Abstract 5912: Rational design of a small-molecule inhibitor targeting the allosteric site of sos1 in oncogenic k-ras pancreatic cancer

Abstract

Abstract Oncogenic Kras signaling is a key therapeutic target in human cancers. Ras activation is catalyzed by guanine nucleotide exchange factors (GEFs), of which SOS1 is a major player that transduces receptor tyrosine kinase signaling to Ras. In addition to recently devised oncogenic Kras targeting small molecule inhibitors, disrupting the catalytic interaction between Ras and SOS1 has emerged as an attractive therapeutic strategy in working synergistically with Kras inhibitors and overcoming resistance. Previous studies have demonstrated an active “feed forward” loop of active Kras binding to the allosteric site of SOS1 that further stimulates SOS1 catalytic activation of wild type H/N/Kras, which is required for oncogenic Kras driven tumorigenesis. Here we have developed a rational approach that combines virtual screening with experimental screening to identify small molecule inhibitors that target the allosteric site of SOS1 to suppress oncogenic Kras mediated SOS1-regulated wild-type Ras activities. Unlike SOS1 catalytic site inhibitors which can have significant toxicity due to their ability to inhibit normal Ras signaling function, the lead SOS1 allosteric inhibitors developed in our laboratory binds to the allosteric site of SOS1 and blocks active Ras interaction with SOS1: we found these inhibitors can competitively suppresses SOS1-Ras interaction at the SOS1 allosteric site and dose-dependently inhibits the feed-forward SOS1 GEF activity. Mutagenesis and structure-activity relationship studies mapped the site of action to the SOS1 allosteric site, and preliminarily defined the chemical moieties in the inhibitor essential for the activity. The inhibitor showed dose-dependent and selective efficacy in inhibiting WT Ras activity, downstream signaling activities, and associated cell proliferation in KRAS mutation cells but not KRAS wild-type cells. Compared to the SOS1 catalytic inhibitor, BI3406, our inhibitors showed better selectivity for KRAS mutant pancreatic cancer cells vs. WT KRAS cells. These studies establish a proof of principle for the rational design of small molecule inhibitors targeting an oncogenic Kras specific allosteric site of SOS1 and provide a novel therapeutic concept to target KRAS-driven tumors more effectively. Citation Format: Xin Duan, Chris R Evelyn, Jacek Biesiada, James F Johnson, William L. Seibel, Jaroslaw Meller, Yi Zheng. Rational design of a small-molecule inhibitor targeting the allosteric site of sos1 in oncogenic k-ras pancreatic cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 5912.