Figure 6.
Figure 6. The proposed mechanism of FGF-6 in the regulation of hepcidin expression and iron concentrations. Paracrine FGF-6 interacts with FGFR with heparin or heparin sulfate proteoglycan (HPSG) as the cofactor to initial FGF pathway.59 Activated FGFRs have the ability to phosphorylate specific tyrosine residues and activate STAT3 pathway.60 Iron overload and inflammation could positively regulate hepcidin by BMP/Smad pathway61 and inflammatory IL-6/STAT3 pathways.62,63 However, loss-of-function FGF6 variants will silence the FGF6-FGFR pathway, increase free heparin, and reduce expression of hepcidin, thereby decreasing the inhibition of ferroportin-mediated iron transfer from the intracellular compartment to the blood (ie, increasing plasma levels of iron). In SSc patients, IL-6 is increased so that hepcidin will be positively regulated which suppresses iron release to the plasma generating higher iron levels in skin cells.

The proposed mechanism of FGF-6 in the regulation of hepcidin expression and iron concentrations. Paracrine FGF-6 interacts with FGFR with heparin or heparin sulfate proteoglycan (HPSG) as the cofactor to initial FGF pathway.59  Activated FGFRs have the ability to phosphorylate specific tyrosine residues and activate STAT3 pathway.60  Iron overload and inflammation could positively regulate hepcidin by BMP/Smad pathway61  and inflammatory IL-6/STAT3 pathways.62,63  However, loss-of-function FGF6 variants will silence the FGF6-FGFR pathway, increase free heparin, and reduce expression of hepcidin, thereby decreasing the inhibition of ferroportin-mediated iron transfer from the intracellular compartment to the blood (ie, increasing plasma levels of iron). In SSc patients, IL-6 is increased so that hepcidin will be positively regulated which suppresses iron release to the plasma generating higher iron levels in skin cells.

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