1.
Increased serum hepcidin levels during treatment with deferasirox in iron-overloaded patients with myelodysplastic syndrome.
Ghoti, H, Fibach, E, Westerman, M, Gordana, O, Ganz, T, Rachmilewitz, EA
British journal of haematology. 2011;(1):118-20
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Abstract
Hepcidin is a major regulator of iron metabolism. We evaluated changes in serum hepcidin during 3 months of therapy with the iron-chelator deferasirox in patients with low-risk myelodysplastic syndrome and iron overload. Serum hepcidin was found to be high in these patients, correlated with their iron and oxidative status, and further increased by treatment with deferasirox. These findings support the concept that the hepcidin level represents a balance between the stimulating effect of iron overload and the inhibitory effects of erythropoietic activity and oxidative stress. These preliminary findings favour the rationale for iron chelation therapy in such patients.
2.
Hepcidin and cytokines in anaemia.
Means, RT
Hematology (Amsterdam, Netherlands). 2004;(5-6):357-62
Abstract
Hepcidin is a cytokine-induced antibacterial protein which is produced in the liver, circulates in the blood, and is excreted in the urine. It is a major regulator of iron balance in the intestinal mucosa, and appears to have a significant role in the pathogenesis of haemochromatosis and related disorders. Hepcidin appears to be a major contributor to the hypoferraemia associated with inflammation. Serum ferritin concentration is strongly correlated with hepcidin protein levels in either urine or serum, and certain patients with hepatic adenomas exhibit a microcytic, hypoferraemic hepcidin-dependent anaemia. For these reasons, it has been proposed that hepcidin is a primary factor in the pathogenesis of the anaemia of chronic disease (ACD), a cytokine-mediated anaemia commonly encountered in clinical practice and characterized by hypoferraemia with adequate reticuloendothelial iron stores. However, the pathogenetic basis of ACD is not entirely due to changes in iron metabolism, but also involves abnormalities in red cell survival and the erythropoietic response to anaemia. In this review, the evidence for involvement of hepcidin as a major mediator of ACD is evaluated. Hepcidin appears to be a major factor in the systemic iron abnormalities seen in ACD; whether it contributes to the other aspects of the pathogenesis of the syndrome requires further investigation.