GS-626510

Ovarian cancer has the propensity for early dissemination of microscopic metastases, making early detection challenging. Development of treatments for patients with advanced/recurrent chemotherapy-resistant disease remains an unmet need. We sequenced primary, synchronous bilateral ovarian cancer (SBOC), metastatic, and recurrent ovarian tumors. We found primary and metastatic tumors to be remarkably similar and SBOC to be clonally related in all cases, suggesting early dissemination to represent an intrinsic feature of ovarian cancer. c-MYC and PIK3CA amplifications were prevalent and maintained in progression to metastasis and enriched in tumor recurrence. c-MYC amplified chemotherapy-resistant cell lines and xenografts were sensitive to JQ1 and GS-626510, suggesting Bromodomain and Extra-Terminal motif (BET) inhibitors as effective targeted agents in patients with c-MYC–amplified recurrent/chemotherapy-resistant ovarian tumors.

Purpose: Uterine serous carcinoma (USC) is a rare and aggressive variant of endometrial cancer. Whole-exome sequencing (WES) studies have recently reported c-Myc gene amplification in a large number of USCs, suggesting c-Myc as a potential therapeutic target. We investigated the activity of novel BET bromodomain inhibitors (GS-5829 and GS-626510, Gilead Sciences Inc.) and JQ1 against primary USC cultures and USC xenografts.Experimental Design: We evaluated c-Myc expression by qRT-PCR in a total of 45 USCs including fresh-frozen tumor tissues and primary USC cell lines. We also performed IHC and Western blot experiments in 8 USC tumors. USC cultures were evaluated for sensitivity to GS-5829, GS-626510, and JQ1 in vitro using proliferation, viability, and apoptosis assays. Finally, the in vivo activity of GS-5829, GS-626510, and JQ1 was studied in USC-ARK1 and USC-ARK2 mouse xenografts.Results: Fresh-frozen USC and primary USC cell lines overexpressed c-Myc when compared with normal tissues (P = 0.0009 and 0.0083, respectively). High c-Myc expression was found in 7 of 8 of primary USC cell lines tested by qRT-PCR and 5 of 8 tested by IHC. In vitro experiments demonstrated high sensitivity of USC cell lines to the exposure to GS-5829, GS-626510, and JQ1 with BET inhibitors causing a dose-dependent decrease in the phosphorylated levels of c-Myc and a dose-dependent increase in caspase activation (apoptosis). In comparative in vivo experiments, GS-5829 and/or GS-626510 were found more effective than JQ1 at the concentrations/doses used in decreasing tumor growth in both USC-ARK1 and USC-ARK2 mouse xenograft models.Conclusions: GS-5829 and GS-626510 may represent novel, highly effective therapeutics agents against recurrent/chemotherapy-resistant USC-overexpressing c-Myc. Clinical studies with GS-5829 in patients with USC harboring chemotherapy-resistant disease are warranted. Clin Cancer Res; 24(19); 4845–53. ©2018 AACR.