Mutations in the KEAP1-NRF2 pathway are common in NSCLC, albeit with a prevalence of KEAP1 mutations in lung adenocarcinoma and an equal representation of KEAP1 and NFE2L2 (the gene encoding for NRF2) alterations in lung squamous cell carcinoma. The KEAP1-NRF2 axis is a crucial modulator of cellular homeostasis, enabling cells to tolerate oxidative and metabolic stresses, and xenobiotics. The complex cytoprotective response orchestrated by NRF2-mediated gene transcription embraces detoxification mechanisms, ferroptosis protection, and metabolic reprogramming. Given that the KEAP1-NRF2 pathway controls core cellular functions, it is not surprising that a number of clinical studies connected KEAP1 mutations to increased resistance to chemotherapy, radiotherapy, and targeted agents. More recently, an immune-cold tumor microenvironment was described as a typical feature of KEAP1-mutant lung adenocarcinoma. Consistently, a reduced efficacy of immunotherapy was reported in the KEAP1-mutant background. Nevertheless, the connection between KEAP1 and immune resistance seems more complex and dependent on coexisting genomic alterations. Given the clinical implications of deregulated KEAP1-NRF2 pathway in lung cancer, the development of pathway-directed anticancer treatments should be considered a priority in the domain of thoracic oncology.
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