James Cregg, Kristof Pota, Aidan C. A. Tomlinson, Jason Yano, Abby Marquez, Yang Liu, Christopher J. Schulze, Kyle J. Seamon, Matthew Holderfield, Xing Wei, Yongxian Zhuang, Yu Chi Yang, Jingjing Jiang, Yue Huang, Ruiping Zhao, Yun Ling, Zhican Wang, Michael Flagella, Zhengping Wang, Mallika Singh, John E. Knox, Robert Nichols, David Wildes, Jacqueline A. M. Smith, Elena S. Koltun, and Adrian L. Gill
Journal of Medicinal Chemistry 2025
DOI: 10.1021/acs.jmedchem.4c02313
The discovery of elironrasib (RMC-6291) represents a significant breakthrough in targeting the previously deemed undruggable GTP-bound, active KRASG12C. To target the active state of RAS (RAS(ON)) directly, we have employed an innovative tri-complex inhibitor (TCI) modality involving formation of a complex with an inhibitor, the intracellular chaperone protein CypA, and the target protein KRASG12C in its GTP-bound form. The resulting tri-complex inhibits oncogenic signaling, inducing tumor regressions across various preclinical models of KRASG12C mutant human cancers. Here we report structure-guided medicinal chemistry efforts that led to the discovery of elironrasib, a potent, orally bioavailable, RAS(ON) G12C-selective, covalent, tri-complex inhibitor. The investigational agent elironrasib is currently undergoing phase 1 clinical trials (NCT05462717, NCT06128551, NCT06162221), with preliminary data indicating clinical activity in patients who had progressed on first-generation inactive state-selective KRASG12C inhibitors.
