaction between OC cells and the tumor microenvironment (TME), it is important to develop strategies that target tumor cells and engage components of the TME. A major obstacle in the development of OC therapies is the identification of targets with expression limited to tumor surface to avoid off-target interactions. The follicle-stimulating hormone receptor (FSHR) has selective expression on ovarian granulosa cells and is expressed on 50%–70% of serous OCs. We generated mAbs targeting the external domain of FSHR using in vivo–expressed FSHR vector. By high-throughput flow analysis, we identified multiple clones and downselected D2AP11, a potent FSHR surface–targeted mAb. D2AP11 identifies important OC cell lines derived from tumors with different mutations, including BRCA1/2, and lines resistant to a wide range of therapies. We used D2AP11 to develop a bispecific T cell engager. In vitro addition of PBMCs and T cells to D2AP11-TCE induced specific and potent killing of different genetic and immune escape OC lines, with EC50s in the ng/ml range, and attenuated tumor burden in OC-challenged mouse models. These studies demonstrate the potential utility of biologics targeting FSHR for OC and perhaps other FSHR-positive cancers.

Authors

Devivasha Bordoloi, Pratik S. Bhojnagarwala, Alfredo Perales-Puchalt, Abhijeet J. Kulkarni, Xizhou Zhu, Kevin Liaw, Ryan P. O’Connell, Daniel H. Park, Daniel W. Kulp, Rugang Zhang, David B. Weiner

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Figure 5

D2AP11 binds to FSHR in immunohistochemistry and immunocytochemistry and induces ADCC.

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D2AP11 binds to FSHR in immunohistochemistry and immunocytochemistry and...
(A) Immunohistochemistry images from frozen sections of tumors derived from K562, K562-FSHR, OVCAR3, and TOV21G cell lines stained with D2AP11. Original magnification, ×40; scale bars: 50 μm. (B) Immunofluorescence images of 293T cells transfected with human FSHR and stained with either mouse anti–human FSHR or D2AP11 antibodies followed by secondary anti-mouse IgG. (C) Immunofluorescence images of untransfected 293T cells stained with D2AP11 antibodies followed by secondary anti-mouse IgG. Scale bars: 10 μm (B and C). (D) Absorbance values of isotype ELISA performed on D2AP11 antibody. (E) Cytotoxicity mediated by antibody-dependent cell-mediated cytotoxicity (ADCC) of D2AP11 or irrelevant mouse IgG2a (C1.18.4) against K562-FSHR. (F) Cytotoxicity mediated by ADCC of D2AP11 or irrelevant mouse IgG2a (C1.18.4) against K562. (G) Cytotoxicity mediated by ADCC of D2AP11 or irrelevant mouse IgG2a (C1.18.4) against OVCAR3 cells. Error bars represent mean ± SEM; all the experiments were done in triplicate. t test and ANOVA. ***P < 0.001.