Abstract

Abstract Ovarian cancer (OC) represents the deadliest gynecologic malignancy. Despite important advances in the field of OC therapy, recurrent OC still has very poor prognosis with a median survival of 1 year. Due to the close interaction between the ovarian cancer cells and tumor microenvironment, development of treatment strategies which not only target the tumor cells but also the components of the tumor microenvironment hold significance. Notably, a prime obstacle in the development of therapies is to identify targets with specific expression limited to the tumor surface and not the healthy tissues. The follicle-stimulating hormone receptor (FSHR) is one such target with selective expression in ovarian granulosa cells and thus, a potentially important therapeutic target in OC. Therefore, we developed monoclonal antibodies against FSHR and focused on studies of the most potent of these reagents. Anti-FSHR antibody bound to diverse FSHR expressing ovarian serous and clear cell adenocarcinoma cells suggesting these antibodies could be used to specifically target OC. We then designed a novel DNA encoded bispecific T cell engager targeting FSHR (FSHRxCD3) and evaluated this bispecific in therapeutic models for the treatment of OC. FSHRxCD3 bispecific in the presence of human PBMCs was highly specific in killing FSHR positive ovarian tumor lines. However, T cell approaches alone may not be fully effective in treating OC, referred as Immunologically “Cold” Tumors. Hence, we hypothesized that engaging the other components of immune system, would provide better tumor control. Increasing lines of evidence suggest that OC is receptive to Natural killer (NK) cell attack. We designed antibodies against human Siglec-7, an inhibitory receptor present on human NK cells and showed they could bind to NK cells. We then used these to create a novel class of bispecific NK engager (NKE) that simultaneously targets both Siglec-7 and FSHR (Siglec-7xFSHR). This NKE was potent at killing FSHR positive OC targets in both in vitro and in vivo assays. Multiple Ovarian tumors including BRCA mutated and PARPi resistant ovarian cancer cells could be targeted by this immune therapy. Our data demonstrate the therapeutic potential of these two novel bispecific molecules and initial studies suggest that their combination may be valuable in patients with OC. Citation Format: Devivasha Bordoloi, Pratik Bhojnagarwala, Abhijeet J. Kulkarni, Opeyemi S. Adeniji, Alfredo Perales-Puchalt, Ryan P. O’Connell, Xizhou Zhu, Elizabeth M. Parzych, Rugang Zhang, Mohamed Abdel-Mohsen, David B. Weiner. Immunotherapy of ovarian cancer targeting FSHR by innate and adaptive immunity [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 4262.

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