Minihepcidin peptides as disease modifiers in mice affected by β-thalassemia and polycythemia vera

Casu, Carla; Oikonomidou, Paraskevi Rea; Chen, Huiyong; Nandi, Vijay; Ginzburg, Yelena; Prasad, Princy; Fleming, Robert E.; Shah, Yatrik M.; Valore, Erika V.; Nemeth, Elizabeta; Ganz, Tomas; MacDonald, Brian; Rivella, Stefano

doi:10.1182/blood-2015-10-676742

Cited by 130 publications

(150 citation statements)

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“…Compared to placebo-treated mice, flow cytometry studies revealed that animals receiving JAK2i exhibited a reduction in the number of erythroid nucleated cells in the spleen but not in the bone marrow (BM) ( Figure 1E and Online Supplementary Figure S1B). 12 This suggests that JAK2i might target preferentially rapidly proliferating erythroid progenitors in the spleen, as in extramedullary stress erythropoiesis. No differences were observed in serum HEPCIDIN levels (Online Supplementary figure 2A) or other iron parameters (Online Supplementary Figure S2B-F).…”

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confidence: 99%

Short-term administration of JAK2 inhibitors reduces splenomegaly in mouse models of β-thalassemia intermedia and major

et al. 2017

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Short-term administration of JAK2 inhibitors reduces splenomegaly in mouse models of β-thalassemia intermedia and major

et al. 2017

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“…Thus, minihepcidins can be used as an adjunct to diseases with iron overload and ineffective erythropoiesis, such as β-thalassemia and polycythemia vera [172]. Other experiments are being conducted with the aim of increasing the utility of the minihepcidin molecule by improving the ease of its synthesis, reducing costs, and improving its bioavailability [173,174].…”

Section: Hepcidinmentioning

confidence: 99%

Hepcidin: Homeostasis and Diseases Related to Iron Metabolism

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Iron is an essential metal for cell survival that is regulated by the peptide hormone hepcidin. However, its influence on certain diseases is directly related to iron metabolism or secondary to underlying diseases. Genetic alterations influence the serum hepcidin concentration, which can lead to an iron overload in tissues, as observed in haemochromatosis, in which serum hepcidin or defective hepcidin synthesis is observed. Another genetic imbalance of iron is iron-refractory anaemia, in which serum concentrations of hepcidin are increased, precluding the flow and efflux of extra- and intracellular iron. During the pathogenesis of certain diseases, the resulting oxidative stress, as well as the increase in inflammatory cytokines, influences the transcription of the HAMP gene to generate a secondary anaemia due to the increase in the serum concentration of hepcidin. To date, there is no available drug to inhibit or enhance hepcidin transcription, mostly due to the cytotoxicity described in the in vitro models. The proposed therapeutic targets are still in the early stages of clinical trials. Some candidates are promising, such as heparin derivatives and minihepcidins. This review describes the main pathways of systemic and genetic regulation of hepcidin, as well as its influence on the disorders related to iron metabolism.

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“…To this end, Ganz and his team have synthesized a series of mini-hepcidins; short peptides that maintain hepcidin action, are re-engineered to be stable, and could potentially be orally active [38,39] . In the global health context mini-hepcidin might be able to prevent the iron overload that occurs even in untransfused beta-thalassemia (due to the hepcidin-suppressing action of excess erythroferrone caused by the ineffective erythropoiesis that generates excess erythroblasts) [40] . Conversely, there is great interest in the possibility that hepcidin antagonists could be used to prevent or treat the anemia of chronic disease and anemias associated with treatments such as cancer chemotherapy [37] .…”

Section: Prospects and Possible Applications For Hepcidin Agonists Anmentioning

confidence: 99%

Clinical Implications of New Insights into Hepcidin-Mediated Regulation of Iron Absorption and Metabolism

Prentice¹

2017

Ann Nutr Metab

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The fact that humans must balance their need for iron against its potential for causing harm has been known for several centuries, but the molecular mechanisms by which we achieve this feat have only been revealed in the last 2 decades. Chief amongst these is the discovery of the master-regulatory liver-derived hormone hepcidin. By switching off ferroportin in enterocytes and macrophages, hepcidin exerts fine control over both iron absorption and its distribution among tissues. Hepcidin expression is downregulated by low iron status and active erythropoiesis and upregulated by iron overload and infection and/or inflammation. The latter mechanism explains the etiology of the anemia of chronic infection. Pharmaceutical companies are actively developing hepcidin agonists and antagonists to combat iron overload and anemia, respectively. In a global health context the discovery of hepcidin shines a new light on the world's most prevalent micronutrient problem; iron deficiency and its consequent anemia. It is now apparent that humans are not poorly designed to absorb dietary iron, but rather are exerting a tonic downregulation of iron absorption to protect themselves against infection. These new insights suggest that interventions to reduce infections and inflammation will be at least as effective as dietary interventions and that the latter will not succeed without the former.

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Minihepcidin peptides as disease modifiers in mice affected by β-thalassemia and polycythemia vera

Cited by 130 publications

References 29 publications

Short-term administration of JAK2 inhibitors reduces splenomegaly in mouse models of β-thalassemia intermedia and major

Short-term administration of JAK2 inhibitors reduces splenomegaly in mouse models of β-thalassemia intermedia and major

Hepcidin: Homeostasis and Diseases Related to Iron Metabolism

Clinical Implications of New Insights into Hepcidin-Mediated Regulation of Iron Absorption and Metabolism

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