Hepatic hepcidin/intestinal HIF-2α axis maintains iron absorption during iron deficiency and overload
Andrew J. Schwartz, … , Justin A. Colacino, Yatrik M. Shah
Andrew J. Schwartz, … , Justin A. Colacino, Yatrik M. Shah
Published October 23, 2018
Citation Information: J Clin Invest. 2019;129(1):336-348. https://doi.org/10.1172/JCI122359.
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Research Article Gastroenterology

Hepatic hepcidin/intestinal HIF-2α axis maintains iron absorption during iron deficiency and overload

Abstract

Iron-related disorders are among the most prevalent diseases worldwide. Systemic iron homeostasis requires hepcidin, a liver-derived hormone that controls iron mobilization through its molecular target ferroportin (FPN), the only known mammalian iron exporter. This pathway is perturbed in diseases that cause iron overload. Additionally, intestinal HIF-2α is essential for the local absorptive response to systemic iron deficiency and iron overload. Our data demonstrate a hetero-tissue crosstalk mechanism, whereby hepatic hepcidin regulated intestinal HIF-2α in iron deficiency, anemia, and iron overload. We show that FPN controlled cell-autonomous iron efflux to stabilize and activate HIF-2α by regulating the activity of iron-dependent intestinal prolyl hydroxylase domain enzymes. Pharmacological blockade of HIF-2α using a clinically relevant and highly specific inhibitor successfully treated iron overload in a mouse model. These findings demonstrate a molecular link between hepatic hepcidin and intestinal HIF-2α that controls physiological iron uptake and drives iron hyperabsorption during iron overload.

Authors

Andrew J. Schwartz, Nupur K. Das, Sadeesh K. Ramakrishnan, Chesta Jain, Mladen T. Jurkovic, Jun Wu, Elizabeta Nemeth, Samira Lakhal-Littleton, Justin A. Colacino, Yatrik M. Shah

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Figure 7

Inhibition of HIF-2α using PT2385 reverses iron accumulation in multiple tissues in hepcidin-deficient hemochromatosis.

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Inhibition of HIF-2α using PT2385 reverses iron accumulation in multiple...
(A) Experimental design for oral gavage of vehicle or PT2385 in HampΔLiv mice. (B) qPCR analysis of hepatic Hamp and kidney Epo transcript levels (n = 5–7 per group). (C) Analysis of RBC, HB, and HCT (n = 5–7 per group). (D) Western blot analysis of FPN, DMT1, and DCYTB in duodenal membrane fractions (n = 3 per group). (E) Representative Prussian blue staining for iron in liver tissues. Original magnification, ×20 (n = 3 per group). (F) Serum, liver, heart, and pancreatic iron content (n = 5–7 per group). (G) Schematic representation of hepatic hepcidin/intestinal HIF-2 axis. Male samples are designated as squares, and female samples are designated as circles. Data represent the mean ± SEM. Statistical significance was determined by 1-way ANOVA with Tukey’s post hoc test. *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001 versus vehicle Hampfl/fl; #P < 0.05, ##P < 0.01, and ###P < 0.001 versus vehicle HampΔLiv. PT, PT2385; Veh, vehicle.