Quantitative MRI Evaluation of Ferritin Overexpression in Non-Small-Cell Lung Cancer.
Mekhla SinghaniaAmira ZaherCasey F PulliamKhaliunaa BayanboldCharles C SearbyJoshua D SchoenfeldKranti A MapuskarMelissa A FathBryan G AllenDouglas R SpitzMichael S PetronekPublished in: International journal of molecular sciences (2024)
Cancer cells frequently present elevated intracellular iron levels, which are thought to facilitate an enhanced proliferative capacity. Targeting iron metabolism within cancer cells presents an avenue to enhance therapeutic responses, necessitating the use of non-invasive models to modulate iron manipulation to predict responses. Moreover, the ubiquitous nature of iron necessitates the development of unique, non-invasive markers of metabolic disruptions to develop more personalized approaches and enhance the clinical utility of these approaches. Ferritin, an iron storage enzyme that is often upregulated as a response to iron accumulation, plays a central role in iron metabolism and has been frequently associated with unfavorable clinical outcomes in cancer. Herein, we demonstrate the successful utility, validation, and functionality of a doxycycline-inducible ferritin heavy chain (FtH) overexpression model in H1299T non-small-cell lung cancer (NSCLC) cells. Treatment with doxycycline increased the protein expression of FtH with a corresponding decrease in labile iron in vitro and in vivo, as determined by calcein-AM staining and EPR, respectively. Moreover, a subsequent increase in TfR expression was observed. Furthermore, T 2 * MR mapping effectively detected FtH expression in our in vivo model. These results demonstrate that T 2 * relaxation times can be used to monitor changes in FtH expression in tumors with bidirectional correlations depending on the model system. Overall, this study describes the development of an FtH overexpression NSCLC model and its correlation with T 2 * mapping for potential use in patients to interrogate iron metabolic alterations and predict clinical outcomes.
Keyphrases
- iron deficiency
- poor prognosis
- small cell lung cancer
- cell proliferation
- magnetic resonance imaging
- transcription factor
- newly diagnosed
- end stage renal disease
- mass spectrometry
- drug delivery
- single molecule
- binding protein
- reactive oxygen species
- advanced non small cell lung cancer
- papillary thyroid
- tyrosine kinase
- diffusion weighted imaging