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Circulating iron levels influence the regulation of hepcidin following stimulated erythropoiesis

The stimulation of erythrocyte formation increases the demand for iron by the bone marrow and this in turn may affect the levels of circulating diferric transferrin. As this molecule influences the production of the iron regulatory hormone hepcidin, we hypothesised that erythropoiesis-driven changes...

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Published in:Haematologica (Roma) 2018-10, Vol.103 (10), p.1616-1626
Main Authors: Mirciov, Cornel S G, Wilkins, Sarah J, Hung, Grace C C, Helman, Sheridan L, Anderson, Gregory J, Frazer, David M
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container_title Haematologica (Roma)
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creator Mirciov, Cornel S G
Wilkins, Sarah J
Hung, Grace C C
Helman, Sheridan L
Anderson, Gregory J
Frazer, David M
description The stimulation of erythrocyte formation increases the demand for iron by the bone marrow and this in turn may affect the levels of circulating diferric transferrin. As this molecule influences the production of the iron regulatory hormone hepcidin, we hypothesised that erythropoiesis-driven changes in diferric transferrin levels could contribute to the decrease in hepcidin observed following erythropoietin administration. To examine this, we treated mice with erythropoietin and examined diferric transferrin at various time points up to 18 hours. We also investigated the effect of altering diferric transferrin levels on erythropoietin-induced inhibition of , the gene encoding hepcidin. We detected a decrease in diferric transferrin levels five hours after erythropoietin injection and prior to any inhibition of hepatic Hamp1 message. Diferric transferrin returned to control levels 12 hours after erythropoietin injection and had increased beyond control levels by 18 hours. Increasing diferric transferrin levels via intravenous iron injection prevented the inhibition of expression by erythropoietin without altering hepatic iron concentration or the expression of , the gene encoding erythroferrone. These results suggest that diferric transferrin likely contributes to the inhibition of hepcidin production in the period shortly after erythropoietin injection and that, under the conditions examined, increasing diferric transferrin levels can overcome the inhibitory effect of erythroferrone on hepcidin production. They also imply that the decrease in expression in response to an erythropoietic stimulus is likely to be mediated by multiple signals.
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title Circulating iron levels influence the regulation of hepcidin following stimulated erythropoiesis
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