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Open DOI LinkAbstract
Oxidative stress is the imbalance of harmful reactive oxygen species (ROS) and the action of neutralizing antioxidant mechanisms. If left unchecked, the deleterious effects of oxidative stress result in damage to DNA, proteins, and membranes, ultimately leading to cell death. Tumors are highly proliferative and consequently generate high levels of mitochondrial ROS. To compensate for this and maintain redox homeostasis, cancer cells upregulate protective antioxidant pathways, which are further amplified in drug-resistant tumors. This review provides an overview of the latest molecular imaging techniques designed to image oxidative stress in cancer. New probes can now assess heterogeneous ROS and antioxidant production within tumors and across lesions. Together, the noninvasive imaging of these dynamic processes holds great promise for monitoring response to treatment and predicting drug resistance and may provide insight into the metastatic potential of tumors.
Highlights
During their transformation, cancer cells acquire metabolic adaptations that sustain their rapid proliferation, progression, and protection from cell death (1)
The ability to take up glucose and secrete lactate even when oxygen is present is a key feature of malignancy (2)
To maintain redox homeostasis and prevent the harmful consequences of oxidative stress, cancer cells upregulate a network of reactive oxygen species (ROS) scavenging enzymes and antioxidant pathways (7)
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Summary
Latest Advances in Imaging Oxidative Stress in Cancer
Tumors are highly proliferative and generate high levels of mitochondrial ROS To compensate for this and maintain redox homeostasis, cancer cells upregulate protective antioxidant pathways, which are further amplified in drug-resistant tumors. The noninvasive imaging of these dynamic processes holds great promise for monitoring response to treatment and predicting drug resistance and may provide insight into the metastatic potential of tumors During their transformation, cancer cells acquire metabolic adaptations that sustain their rapid proliferation, progression, and protection from cell death (1). The imbalance between harmful reactive oxygen species (ROS) production and the cell’s ability to neutralize these reactive intermediates (Fig. 1A), is a common consequence of elevated mitochondrial respiration. To maintain redox homeostasis and prevent the harmful consequences of oxidative stress, cancer cells upregulate a network of ROS scavenging enzymes and antioxidant pathways (7). We describe the exciting recent advances in the field of oxidative stress imaging and their potential applications
FLUORESCENT PROBES
PET IMAGING
APPLICATIONS AND FUTURE PERSPECTIVES
CONCLUSION
DISCLOSURE
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Oxidative Stress In Cancer- Metastatic Potential Of Tumors
- Maintain Redox Homeostasis
- Predicting Drug Resistance
- Reactive Oxygen Species + Show 5 more
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