Abstract 3327: Discovery and characterization of the potent, allosteric SHP2 inhibitor GDC-1971 for the treatment of RTK/RAS driven tumors

Abstract The non-receptor protein tyrosine phosphatase SHP2 (PTPN11) plays an important role in the regulation of RAS/MAPK signal transduction downstream of growth factor receptor activation. Loss of SHP2 activity suppresses tumor cell growth, making SHP2 a potential target for cancer therapy. Here we report the discovery of GDC-1971 (formerly RLY-1971), a highly potent, selective, and orally bioavailable small-molecule SHP2 inhibitor that stabilizes SHP2 in a closed, auto-inhibited conformation. GDC-1971 potently inhibits both wild-type SHP2 (IC50 <1nM) and the E76K activating mutant (IC50 <250nM) in biochemical assays. In standard 2-dimensional and anchorage-independent growth conditions, GDC-1971 inhibits cellular proliferation in models harboring receptor tyrosine kinases (RTKs), SHP2, NF1, KRAS, or BRAF mutations in a dose-dependent manner. GDC-1971 potently inhibits the proliferation of cellular models harboring KRAS G12C or G12A mutations (median IC50 <80 nM) compared to models harboring other KRAS G12, G13 or Q61 mutations (median IC50 >1 uM), indicating a link between KRAS GTP hydrolysis and SHP2 dependency. Despite this trend, some non-KRAS G12C or G12A cell lines harboring other KRAS mutations responded to GDC-1971 in vitro, suggesting some heterogeneity in RTK/SHP2 signaling dependence in subsets of other KRAS mutants. In vivo, GDC-1971 demonstrates dose-dependent RAS/MAPK pathway inhibition and induces significant tumor-growth inhibition in human xenograft models harboring EGFR and KRAS alterations at continuous daily doses that are well tolerated. Given the reported role of SHP2 as a critical mediator of resistance to targeted therapies, we assessed the activity of GDC-1971 combinations in multiple contexts. We observed increased suppression of the MAPK signaling cascade and anti-proliferation synergy when combining GDC-1971 with EGFR, ALK, and KRAS G12C inhibitors in vitro. The observed in vitro synergy translated to dramatic anti-tumor growth effects in vivo. GDC-1971 in combination with the KRAS G12C covalent inhibitor GDC-6036 resulted in significant regressions at doses well below those required for single agent activity in a KRAS G12C-mutant NSCLC xenograft model. In rodent and dog toxicology studies, GDC-1971 is well tolerated at exposures above those required to induce regression in xenograft models. The biochemical and cellular potency and favorable pharmaceutical properties of GDC-1971 support the further clinical development in RTK/MAPK pathway altered tumors using continuous daily dosing alone and in combination with other targeted agents, including the KRAS-G12C inhibitor GDC-6036 (clinical trial NCT04449874). Citation Format: Bret Williams, Alexander Taylor, Olivia Orozco, Christopher Owen, Elizabeth Kelley, Andre Lescarbeau, Kelley Shortsleeves, Randy Kipp, Vy Nguyen, Erin Brophy, Jeremy Wilbur, Yong Tang, David Lanzetta, Nigel Waters, Sherri Smith, Fabrizio Giordanetto, Paul Maragakis, Jack Greismann, Lindsay Willmore, Eric Therrien, Yang Xiao, Marie Evangelista, Luca Gerosa, Eva Lin, Mark Merchant, Alfonso Arrazate, Emily Chan, Pablo Sáenz-López Larrocha, Stefan Chun, Thomas Hunsaker, Gauri Deshmukh, Christine M. Bowman, David E. Shaw, Mark Murcko, Mahesh Padval, W Patrick Walters, James Watters, Donald A. Bergstrom. Discovery and characterization of the potent, allosteric SHP2 inhibitor GDC-1971 for the treatment of RTK/RAS driven tumors [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3327.