Abstract B016: Costimulatory T-cell engagement by PRS-343, a CD137 (4-1BB)/HER2 bispecific, leads to tumor growth inhibition and TIL expansion in humanized mouse model

Background: CD137 (4-1BB) is a key costimulatory immunoreceptor and a member of the TNF-receptor (TNFR) superfamily. While multiple lines of evidence show that CD137 is a highly promising therapeutic target in cancer, current mAb-based approaches are not designed to achieve a tumor-target driven act...

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Published in:Cancer immunology research 2016-11, Vol.4 (11_Supplement), p.B016-B016
Main Authors: Hinner, Marlon J., Bel Aiba, Rachida-Siham, Schlosser, Corinna, Jaquin, Thomas, Allersdorfer, Andrea, Berger, Sven, Wiedenmann, Alexander, Matschiner, Gabriele, Schüler, Julia, Moebius, Ulrich, Rothe, Christine, Olwill, Shane A.
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Language:English
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Summary:Background: CD137 (4-1BB) is a key costimulatory immunoreceptor and a member of the TNF-receptor (TNFR) superfamily. While multiple lines of evidence show that CD137 is a highly promising therapeutic target in cancer, current mAb-based approaches are not designed to achieve a tumor-target driven activation and may display toxicity and a limited therapeutic window due to peripheral T cell and NK cell activation. To overcome this limitation, we generated PRS-343, a CD137/HER2 bispecific that is designed to promote CD137 clustering by bridging CD137-positive T cells with HER2-positive tumor cells, thereby providing a potent costimulatory signal to tumor antigen-specific T cells. Methods: Anticalin® proteins are 18 kD protein therapeutics derived from human lipocalins. We utilized phage display to generate an Anticalin protein binding to CD137 with high affinity and specificity. PRS-343 was obtained by genetic fusion of the CD137-specific Anticalin protein to a variant of the HER2-targeting monoclonal antibody trastuzumab with an engineered IgG4 backbone. We have shown previously that the bispecific fusion PRS-343 targets CD137 and HER2 in a bispecific manner and efficiently activates T cells ex vivo in the presence of HER2-positive cells. Here, in vivo proof of concept data is presented utilizing a humanized mouse model in immunocompromised mice and the SK-OV-3 cell line as a HER2-positive xenograft. When tumors had reached a predefined size, mice received human PBMC via an intravenous route and weekly intraperitoneal injections of PRS-343 for three weeks. An IgG4 isotype antibody served as the negative control, while a CD137-targeting benchmark antibody and trastuzumab with an engineered IgG4 backbone (“tras-IgG4”) served as controls for monospecific targeting of CD137 and HER2, respectively. Results: PRS-343 activity was investigated at four different weekly doses of PRS-343 (4μg, 20μg, 100μg and 200μg). We found that PRS-343 dose-dependently led to strong tumor growth inhibition compared to treatment with the isotype control, and that the tumor response was accompanied by a significantly higher tumor infiltration with human lymphocytes (hCD45+). Interestingly, the anti-CD137 benchmark neither displayed tumor growth inhibition nor enhanced lymphocyte infiltration into tumors compared to isotype. The tras-IgG4 control was also devoid of lymphocyte infiltration into the tumor, but displayed a tumor growth inhibition comparable to PRS-343. Taken together, thes
ISSN:2326-6066
2326-6074
DOI:10.1158/2326-6066.IMM2016-B016