Abstract
Reactive oxygen species (ROS) production can occur both as a physiological response and because of oxidative stress. ROS are not only the end product of nonfunctional cell processes but also signaling molecules that can regulate cell and tissue homeostasis. Recently, we have discovered that metastatic breast cancer cells that lay dormant in the lung microenvironment activate mitochondrial ROS production in response to the mechanical properties of the ECM, which triggers an antioxidant response mediated by the NRF2 transcription factor. In turn, this response protects dormant metastatic cells from cisplatin chemotherapy. Many tools have been developed to monitor ROS production in cells in culture, while our ability to detect this in vivo remains limited. Here we describe a detailed protocol for determination of ROS in metastatic cells in the mouse lung tissue by detecting 4-hydroxy-2-noneal (4HNE) adducts formation in fixed tissues.
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