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CROT overactivation within peroxisomes confers chemoresistance to non-small cell lung cancer by targeting fatty acid oxidation-Nrf2-ferroptosis resistance axis

Chunyu Hua, Guohui Zhang, Wendan Yu, Jie Zhou, Liyuan Ru, Guoqing Xue, Lina Zheng, Meiyi Wang, Yiwei Wang, Dong Hoon Yu, Qijing Wang, Jiaxin Liu, Ruonan Wang, Wuguo Deng, Ranran Tang, Wei Guo

2025Pharmacological Research6 citationsDOIOpen Access PDF

Abstract

A key factor that limits the therapeutic benefits for non-small cell lung cancer (NSCLC) patients is chemoresistance. Even so, a detailed understanding of the process involved in chemoresistance acquisition and development at molecular level in NSCLC is still lacking. Here, we established chemo-resistant NSCLC cells with obvious resistance to vincristine and paclitaxel and found the abnormal up-regulation of Carnitine O-Octanoyltransferase (CROT) in these cells by means of transcriptomics. In vitro and in vivo experiments demonstrate that the survival of NSCLC cells, especially chemosensitivity, including sensitivity to chemotherapeutics beyond vincristine and paclitaxel, was markedly influenced by CROT expression, and CROT silencing even reversed chemoresistance in NSCLC. Mechanistically, CROT is overactivated within peroxisomes in chemo-resistant NSCLC cells and drives chemoresistance relying on its involvement in lipid metabolism and oxidative stress processes. By mediating the production of Hydrogen Peroxide (H 2 O 2 ) and reactive oxygen species (ROS), CROT stabilizes eryth-like-2 associated factor 2 (Nrf2) via preventing its ubiquitination and degradation, leading to more nuclear translocation of Nrf2, thereby inhibiting chemotherapy stress-induced ferroptosis. Accordingly, fatty acid oxidation inhibitors or ferroptosis activators rendered NSCLC cells increased sensitivity to chemotherapy in vitro and in vivo. Clinically and encouragingly, the aberrant up-regulation of CROT and Nrf2 was observed in chemo-resistant NSCLC tumor tissues and patients with higher CROT and/or Nrf2 level possessed a poor outcome. In sum, our study identifies CROT as a key promoter to drive chemoresistance of NSCLC cells by targeting fatty acid oxidation-Nrf2-ferroptosis resistance axis. The targeted inhibition of this axis and associated components individually or in cascades combined with chemotherapy may be exploited in avoiding or overcoming chemoresistance in NSCLC. • CROT is abnormally up-regulated in chemoresistant NSCLC cells compared to parental cells. • CROT accelerates FAO in peroxisomes via its enzymatic activity to promote chemoresistance. • CROT mediates ROS production to stabilize Nrf2 and boost nuclear translocation of Nrf2. • CROT inhibits ferroptosis under chemotherapy-induced stress by targeting Nrf2. • FAO inhibitor or ferroptosis inducer reverses vincristine and paclitaxel resistance in vivo.

Topics & Concepts

PaclitaxelCancer researchGene silencingIn vivoLung cancerOxidative stressKEAP1Reactive oxygen speciesCancer cellChemistryBiologyCancerInternal medicineCell biologyMedicineBiochemistryTranscription factorGeneBiotechnologyFerroptosis and cancer prognosisCancer, Lipids, and MetabolismRNA modifications and cancer