Abstract
Ferroptosis is a cell death pathway characterized by iron-dependent accumulation of reactive oxygen species (ROS) within the cell. The combination of siramesine, a lysosome disruptor, and lapatinib, a dual tyrosine kinase inhibitor, has been shown to synergistically induce cell death in breast cancer cells mediated by ferroptosis. These treatments also induce autophagy but its role in this synergistic cell death is unclear. In this study, we determined that siramesine and lapatinib initially induced ferroptosis but changes to an autophagy induced cell death after 24 hours. Furthermore, we found that intracellular iron level increased in a time dependent manner following treatment accompanied by an increase in ROS. Using the iron chelator deferoxamine (DFO) or the ROS scavenger alpha-tocopherol decreased both autophagy flux and cell death. We further discovered that decreased expression of the iron storage protein, ferritin was partially dependent upon autophagy degradation. In contrast, the expression of transferrin, which is responsible for the transport of iron into cells, is increased following treatment with lapatinib alone or in combination with siramesine. This indicates that ferroptosis and autophagy induced cell death occur independently but both are mediated by iron dependent ROS generation in breast cancer cells.
Highlights
Ferroptosis is a new form of programmed cell death characterized by iron dependent increased in reactive oxygen species (ROS) [1]
We found that siramesine and lapatinib induce both ferroptosis and autophagy induced cell death at different times after treatment
We have previously demonstrated that autophagy will initially promote cell survival but elevated and prolonged autophagy will promote cell death under hypoxia [12]
Summary
Ferroptosis is a new form of programmed cell death characterized by iron dependent increased in reactive oxygen species (ROS) [1]. Inhibiting the cystine-glutamate antiporter (system Xc−) causes the depletion of glutathione (GSH), the major cellular antioxidant [1]. This leads to ferroptosis through the loss of cellular redox homeostasis. Alterations in iron transport proteins increases iron mediated ROS that leads to ferroptosis [2]. This illustrates the central role ROS plays in regulating ferroptosis. Autophagy an intracellular catabolic process involving lysosomes that could lead to programmed cell death through extensive degradation of intracellular structures or organelles [3]
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