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C Guida, S Altamura, FA Klein, B Galy, M Boutros, AJ Ulmer, MW Hentze and MU Muckenthaler
Abstract
Regulation of iron metabolism and innate immunity are tightly interlinked. The acute phase response to infection and inflammation induces alterations in iron homeostasis that reduce iron supplies to pathogens. The iron-hormone hepcidin is activated by such stimuli causing degradation of the iron exporter ferroportin and reduced iron release from macrophages, suggesting that hepcidin is the crucial effector of inflammatory hypoferremia. Here we report the discovery of an acute inflammatory condition that is mediated by Toll-like receptor (TLR) 2 and TLR6 and which induces hypoferremia in mice injected with TLR ligands. Stimulation of TLR2/TLR6 triggers profound decreases in ferroportin mRNA and protein expression in bone marrow-derived macrophages, liver and spleen of mice without changing hepcidin expression. Furthermore, C326S ferroportin mutant mice with a disrupted hepcidin/ferroportin regulatory circuitry respond to injection of the TLR2/6 ligands FSL1 or PAM3CSK4 by ferroportin down regulation and a reduction of serum iron levels. Our findings challenge the prevailing role of hepcidin in hypoferremia and suggest that rapid hepcidin-independent ferroportin down regulation in the major sites of iron recycling may represent a first line response to restrict iron access for numerous pathogens.
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Concepts
Hepcidin, Ferroportin, Iron deficiency anemia, Iron metabolism, Iron deficiency, Iron, Human iron metabolism, Immune system
MeSH headings
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