Abstract A016: NXP800, a novel, small molecule GCN2 kinase activator, demonstrates potent single-agent activity in ARID1A and ARID1B-deficient endometrial cancer xenograft models

Abstract

Abstract Background: NXP800 is a clinical stage, antineoplastic, oral, small molecule GCN2 kinase activator that was discovered in a phenotypic screen for inhibitors of the heat shock factor 1-regulated stress response. In a panel of human carcinoma cell lines NXP800 induced the expression of genes associated with activation of the integrated stress response and demonstrated robust antiproliferative activity, particularly in ARID1a-mutated ovarian carcinoma cells lines. In ARID1a-mutated ovarian carcinoma xenografts, treatment with NXP800 resulted in substantial tumor growth inhibition and tumor regression. NXP800 is currently being investigated in a Phase 1b clinical trial in patients with ARID1a-mutated ovarian carcinoma. Here we describe an in vivo study of NXP800 in ARID1a/ARID1b-deficient endometrial cancer xenografts, supporting the clinical development of NXP800 in this indication. Methods: Animal strain: CD1 Nude mice (nu/nu, Charles River). Human endometrial cancer cell lines: RL95-2 (ARID1a mutated, ATCC) and KLE (ARID1a wildtype, ARID1b mutated, ATCC), SNG-M (ARID1a mutated, Creative Bioarray). Xenograft tumors were generated by subcutaneous implantation on the right lower flank of the thigh at a cell density of 2 × 106 cells/mouse, at 0.1 ml Matrigel dilution volume/injection. Experiment groups: Vehicle, NXP800 (35 mg/kg); treatment: QD on days 0-4, 7-11, 14-18, 21-25, 28-30. Loss of ARID1A protein expression was confirmed by western blots. Results: In the SNG-M model, baseline tumor volume for the vehicle and NXP800 groups were 130.2, and 139.7 mm3, respectively, and on Day 32, average tumor volumes were 420.4, and 85.4 mm3, respectively, representing TGI of 81%. In the RL-95 model, baseline tumor volume for the vehicle and NXP800 groups were 124.5, and 129.9 mm3, respectively, and on Day 32, average tumor volumes were 773.8, and 190.3 mm3, respectively, representing TGI of 76%. In the KLE model, baseline tumor volume for both the vehicle and NXP800 groups were 88.1 mm3, respectively, and on Day 32, average tumor volumes were 216.4, and 18.9 mm3, for the vehicle and NXP800 groups, respectively, representing TGI of 91.3%. Conclusions: ARID1A and ARID1B genes encode the alternate, but obligatory, DNA-targeting subunit of the switch/sucrose non-fermentable (SWI/SNF) complex. ARID1A is the most frequently mutated SWI/SNF subunit across cancer types and is mutated in approximately 35% of endometrial carcinomas. NXP800 demonstrated robust antitumor activity in xenografts of endometrial carcinoma, a serious condition for which new treatment options are needed, including sustained tumor growth inhibition both in ARID1A and ARID1B mutated models, supporting the clinical development of NXP800 in endometrial cancer. Citation Format: Ramez N. Eskander, Bradley J. Monk, Brian M. Slomovitz, Enrique Poradosu, Allison Woods, Shay Shemesh, Paul Clarke, Robert Te Poele, Marissa Powers, Paul Workman, Shannon N. Westin. NXP800, a novel, small molecule GCN2 kinase activator, demonstrates potent single-agent activity in ARID1A and ARID1B-deficient endometrial cancer xenograft models [abstract]. In: Proceedings of the AACR Special Conference on Endometrial Cancer: Transforming Care through Science; 2023 Nov 16-18; Boston, Massachusetts. Philadelphia (PA): AACR; Clin Cancer Res 2024;30(5_Suppl):Abstract nr A016.