Abstract

Abstract Despite the fact that activating mutations in the various forms of Ras were identified as driving factors in oncogenesis over thirty years ago, there are still no effective therapeutics which act on this target. We recently synthesized and characterized a novel class of compounds that show striking potency and selectivity to inhibit the growth of tumor cells with mutant Ras. Through iterative structure-activity studies, we selected for and optimized Ras selectivity to achieve high potency with IC50 values in the low nanomolar range and selectivity indices of nearly 100-fold. For example, ADT-062 inhibited the growth of human HCT116 colon tumor cells that harbor mutant K-Ras with an IC50 value of 8.4 + 3.6 nM,. In contrast, human HT29 colon tumor cells that have wild type Ras displayed an IC50 value of 521 + 253 nM in response to ADT-062 treatment. When surveying a larger panel of colon tumor cell lines, we observed a direct correlation between potency and Ras activation status. Further, ADT-062 induced cell cycle arrest only in the Ras-mutant cell line. To study the mechanism by which this class of compounds selectively inhibits the growth of tumor cells with mutant K-Ras, we profiled lysates from treated HCT116 and HT29 colon tumor cells using high resolution LC-MS/MS. Over 100 ions were identified that were differentially affected by treatment with ADT-062 at its IC50 value in the respective cell line. Among the ions of interest, a component of the purine biosynthetic pathway, 5′-phosphoribosyl-N-formylglycinamide (FGAR), was found to be induced 200-fold (p = .0031) in K-Ras mutant cells compared with Ras wild type cells. Together, these findings suggest that this compound may cause a Ras selective disruption of purine metabolism and cell cycle progression which contributes to the selectivity by which this novel class of compounds inhibit the growth of tumor cells with mutant Ras. These findings may enable us to develop this compound class as a novel therapeutic which targets Ras driven tumors and tumors which may become resistant to other targeted therapeutics through secondary Ras mutations. Citation Format: Joshua C. Canzoneri, Xi Chen, Adam B. Keeton, Kevin Lee, Bernard Gary, Ethan B. Butler, William E. Grizzle, Landon Wilson, Stephen Barnes, Michael R. Boyd, Gary A. Piazza. A novel class of Ras selective inhibitors. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr 701. doi:10.1158/1538-7445.AM2015-701

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