Discovery and characterization of a selective IKZF2 glue degrader for cancer immunotherapy

Malignant tumors can evade destruction by the immune system by attracting immune-suppressive regulatory T cells (Treg) cells. The IKZF2 (Helios) transcription factor plays a crucial role in maintaining function and stability of Treg cells, and IKZF2 deficiency reduces tumor growth in mice. Here we report the discovery of NVP-DKY709, a selective molecular glue degrader of IKZF2 that spares IKZF1/3. We describe the recruitment-guided medicinal chemistry campaign leading to NVP-DKY709 that redirected the degradation selectivity of cereblon (CRBN) binders from IKZF1 toward IKZF2. Selectivity of NVP-DKY709 for IKZF2 was rationalized by analyzing the DDB1:CRBN:NVP-DKY709:IKZF2(ZF2 or ZF2-3) ternary complex X-ray structures. Exposure to NVP-DKY709 reduced the suppressive activity of human Treg cells and rescued cytokine production in exhausted T-effector cells. In vivo, treatment with NVP-DKY709 delayed tumor growth in mice with a humanized immune system and enhanced immunization responses in cynomolgus monkeys. NVP-DKY709 is being investigated in the clinic as an immune-enhancing agent for cancer immunotherapy.

Identification of TNO155, an Allosteric SHP2 Inhibitor for the Treatment of Cancer

SHP2 is a nonreceptor protein tyrosine phosphatase encoded by the PTPN11 gene and is involved in cell growth and differentiation via the MAPK signaling pathway. SHP2 also plays an important role in the programed cell death pathway (PD-1/PD-L1). As an oncoprotein as well as a potential immunomodulator, controlling SHP2 activity is of high therapeutic interest. As part of our comprehensive program targeting SHP2, we identified multiple allosteric binding modes of inhibition and optimized numerous chemical scaffolds in parallel. In this drug annotation report, we detail the identification and optimization of the pyrazine class of allosteric SHP2 inhibitors. Structure and property based drug design enabled the identification of protein-ligand interactions, potent cellular inhibition, control of physicochemical, pharmaceutical and selectivity properties, and potent in vivo antitumor activity. These studies culminated in the discovery of TNO155, (3S,4S)-8-(6-amino-5-((2-amino-3-chloropyridin-4-yl)thio)pyrazin-2-yl)-3-methyl-2-oxa-8-azaspiro[4.5]decan-4-amine (1), a highly potent, selective, orally efficacious, and first-in-class SHP2 inhibitor currently in clinical trials for cancer.

Abstract 2084: Conformational activation and allosteric inhibition of SHP2 in RTK-driven cancers

The non-receptor protein tyrosine phosphatase (PTP) SHP2 is an important component of RTK signaling in response to growth factor stimulus and sits just upstream of the RAS-MAPK signaling cascade. The first oncogenic phosphatase to be identified, SHP2 is dysregulated in multiple human diseases including the developmental disorders Noonan and Leopard syndromes, as well as leukemia, lung cancer and neuroblastoma where aberrant activity of SHP2 leads to uncontrolled MAPK signaling. Cancer-associated activating mutations in SHP2 impart an “auto-on” state of the enzyme, boosting basal activity by shifting the equilibrium away from the auto-inhibited state. Reduction of SHP2 activity through genetic knockdown suppresses tumor growth, validating SHP2 as a target for cancer therapy. SHP099, a recently reported potent and selective allosteric inhibitor of SHP2, stabilizes the auto-inhibited form of SHP2 through interactions with the N-terminal SH2 and C-terminal PTP domains of the protein. SHP099 suppresses MAPK signaling in RTK amplified cancers resulting in suppressed proliferation in vitro and inhibition of tumor growth in mouse tumor xenograft models. Together, these data demonstrate the therapeutic potential of SHP2 inhibition in the treatment of cancer and other RAS/MAPK-linked diseases.

Citation Format: Michael G. Acker, Ying-Nan P. Chen, Matthew J. LaMarche, Ho Man Chan, Peter Fekkes, Jorge Garcia-Fortanet, Jonathan R. LaRochelle, Brandon Antonakos, Christine Hiu-Tung Chen, Zhuoliang Chen, Vesselina G. Cooke, Jason R. Dobson, Zhan Deng, Fei Feng, Brant Firestone, Michelle Fodor, Cary Fridrich, Hui Gao, Huai-Xiang Hao, Jaison Jacob, Samuel Ho, Kathy Hsiao, Zhao B. Kang, Rajesh Karki, Mitsunori Kato, Jay Larrow, Laura R. La Bonte, Gang Liu, Shumei Liu, Dyuti Majumdar, Matthew J. Meyer, Mark Palermo, Minying Pu, Edmund Price, Subarna Shakya, Michael D. Shultz, Kavitha Venkatesan, Ping Wang, Markus Warmuth, Sarah Williams, Guizhi Yang, Jing Yuan, Ji-Hu Zhang, Ping Zhu, Stephen C. Blacklow, Timothy Ramsey, Nicholas J. Keen, William R. Sellers, Travis Stams, Pascal D. Fortin. Conformational activation and allosteric inhibition of SHP2 in RTK-driven cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 2084. doi:10.1158/1538-7445.AM2017-2084