Abstract

Autophagy inhibition has been demonstrated to increase the efficacy of conventional chemotherapy. In this study, we identified hederagenin, a triterpenoid derived from Hedera helix, as a potent inhibitor of autophagy and then hypothesized that hederagenin might synergize with chemotherapeutic drugs (e.g., cisplatin and paclitaxel) to kill lung cancer cells. Firstly, we observed that hederagenin induced the increased autophagosomes in lung cancer cells concomitantly with the upregulation of LC3-II and p62, which indicated the impairment of autophagic flux. The colocalization assay indicated hederagenin could not block the fusion of lysosomes and autophagosomes, whereas the lysosomal acidification might be inhibited by hederagenin as revealed by the reduced staining of acidity-sensitive reagents (i.e., Lysotracker and acridine orange). The aberrant acidic environment then impaired the function of lysosome, which was evidenced by the decrease of mature cathepsin B and cathepsin D. Lastly, hederagenin, in agree with our hypothesis, promoted pro-apoptotic effect of cisplatin and paclitaxel with the accumulation of reactive oxygen species (ROS); while the synergistic effect could be abolished by the ROS scavenger, N-acetyl-L-cysteine. These data summarily demonstrated hederagenin-induced accumulation of ROS by blocking autophagic flux potentiated the cytotoxicity of cisplatin and paclitaxel in lung cancer cells.

Highlights

  • Lung cancer is the most common cancer and the leading cause of cancer death worldwide[1]

  • Cisplatin was dissolved in dimethylformamide, and other chemicals were dissolved in dimethyl sulfoxide (DMSO) upon receipt

  • We conducted a pilot experiment to observe the effects of hederagenin on autophagy of lung cancer cells

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Summary

Introduction

Lung cancer is the most common cancer and the leading cause of cancer death worldwide[1]. Promising progress has been made in lung cancer treatment, the 5-year survival rate is still very low[2]. The development of new regimens or new anticancer. Dual roles of autophagy in the tumorigenesis and cancer progression have been widely studied and intensively reviewed[3,4,5]. Autophagy may limit malignant transformation at the early stage of tumorigenesis. Deficiencies of crucial autophagy genes, such as BECN1, may promote spontaneous development of lung cancer[6]. High basal levels of autophagy could be observed in established tumors, especially when KRAS or Official journal of the Cell Death Differentiation Association

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