Abstract The overall 5-year survival for pancreatic ductal adenocarcinoma (PDAC) has changed little over the past few decades, and PDAC is predicted to become the second leading cause of cancer-related mortality in the next decade in Western countries. Low grade serous ovarian cancer (LGSOC) is a slow-growing but generally chemo-resistant cancer with few effective treatments for recurrent disease. More than 90% of PDAC and up to 40% of LGSOC express mutationally activated KRAS that drives persistent cell division, anti-apoptosis, cell migration and metastasis. Preventing signaling from the KRAS oncoprotein has been challenging. While recent studies have shown promising results by targeting the binding pocket in Switch II for development of KRAS mutant-specific inhibitors for the G12C mutant and G12D mutant, targeting other mutations remains a work in progress. We have discovered that DIRAS3, a novel endogenous physiological RAS inhibitor, blocks KRAS activity by directly binding KRAS with high affinity, inhibiting KRAS dimerization/nanoclustering and blocking effector activation. In this study we have developed drug-like, helical 10-mer stapled peptides derived from DIRAS3 α5 domain. Preliminary studies show that these lead compounds associate with KRAS with low nanomolar affinity, are largely resistant to serum proteases, and rapidly cross the cellular membrane. Functionally, DIRAS3 peptides—but not control peptides—block KRAS homodimers in ReBiL split luciferase assays of KRAS dimerization and disrupt nanoclustering by TEM analysis of GFP-KRAS(G12V)-labeled gold nanoparticles on the inner leaflet of the plasma membrane of cells. Moreover, DIRAS3 peptides significantly inhibit phospho-ERK, decrease cell viability and induce apoptosis in pancreatic and low-grade ovarian cancer cells with KRAS mutations. Finally, daily treatment with stapled DIRAS3-derived peptides inhibited growth of ASPC-1 (KRAS G12D) PDAC xenografts and improved survival. Thus, our study suggests that development of DIRAS3 stapled peptides may provide a novel therapeutic approach to target mutant KRAS-driven cancers. Citation Format: Joshua P. Gray, Gamze E. Bildik, Margie N. Sutton, Yong Zhou, Steven Millward, John F. Hancock, Zhen Lu, Robert C. Bast. Helical stapled peptides derived from DIRAS3 block KRAS dimerization and downstream MEK/ERK signaling in pancreatic and ovarian carcinomas [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 3599.