1. Academic Validation
  2. Systematic identification of a synthetic lethal interaction in brain-metastatic lung adenocarcinoma

Systematic identification of a synthetic lethal interaction in brain-metastatic lung adenocarcinoma

  • Cancer Lett. 2024 Mar 15:588:216781. doi: 10.1016/j.canlet.2024.216781.
Jin Woo Moon 1 Beom-Jin Hong 2 Seon-Kyu Kim 3 Min-Seok Park 1 Hohyeon Lee 1 JiWon Lee 1 Mi-Young Kim 4
Affiliations

Affiliations

  • 1 Department of Biological Sciences, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea.
  • 2 SK Biopharmaceuticals, Seoul, South Korea.
  • 3 Personalized Genomic Medicine Research Center, Korea Research Institute of Bioscience & Biotechnology (KRIBB), Daejeon, South Korea.
  • 4 Department of Biological Sciences, Korea Advanced Institute of Science and Technology (KAIST), Daejeon, South Korea; KAIST Institute for the BioCentury, Cancer Metastasis Control Center, Daejeon, South Korea. Electronic address: miyoungkim@kaist.ac.kr.
Abstract

Metastatic lung adenocarcinoma (LuAC) presents a significant clinical challenge due to the short latency and the lack of efficient treatment options. Therefore, identification of molecular vulnerabilities in metastatic LuAC holds great importance in the development of therapeutic drugs against this disease. In this study, we performed a genome-wide siRNA screening using poorly and highly brain-metastatic LuAC cell lines. Using this approach, we discovered that compared to poorly metastatic LuAC (LuAC-Par) cells, brain-metastatic LuAC (LuAC-BrM) cells exhibited a significantly higher vulnerability to c-FLIP (an inhibitor of Caspase-8)-depletion-induced Apoptosis. Furthermore, in vivo studies demonstrated that c-FLIP knockdown specifically inhibited growth of LuAC-BrM, but not the LuAC-Par, tumors, suggesting the addiction of LuAC-BrM to the function of c-FLIP for their survival. Our in vitro and in vivo analyses also demonstrated that LuAC-BrM is more sensitive to c-FLIP-depletion due to ER stress-induced activation of the c-JUN and subsequent induction of stress genes including ATF4 and DDIT3. Finally, we found that c-JUN not only sensitized LuAC-BrM to c-FLIP-depletion-induced cell death but also promoted brain metastasis in vivo, providing strong evidence for c-JUN's function as a double-edged sword in LuAC-BrM. Collectively, our findings not only reveal a novel link between c-JUN, brain metastasis, and c-FLIP addiction in LuAC-BrM but also present an opportunity for potential therapeutic intervention.

Keywords

Brain metastasis; Lung cancer; Synthetic lethality; c-FLIP; c-JUN.

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