Abstract A16: Potent and selective ATR inhibitors for the treatment of homologous-recombination deficient and PARPi-resistant cancers

We report the generation of a novel class of highly potent and specific ATR inhibitors (ATRN series) that exhibit low nanomolar activity in cultured cells (IC50 = 2-8 nM) and do not detectably inhibit ATM, DNA-PK or mTOR (IC50 > 10 µM). In side-by-side comparisons, both the potency and selectivity of the ATRN series is superior to previously reported ATR inhibitors (VE821, VE822, AZD20, AZD6738, ETP-46464). In addition, the ATRN series has sufficient bioavailability and stability for in vivo application. Our lead compound (ATRN-119) slows progression of human BRCA2-deficient PDAC (CAPAN1) and RAS oncogene-driven p53-null colon tumors in mice with minimal toxicity to tissues under normal proliferative control, including the bone marrow and intestine. Additionally, mice engrafted with BRCA2-mutant patient-derived xenograft (PDX) ovarian tumors show a significant reduction in tumor progression after 5 weeks treatment of ATRN-119, and display no toxicity or significant weight loss. In addition, cancers that maintain or reacquire HR function, and thus are resistant to treatment with PARPi or cisplatin, remain responsive to ATRN series inhibitors. Thus, ATRN-119 is highly efficacious in suppressing tumor growth in multiple murine models, including suppression of patient-derived BRCA2-mutant ovarian, and PARP resistant cancers, suggesting that the clinical application of the ATRN series will provide a new and effective treatment for human malignancies with fewer side effect...
Source: Molecular Cancer Research - Category: Cancer & Oncology Authors: Tags: Synthetic Lethality and Viability: Poster Presentations - Proffered Abstracts Source Type: research