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Polarization dictates iron handling by inflammatory and alternatively activated macrophages
- Publication Year :
- 2010
-
Abstract
- Background Macrophages play a key role in iron homeostasis. In peripheral tissues, they are known to polarize into classically activated (or M1) macrophages and alternatively activated (or M2) macrophages. Little is known on whether the polarization program influences the ability of macrophages to store or recycle iron and the molecular machinery involved in the processes. Design and Methods Inflammatory/M1 and alternatively activated/M2 macrophages were propagated in vitro from mouse bone-marrow precursors and polarized in the presence of recombinant interferon-γ or interleukin-4. We characterized and compared their ability to handle radioactive iron, the characteristics of the intracellular iron pools and the expression of molecules involved in internalization, storage and export of the metal. Moreover we verified the influence of iron on the relative ability of polarized macrophages to activate antigen-specific T cells. Results M1 macrophages have low iron regulatory protein 1 and 2 binding activity, express high levels of ferritin H, low levels of transferrin receptor 1 and internalize - albeit with low efficiency - iron only when its extracellular concentration is high. In contrast, M2 macrophages have high iron regulatory protein binding activity, express low levels of ferritin H and high levels of transferring receptor 1. M2 macrophages have a larger intracellular labile iron pool, effectively take up and spontaneously release iron at low concentrations and have limited storage ability. Iron export correlates with the expression of ferroportin, which is higher in M2 macrophages. M1 and M2 cells activate antigen-specific, MHC class II-restricted T cells. In the absence of the metal, only M1 macrophages are effective. Conclusions Cytokines that drive macrophage polarization ultimately control iron handling, leading to the differentiation of macrophages into a subset which has a relatively sealed intracellular iron content (M1) or into a subset endowed with the ability to recycle the metal (M2). © 2010 Ferrata Storti Foundation.
- Subjects :
- Macrophage
Apoferritin
Iron
media_common.quotation_subject
Macrophage-activating factor
Ferroportin
Macrophage polarization
Transferrin receptor
Inflammation
Lymphocyte Activation
Interferon-gamma
Mice
Receptors, Transferrin
medicine
Iron Regulatory Protein 1
Internalization
Iron Regulatory Protein 2
gene expression profiling microarrays iron handling inflammation macrophages
Interleukin 4
media_common
biology
Animal
Hematology
Macrophage Activation
Cell biology
T-Lymphocyte
Gene Expression Regulation
Cation Transport Protein
Biochemistry
biology.protein
Original Article
Interleukin-4
medicine.symptom
Intracellular
Subjects
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.doi.dedup.....23a3201912625af0ceddb2702d1a448d