Abstract
Iron overload increases the risk of osteoporosis, which leads to an increase in the incidences of bone fracture after menopause. In vitro studies have demonstrated that excess iron can inhibit osteoblast activity. Hepcidin, a central regulator of iron homeostasis, prevents iron overload, and thus, it is considered to have anti-osteoporosis effects. In this study, a zebrafish model was employed to investigate the therapeutic role of hepcidin in iron overload-induced inhibition of bone formation. Our results show that ferric ammonium citrate (FAC) treatment decreased osteoblast-specific gene expression (runx2a, runx2b, and bglap) and bone mineralization in the zebrafish embryo, accompanied with increased whole-body iron levels and oxidative stress. Bone mineralization and osteoblast-specific gene expression increased with the microinjection of hepcidin-flag Capped-mRNA into zebrafish embryos. Moreover, the whole-body iron content and oxidative stress in the iron-overloaded zebrafish embryos decreased when microinjection of hepcidin preceded the FAC treatment. Therefore, our study suggests that hepcidin could prevent and rescue reduced bone formation caused by FAC treatment by preventing iron absorption.
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