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Reciprocal Feedback Blockade with Trametinib and Imatinib Overcomes the Limitations of Current KRAS-targeted Therapy

Hsiao, Y.-C.; Bai, L.-Y.; Chen, Y.-J.; Wu, Y.-S.; Wang, W.-J.; Chuang, Y.-L.; Chang, H.; Zeshan, M.; Wu, H.-H.; Yang, H.-J.; Lee, P.-C.; Chiu, C.-F.; Chen, L.-T.; Yamaguchi, H.; Hung, M.-C.

2026-07-02 oncology
10.64898/2026.07.01.26356985 medRxiv
Show abstract

Although KRAS G12C-specific inhibitors such as sotorasib have been approved by US FDA and currently used in clinic, treating non-G12C mutants and overcoming acquired resistance for these inhibitors remain critical challenges. Here, we introduce a reciprocal feedback blockade therapy combining the MEK inhibitor trametinib and the multi-tyrosine kinase inhibitor imatinib to overcome these limitations. Our study reveals their compensatory roles: trametinib suppresses MEK activity yet promotes tyrosine kinase signaling and angiogenesis, while imatinib, a pan-tyrosine kinase inhibitor unleashes the MEK/ERK pathway via phosphatase suppression. Combining these agents blocks the reciprocal survival signals, inducing robust cell death across diverse KRAS-mutant models. Mechanistically, this combination reprograms cellular metabolism, leading to autophagy-dependent lipid peroxidation accumulation and ferroptosis. This strategy was effective in sotorasib-resistant lung cancer cells and various mouse models, including pancreatic cancer patient-derived xenograft. Furthermore, a pilot clinical trial for KRAS-mutant pancreatic cancer yielded encouraging responses. Consequently, the trametinib-imatinib combination represents a promising, broad-spectrum therapeutic strategy to overcome the constraints of current KRAS-targeted therapies.

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