Abstract

Iron homeostasis is essential for health; moreover, hepcidin-deficiency results in iron overload in both hereditary hemochromatosis and iron-loading anemia. Here, we identified iron modulators by functionally screening hepcidin agonists using a library of 640 FDA-approved drugs in human hepatic Huh7 cells. We validated the results in C57BL/6J mice and a mouse model of hemochromatosis (Hfe−/− mice). Our screen revealed that the anti-rheumatoid arthritis drug auranofin (AUR) potently upregulates hepcidin expression. Interestingly, we found that canonical signaling pathways that regulate iron, including the Bmp/Smad and IL-6/Jak2/Stat3 pathways, play indispensable roles in mediating AUR’s effects. In addition, AUR induces IL-6 via the NF-κB pathway. In C57BL/6J mice, acute treatment with 5 mg/kg AUR activated hepatic IL-6/hepcidin signaling and decreased serum iron and transferrin saturation. Whereas chronically treating male Hfe−/− mice with 5 mg/kg AUR activated hepatic IL-6/hepcidin signaling, decreasing systemic iron overload, but less effective in females. Further analyses revealed that estrogen reduced the ability of AUR to induce IL-6/hepcidin signaling in Huh7 cells, providing a mechanistic explanation for ineffectiveness of AUR in female Hfe−/− mice. Notably, high-dose AUR (25 mg/kg) induces ferroptosis and causes lipid peroxidation through inhibition of thioredoxin reductase (TXNRD) activity. We demonstrate the ferroptosis inhibitor ferrostatin significantly protects liver toxicity induced by high-dose AUR without comprising its beneficial effect on iron metabolism. In conclusion, our findings provide compelling evidence that TXNRD is a key regulator of ferroptosis, and AUR is a novel activator of hepcidin and ferroptosis via distinct mechanisms, suggesting a promising approach for treating hemochromatosis and hepcidin-deficiency related disorders.

Highlights

  • IntroductionIron homeostasis is essential for survival. Under physiological conditions, the liver senses the body’s systemic iron content and—based on this iron content—produces the hormone hepcidin in real time in order to maintain iron homeostasis.[1]Hepcidin restricts the uptake and recycling of iron by degrading ferroportin, the sole iron exporter.[2]

  • In most organisms, iron homeostasis is essential for survival

  • AUR activates the IL-6/hepcidin axis via NF-κB We found that AUR potently upregulates both IL-6 and HAMP1 mRNA levels In Huh[7] cells, and this upregulation was significantly reduced when cells were pretreated with the NF-κB inhibitor BAY11–7082 (Fig. 4a, b), suggesting that NF-κB plays a critical role in mediating the effects of AUR

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Summary

Introduction

Iron homeostasis is essential for survival. Under physiological conditions, the liver senses the body’s systemic iron content and—based on this iron content—produces the hormone hepcidin in real time in order to maintain iron homeostasis.[1]Hepcidin restricts the uptake and recycling of iron by degrading ferroportin, the sole iron exporter.[2]. The liver senses the body’s systemic iron content and—based on this iron content—produces the hormone hepcidin in real time in order to maintain iron homeostasis.[1]. Hepcidin restricts the uptake and recycling of iron by degrading ferroportin, the sole iron exporter.[2] As the master iron-regulating hormone, hepcidin expression is tightly regulated by signaling pathways, including the BMP/SMAD pathway. BMP6 produced by endothelial cells regulates hepcidin expression and maintains systemic iron homeostasis via the protein hemojuvelin in hepatocytes.[3] Iron-bound transferrin causes a conformational change in the transferrin receptors TFR1 and TFR2 at the surface of hepatocytes, causing a shift from TFR1/HFE complexes to TFR2/ HFE complexes.[4,5] In response to systemic iron loading, the BMP6/

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