Phosphoproteomic response mapping to anti-angiogenic agents bevacizumab and cediranib in high-grade serous ovarian and endometrial cancer cell lines

Objectives: Antiangiogenics have become a cornerstone of treatment in advanced stage and recurrent high grade serous ovarian cancer. Both cediranib (ICON6) and bevacizumab (ICON7, GOG218) have demonstrated benefit as a maintenance treatment for ovarian cancer patients in clinical trials. Investigators have also explored their role in advanced stage and recurrent endometrial carcinoma (MITO-END 2, Rose 2017, Aghajanian 2011). There have been no head to head trials in gynecologic cancers comparing cediranib to bevacizumab, although in colorectal carcinoma, phase III data suggests equivalent efficacy (HORIZON III). We hypothesize that these drugs, although both categorized as anti-angiogenics, induce unique cellular responses and sought to explore the varying impact of each agent on cell signaling using established serous cell models. Methods: CAOV3 ovarian cancer cells and Hec50 endometrial cancer cells were exposed to 1mM bevacizumab or cediranib for 24 hours. Cell lysates were analyzed in duplicate using an antibody-based phosphoproteomic array of 875 phosphoproteins supplied by Kinexus Bioinformatics (Vancouver, BC). Priority signaling effects were defined for each drug and in each cell line as those with a significant (>75%) change from control with an acceptable sum of error ( Results: Bevacizumab yielded 13 total leads, and cediranib yielded 9 in CAOV3 ovarian cancer cells (Table 1). Both agents significantly enhanced signaling events on the following epitopes: ABl, EZH2, HGK (2 sites), and IGF1R, indicating that these may be some of the core cellular effects of anti-angiogenic agents. Interestingly, all common leads induced by both agents in CAOV3 cells represent potential pro-oncogenic effects. In Hec50 cells (Table 1), both cediranib and bevacizumab treatment induced a unique set of phosphoproteins compared to the effects of these agents in CAOV3 cells, yet common findings were the phosphorylation of IGFR1 by bevacizumab and the activation of alternative MAP kinases in both cell lines. Download : Download high-res image (128KB) Download : Download full-size image Conclusions: Angiogenesis plays a crucial role in tumor development and metastasis. Blocking angiogenesis using monoclonal antibodies such as bevacizumab or tyrosine kinase inhibitors such as cediranib is a strategy that is proving to be helpful in the care of patients with gynecologic malignancies. These molecular agents have both on-target, therapeutic effects but also may induce pathways of resistance. In these comprehensive phosphoproteomic mapping studies, we noted the activation of signaling pathways which were cell and drug specific. One consistent finding was the enhanced phosphorylation of IGFR1 and alternative MAP kinases that may portend eventual drug resistance.