[HTML][HTML] Erythropoietin administration in humans causes a marked and prolonged reduction in circulating hepcidin

DR Ashby, DP Gale, M Busbridge, KG Murphy… - …, 2010 - ncbi.nlm.nih.gov
DR Ashby, DP Gale, M Busbridge, KG Murphy, ND Duncan, TD Cairns, DH Taube…
haematologica, 2010ncbi.nlm.nih.gov
Expression of hepcidin, the key hormone governing iron transport, is reduced by anemia in a
manner which appears dependent on increased bone marrow activity. The temporal
associations between plasma hepcidin and other iron parameters were examined in healthy
humans after erythropoietin administration and venesection. Profound hepcidin suppression
appeared abruptly 24 hours after subcutaneous erythropoietin (P= 0.003), and was near
maximal at onset, with peak (mid-afternoon) levels reduced by 73.2%, gradually recovering …
Abstract
Expression of hepcidin, the key hormone governing iron transport, is reduced by anemia in a manner which appears dependent on increased bone marrow activity. The temporal associations between plasma hepcidin and other iron parameters were examined in healthy humans after erythropoietin administration and venesection. Profound hepcidin suppression appeared abruptly 24 hours after subcutaneous erythropoietin (P= 0.003), and was near maximal at onset, with peak (mid-afternoon) levels reduced by 73.2%, gradually recovering over the following two weeks. Minor changes in circulating iron, soluble transferrin receptor and growth differentiation factor-15 were observed after the reduction in hepcidin. Similar but more gradual changes in these parameters were observed after reducing hematocrit by removal of 250 mL blood. These human studies confirm the importance of a rapidly responsive marrow–hepcidin axis in regulating iron supply in vivo, and suggest that this axis is regulated by factors other than circulating iron, soluble transferrin receptor or growth differentiation factor-15.
ncbi.nlm.nih.gov