Abstract
Improved methods for studying intracellular reactive Fe(II) are of significant interest for studies of iron metabolism and disease-relevant changes in iron homeostasis. Here we describe a highly selective reactivity-based probe in which a Fenton-type reaction with intracellular labile Fe(II) leads to unmasking of the aminonucleoside puromycin. Puromycin leaves a permanent and dose-dependent mark on treated cells that can be detected with high sensitivity and precision using a high-content, plate-based immunofluorescence assay. Using this new probe and screening approach, we detected alteration of cellular labile Fe(II) in response extracellular iron conditioning, overexpression of iron storage and/or export proteins, and post-translational regulation of iron export. We also used this new tool to demonstrate that labile Fe(II) pools are larger in cancer cells than in nontumorigenic cells.
Publication types
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Research Support, N.I.H., Extramural
MeSH terms
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Ferrous Compounds / analysis*
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Ferrous Compounds / metabolism*
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Fluorescent Antibody Technique
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Fluorescent Dyes / analysis*
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Fluorescent Dyes / chemical synthesis
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Fluorescent Dyes / chemistry*
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Humans
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Molecular Structure
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Puromycin / chemistry
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Puromycin / pharmacology
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Spiro Compounds / analysis
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Spiro Compounds / chemical synthesis
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Spiro Compounds / chemistry
Substances
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Ferrous Compounds
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Fluorescent Dyes
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Spiro Compounds
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Puromycin
Associated data
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PubChem-Substance/313573299
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PubChem-Substance/313573300
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PubChem-Substance/313573301
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PubChem-Substance/313573302
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PubChem-Substance/313573303
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PubChem-Substance/313573304
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PubChem-Substance/313573305
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PubChem-Substance/313573306
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PubChem-Substance/313573307
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PubChem-Substance/313573308
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PubChem-Substance/313573309
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PubChem-Substance/313573310
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PubChem-Substance/313573311
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PubChem-Substance/313573312