Oral ferroportin inhibitor ameliorates ineffective erythropoiesis in a model of β-thalassemia
Vania Manolova, … , Hanna Sundstrom, Franz Dürrenberger
Vania Manolova, … , Hanna Sundstrom, Franz Dürrenberger
Published October 22, 2019
Citation Information: J Clin Invest. 2020;130(1):491-506. https://doi.org/10.1172/JCI129382.
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Oral ferroportin inhibitor ameliorates ineffective erythropoiesis in a model of β-thalassemia

Abstract

β-Thalassemia is a genetic anemia caused by partial or complete loss of β-globin synthesis, leading to ineffective erythropoiesis and RBCs with a short life span. Currently, there is no efficacious oral medication modifying anemia for patients with β-thalassemia. The inappropriately low levels of the iron regulatory hormone hepcidin enable excessive iron absorption by ferroportin, the unique cellular iron exporter in mammals, leading to organ iron overload and associated morbidities. Correction of unbalanced iron absorption and recycling by induction of hepcidin synthesis or treatment with hepcidin mimetics ameliorates β-thalassemia. However, hepcidin modulation or replacement strategies currently in clinical development all require parenteral drug administration. We identified oral ferroportin inhibitors by screening a library of small molecular weight compounds for modulators of ferroportin internalization. Restricting iron availability by VIT-2763, the first clinical stage oral ferroportin inhibitor, ameliorated anemia and the dysregulated iron homeostasis in the Hbbth3/+ mouse model of β-thalassemia intermedia. VIT-2763 not only improved erythropoiesis but also corrected the proportions of myeloid precursors in spleens of Hbbth3/+ mice. VIT-2763 is currently being developed as an oral drug targeting ferroportin for the treatment of β-thalassemia.

Authors

Vania Manolova, Naja Nyffenegger, Anna Flace, Patrick Altermatt, Ahmet Varol, Cédric Doucerain, Hanna Sundstrom, Franz Dürrenberger

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Figure 2

VIT-2763 competes with hepcidin for ferroportin binding.

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VIT-2763 competes with hepcidin for ferroportin binding. (A) VIT-2763 pr...
(A) VIT-2763 prevented the internalization of TMR-hepcidin in J774 cells. Representative fluorescence microscopy pictures from more than 10 independent experiments are shown with J774 cells at high (2 μM) and low concentrations (0.0001 μM) of VIT-2763 or hepcidin before adding TMR-hepcidin (red). Nuclei are shown in blue. Scale bar: 25 μm. (B) Dose-response curves of VIT-2763 and unlabeled hepcidin in J774 TMR-hepcidin internalization assay. n = 3 per concentration. (C) Dose-response curves of VIT-2763 and unlabeled hepcidin in fluorescence polarization assay. n = 3 per concentration. (D) Dose-response curves in iron efflux assay in T47D cells. Shown are dose-response curves of VIT-2763 or hepcidin alone and both in a combination with equimolar concentrations. n = 3 or 4 per concentration. (E and F) Dose-response curves of VIT-2763 (E) and hepcidin (F) in HEK-FPN1-GFP ferritin-BLA reporter assay with or without doxycycline induction of ferroportin. n = 4 per concentration. Data are presented as mean + SD for each concentration.