KEAP1 and STK11/LKB1 alterations enhance vulnerability to ATR inhibition in KRAS mutant non-small cell lung cancer

Ana Galán‐Cobo(The University of Texas MD Anderson Cancer Center), Natalie I. Vokes(The University of Texas MD Anderson Cancer Center), Yu Qian(The University of Texas MD Anderson Cancer Center), David Molkentine(The University of Texas MD Anderson Cancer Center), Kavya Ramkumar(The University of Texas MD Anderson Cancer Center), Alvaro Guimaraes Paula(The University of Texas MD Anderson Cancer Center), Marlese A. Pisegna(The University of Texas MD Anderson Cancer Center), Daniel J. McGrail(Cleveland Clinic), Alissa Poteete(The University of Texas MD Anderson Cancer Center), Sung-Nam Cho(The University of Texas MD Anderson Cancer Center), Minh Truong(The University of Texas MD Anderson Cancer Center), Amirali Karimi(The University of Texas MD Anderson Cancer Center), Yifan Kong(The University of Texas MD Anderson Cancer Center), Anisha Solanki(AstraZeneca (United Kingdom)), Ankur Karmokar(AstraZeneca (United Kingdom)), Nicolas Floc’h(AstraZeneca (United Kingdom)), Adina Hughes(AstraZeneca (United Kingdom)), Rebecca Sargeant(AstraZeneca (Singapore)), Lucy A. Young(AstraZeneca (United Kingdom)), Li Shen(The University of Texas MD Anderson Cancer Center), Gozde Kar(AstraZeneca (United Kingdom)), Caezaan Keshvani(The University of Texas MD Anderson Cancer Center), Claudio J. Arrechedera(The University of Texas MD Anderson Cancer Center), Sharia Hernandez(The University of Texas MD Anderson Cancer Center), Katharina Schlacher(The University of Texas MD Anderson Cancer Center), Jing Wang(The University of Texas MD Anderson Cancer Center), Sonia Iyer(AstraZeneca (United States)), James Conway(AstraZeneca (United States)), Mohamed Reda Keddar(AstraZeneca (United Kingdom)), Marta Milo(AstraZeneca (United Kingdom)), Ilario De Toma(AstraZeneca (Netherlands)), Susan E. Critchlow(AstraZeneca (United Kingdom)), J. Carl Barrett(AstraZeneca (United States)), Jan Cosaert(AstraZeneca (United Kingdom)), Alan Lau(AstraZeneca (United Kingdom)), Viia Valge-Archer(AstraZeneca (United Kingdom)), Lauren A. Byers(The University of Texas MD Anderson Cancer Center), Simon T. Barry(AstraZeneca (United Kingdom)), John V. Heymach(The University of Texas MD Anderson Cancer Center)
Cancer Cell
July 15, 2025
10.1016/j.ccell.2025.06.011
Cited by 18Open Access
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Abstract

KRAS mutations frequently co-occur with alterations in STK11/LKB1 and/or KEAP1, defining an aggressive subset of lung cancers resistant to immuno- and chemotherapy. While LKB1 loss is associated with vulnerability to DNA damage response-based therapies, the impact of KEAP1 alterations remains unknown. We demonstrate that KEAP1-NRF2 pathway drives a compensatory modulation of ATR-CHK1 signaling, enhancing vulnerability to ATR inhibitors (ATRi), particularly in the setting of increased replication stress associated with LKB1 loss. ATRi shows enhanced anti-tumor activity in LKB1 and/or KEAP1-deficient non-small cell lung cancer (NSCLC) models and synergizes with gemcitabine. ATRi also enhances antitumor immunity and mitigates the immunosuppressed phenotype of LKB1/KEAP1-deficient tumors. In the HUDSON trial, LKB1/KEAP1-deficient NSCLC patients demonstrate enhanced benefits to the ATRi ceralasertib plus durvalumab. These findings suggest that alterations in the KEAP1-NRF2 pathway and/or LKB1 are associated with enhanced sensitivity to ATRi and could serve as biomarkers for predicting response to ATRi combination regimens.

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