Download MendeleyKRASQ61HPreferentially Signals through MAPK in a RAF Dimer-Dependent Manner in Non-Small Cell Lung Cancer.
Zhou, Z.W., Ambrogio, C., Bera, A.K., Li, Q., Li, X.X., Li, L., Son, J., Gondi, S., Li, J., Campbell, E., Jin, H., Okoro, J.J., Xu, C.X., Janne, P.A., Westover, K.D.(2020) Cancer Res 80: 3719-3731
- PubMed: 32605999
- DOI: https://doi.org/10.1158/0008-5472.CAN-20-0448
- Primary Citation of Related Structures:
6MNX - PubMed Abstract:
Assembly of RAS molecules into complexes at the cell membrane is critical for RAS signaling. We previously showed that oncogenic KRAS codon 61 mutations increase its affinity for RAF, raising the possibility that KRAS Q61H , the most common KRAS mutation at codon 61, upregulates RAS signaling through mechanisms at the level of RAS assemblies. We show here that KRAS Q61H exhibits preferential binding to RAF relative to PI3K in cells, leading to enhanced MAPK signaling in in vitro models and human NSCLC tumors. X-ray crystallography of KRAS Q61H :GTP revealed that a hyperdynamic switch 2 allows for a more stable interaction with switch 1, suggesting that enhanced RAF activity arises from a combination of absent intrinsic GTP hydrolysis activity and increased affinity for RAF. Disruption of KRAS Q61H assemblies by the RAS oligomer-disrupting D154Q mutation impaired RAF dimerization and altered MAPK signaling but had little effect on PI3K signaling. However, KRAS Q61H oligomers but not KRAS G12D oligomers were disrupted by RAF mutations that disrupt RAF-RAF interactions. KRAS Q61H cells show enhanced sensitivity to RAF and MEK inhibitors individually, whereas combined treatment elicited synergistic growth inhibition. Furthermore, KRAS Q61H tumors in mice exhibited high vulnerability to MEK inhibitor, consistent with cooperativity between KRAS Q61H and RAF oligomerization and dependence on MAPK signaling. These findings support the notion that KRAS Q61H and functionally similar mutations may serve as predictive biomarkers for targeted therapies against the MAPK pathway. SIGNIFICANCE: These findings show that oncogenic KRAS Q61H forms a cooperative RAS-RAF ternary complex, which renders RAS-driven tumors vulnerable to MEKi and RAFi, thus establishing a framework for evaluating RAS biomarker-driven targeted therapies.
Organizational Affiliation:
Departments of Biochemistry and Radiation Oncology, The University of Texas Southwestern Medical Center at Dallas, Dallas, Texas.
