Abstract 1639: DP-9149, an investigational small molecule modulator of the Integrated Stress Response kinase GCN2, pre-clinically causes solid tumor growth inhibition as a single agent and regression in combination with standard of care agents

Abstract

Abstract Background: The Integrated Stress Response (ISR) is one of the major adaptive stress response pathways in cancer and plays an important role in cell fate determination. Oncogene addicted solid tumors are under high stress levels, both extrinsic as well as intrinsic, and are dependent on a well-balanced ISR pathway activity to cope with the high demand for accelerated growth. The ISR is well known to be a double edge sword of survival and cell death and depending on context, the activation of the ISR kinase, GCN2, and downstream pathway can have either cytoprotective or cytotoxic effects. Given the context-dependent nature of the ISR pathway, the inhibition or stimulation of GCN2 in solid tumors can be pharmacologically leveraged to induce anti-tumoral effects. Methods: Modulation of ISR kinases was characterized using enzymatic assays. Kinome selectivity profiling was determined using enzymatic and cellular assays. Cellular modulation of the ISR pathway (phospho-GCN2, ATF4, CHOP) or the apoptosis pathway (PARP and Caspase3/7) was assessed via Western blot or ELISA. In vivo upregulation of tumoral ATF4 was determined in a fibrosarcoma PK/PD xenograft model. In vivo inhibition of tumor growth was determined in solid tumor xenografts. Results: Selective and potent modulators of GCN2 kinase with favorable drug-like properties were designed. These compounds were found to upregulate components of the ISR pathway (phospho-GCN2, ATF4, CHOP). The mechanism by which GCN2 modulator DP-9149 treatment induced the ISR pathway was found to be through the direct binding and activation of GCN2. Upregulation of the ISR pathway downstream of GCN2 led to induction of a programmed cell death pathway in oncogene-driven solid tumor cell lines in vitro. DP-9149-mediated activation of the ISR pathway led to cell growth arrest both as a single agent and in combination with standard-of-care (SOC) agents. Furthermore, oral dosing of DP-9149 in RAS mutant and other oncogene-driven xenograft models in vivo induced ATF4, and significantly inhibited tumor growth as a single agent and in combination with SOC agents. Additionally, therapeutic agents targeting the tumor microenvironment, including anti-angiogenic agents, synergized with DP-9149 to induce tumor regressions in vivo. Conclusions: The ISR is a targetable vulnerability in oncogene addicted solid tumors. Upregulating the ISR by paradoxical activation of the ISR family member kinase, GCN2, by DP-9149 can be leveraged as a novel mechanism to cause anti-tumoral effects in solid tumors in vitro and in vivo, likely through the induction of an unresolved stress response. In particular, DP-9149 exhibited robust activity in RAS mutant cancers and in VHL-mutant renal cancers as a single agent and in combination with SOC agents in vivo. Citation Format: Gada Al-Ani, Qi Groer, Kristin M. Elliott, Aaron J. Rudeen, Patrick C. Kearney, Jeffery D. Zwicker, Yu Mi Ahn, Stacie L. Bulfer, Cale L. Heiniger, Molly M. Hood, Salim Javid, Joshua W. Large, Max D. Petty, Kristen L. Stoltz, Bertrand Le Bourdonnec, Bryan D. Smith, Daniel L. Flynn. DP-9149, an investigational small molecule modulator of the Integrated Stress Response kinase GCN2, pre-clinically causes solid tumor growth inhibition as a single agent and regression in combination with standard of care agents [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 1639.