Abstract 1129: Interrogating JAK/STAT signaling in ovarian cancer as a potential oncogenic driver and therapeutic target

Abstract

Abstract Ovarian cancer is the 7th most common cancer in women. It is the most fatal of all female reproductive cancers, due to the 5-year overall survival of 10-30% and over half of patients being diagnosed with late-stage disease. Despite initial response to front line platinum- and taxol-based chemotherapies, over 70% of patients develop recurrent and chemotherapy resistant disease and nearly all of these women die of their disease. Recently, the use of targeted therapies such as bevacizumab and PARP inhibitors have been shown to improve progression-free survival. However, these regimens have thus far failed to improve overall survival in patients without specific genetic signatures, highlighting the urgent need for alternative therapies. We have identified lestaurtinib as a potent inhibitor of many ovarian cancer cell lines, including platinum and PARP inhibitor resistant models, and patient derived organoid models. RNA-sequencing following lestaurtinib treatment identified JAK/STAT signaling as one of the most profoundly downregulated pathways. Additionally, it was recently reported via single cell RNA sequencing of patient tumors that downstream mediators of the JAK/STAT pathway are among the most highly expressed genes in ovarian tumor cells. Further, we have discovered that STAT1 and STAT3 are constitutively activated in chemotherapy and PARP inhibitor resistant cell lines as reflected by high levels of Tyr701/705 and Ser727 phosphorylation suggesting induction of this pathway may drive resistance. Selective siRNA-mediated knockdown of STAT1/3 resulted in significant growth inhibition confirming their importance in maintaining cell viability. Surprisingly, we have identified profound differences in the ability of various JAK/STAT inhibitors to suppress ovarian cancer cell growth. For example, ruxolitinib, the only JAK/STAT inhibitor currently in clinical trials for ovarian cancer, failed to inhibit the growth sensitive, platinum resistant or PARP inhibitor resistant cell lines. Our preliminary data indicate that JAK/STAT inhibitor efficacy in preventing ovarian cancer cell growth is related to their ability to block specific phosphorylation events on STAT1/3 proteins. We believe that precise and selective inhibition of STAT1 and STAT3 signaling represents a robust, durable, and novel approach for the treatment of highly aggressive and resistant forms of ovarian cancer. Further we plan to elucidate the molecular mechanisms by which STAT1 and STAT3 function to support ovarian cancer cell viability and growth, in order to substantially advance our understanding of JAK/STAT signaling in ovarian cancer and to identify the most effective ways to pharmacologically inhibit JAK/STAT signaling in ovarian cancer cells. Outcomes from this work will have both immediate and long-term impacts for our patients and will lay the foundation for future biomarker-driven clinical trials. Citation Format: Esther Rodman, Michael Emch, Elizabeth Bruinsma, Xiaonan Hou, John Weroha, John Hawse. Interrogating JAK/STAT signaling in ovarian cancer as a potential oncogenic driver and therapeutic target [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 1129.