Hypoxia-inducible factor regulates hepcidin via erythropoietin-induced erythropoiesis
Qingdu Liu, … , Knut Niss, Volker H. Haase
Qingdu Liu, … , Knut Niss, Volker H. Haase
Published November 1, 2012
Citation Information: J Clin Invest. 2012;122(12):4635-4644. https://doi.org/10.1172/JCI63924.
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Research Article Hematology

Hypoxia-inducible factor regulates hepcidin via erythropoietin-induced erythropoiesis

Abstract

Iron demand in bone marrow increases when erythropoiesis is stimulated by hypoxia via increased erythropoietin (EPO) synthesis in kidney and liver. Hepcidin, a small polypeptide produced by hepatocytes, plays a central role in regulating iron uptake by promoting internalization and degradation of ferroportin, the only known cellular iron exporter. Hypoxia suppresses hepcidin, thereby enhancing intestinal iron uptake and release from internal stores. While HIF, a central mediator of cellular adaptation to hypoxia, directly regulates renal and hepatic EPO synthesis under hypoxia, the molecular basis of hypoxia/HIF-mediated hepcidin suppression in the liver remains unclear. Here, we used a genetic approach to disengage HIF activation from EPO synthesis and found that HIF-mediated suppression of the hepcidin gene (Hamp1) required EPO induction. EPO induction was associated with increased erythropoietic activity and elevated serum levels of growth differentiation factor 15. When erythropoiesis was inhibited pharmacologically, Hamp1 was no longer suppressed despite profound elevations in serum EPO, indicating that EPO by itself is not directly involved in Hamp1 regulation. Taken together, we provide in vivo evidence that Hamp1 suppression by the HIF pathway occurs indirectly through stimulation of EPO-induced erythropoiesis.

Authors

Qingdu Liu, Olena Davidoff, Knut Niss, Volker H. Haase

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Figure 5

Hif-associated Hamp1 suppression requires erythropoietic activity.

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Hif-associated Hamp1 suppression requires erythropoietic activity. (A)...
(A) Renal and hepatic Epo (n = 3, 5, and 3, respectively) in control mice and Vhl–/– mutants with or without Cp treatment and liver Hamp1 RNA levels (n = 6, 4, and 3, respectively) in nontreated control, Cp-treated control, and Cp-treated Vhl–/– mutants. Lower panels show Hct, reticulocyte counts, (n = 3 and 4, respectively), serum Epo (n = 3 and 5, respectively), and spleen to body weight ratios in nontreated control and Cp-treated Vhl–/– mice (n = 3 each). (B) Hamp1 mRNA levels in control and Hif2a/Pax3-cre (P3) mutants exposed to chronic hypoxia (10% O2 for 10 days) (n = 3 each) and in thalassemic mice (th3/th3) and control littermates (+/+) (n = 4 each). Shown are mean values ± SEM. *P < 0.05; **P < 0.01; ***P < 0.001, for comparisons with control group or comparison with normoxia. Cp, mice pretreated with Cp; Hx, treatment with 10% O2 for 10 days.