Effects of Exogenous Transferrin on the Regulation of Iron Metabolism and Erythropoiesis in Iron Deficiency With or Without Anemia.

Erythropoietic response is controlled not only by erythropoietin but also by iron. In addition to its role in iron delivery, transferrin also functions as a signaling molecule, with effects on both iron homeostasis and erythropoiesis. We investigated hematologic parameters, iron status and expression of key proteins, including the hepatic iron regulatory protein hepcidin and the suppressive erythroid factor , in mice subject to dietary iron deficiency with and without anemia.

Lobe specificity of iron binding to transferrin modulates murine erythropoiesis and iron homeostasis.

Transferrin, the major plasma iron-binding molecule, interacts with cell-surface receptors to deliver iron, modulates hepcidin expression, and regulates erythropoiesis. Transferrin binds and releases iron via either or both of 2 homologous lobes (N and C). To test the hypothesis that the specificity of iron occupancy in the N vs C lobe influences transferrin function, we generated mice with mutations to abrogate iron binding in either lobe (TfN-bl or TfC-bl).

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

In β-thalassemia and polycythemia vera (PV), disordered erythropoiesis triggers severe pathophysiological manifestations. β-Thalassemia is characterized by ineffective erythropoiesis, reduced production of erythrocytes, anemia, and iron overload and PV by erythrocytosis and thrombosis. Minihepcidins are hepcidin agonists that have been previously shown to prevent iron overload in murine models of hemochromatosis and induce iron-restricted erythropoiesis at higher doses.