Lipid accumulation in human breast cancer cells injured by iron depletors

Current insights into the effects of iron deficiency in tumour cells are not commensurate with the importance of iron in cell metabolism. Studies have predominantly focused on the effects of oxygen or glucose scarcity in tumour cells, while attributing insufficient emphasis to the inadequate supply...

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Published in:Journal of experimental & clinical cancer research 2018-04, Vol.37 (1), p.75-75, Article 75
Main Authors: De Bortoli, Maida, Taverna, Elena, Maffioli, Elisa, Casalini, Patrizia, Crisafi, Francesco, Kumar, Vikas, Caccia, Claudio, Polli, Dario, Tedeschi, Gabriella, Bongarzone, Italia
Format: Article
Language:English
Subjects:
Breast cancer
Breast Neoplasms - metabolism
Breast Neoplasms - pathology
Cancer cells
Cell Death - drug effects
Cell Line, Tumor
cytoplasm vacuolation
Deferoxamine - pharmacology
Development and progression
Endoplasmic Reticulum - metabolism
Endoplasmic Reticulum - pathology
endoplasmic reticulum stress
Female
Genetic aspects
Humans
Iron - metabolism
Iron Chelating Agents - pharmacology
iron chelation
lipid droplets
Lipid metabolism
Lipid Metabolism - drug effects
macropinocytosis
Membrane Potential, Mitochondrial - drug effects
Mitochondria - drug effects
Mitochondria - metabolism
Physiological aspects
Proteome
Proteomics - methods
Vacuoles - metabolism
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Summary:Current insights into the effects of iron deficiency in tumour cells are not commensurate with the importance of iron in cell metabolism. Studies have predominantly focused on the effects of oxygen or glucose scarcity in tumour cells, while attributing insufficient emphasis to the inadequate supply of iron in hypoxic regions. Cellular responses to iron deficiency and hypoxia are interlinked and may strongly affect tumour metabolism. We examined the morphological, proteomic, and metabolic effects induced by two iron chelators-deferoxamine (DFO) and di-2-pyridylketone 4,4-dimethyl-3-thiosemicarbazone (Dp44mT)-on MDA-MB-231 and MDA-MB-157 breast cancer cells. These chelators induced a cytoplasmic massive vacuolation and accumulation of lipid droplets (LDs), eventually followed by implosive, non-autophagic, and non-apoptotic death similar to methuosis. Vacuoles and LDs are generated by expansion of the endoplasmic reticulum (ER) based on extracellular fluid import, which includes unsaturated fatty acids that accumulate in LDs. Typical physiological phenomena associated with hypoxia are observed, such as inhibition of translation, mitochondrial dysfunction, and metabolic remodelling. These survival-oriented changes are associated with a greater expression of epithelial/mesenchymal transcription markers. Iron starvation induces a hypoxia-like program able to scavenge nutrients from the extracellular environment, and cells assume a hypertrophic phenotype. Such survival strategy is accompanied by the ER-dependent massive cytoplasmic vacuolization, mitochondrial dysfunctions, and LD accumulation and then evolves into cell death. LDs containing a greater proportion of unsaturated lipids are released as a consequence of cell death. The consequence of the disruption of iron metabolism in tumour tissue and the effects of LDs on intercellular communication, cancer-inflammation axis, and immunity remain to be explored. Considering the potential benefits, these are crucial subjects for future mechanistic and clinical studies.
ISSN:1756-9966
0392-9078
1756-9966
DOI:10.1186/s13046-018-0737-z