K N Millard1, D M Frazer, S J Wilkins, G J Anderson. 1. Iron Metabolism Laboratory, The Queensland Institute of Medical Research, PO Royal Brisbane Hospital, Brisbane, Queensland 4029 Australia.
Abstract
BACKGROUND: Iron absorption increases during pregnancy to cater for the increased iron requirements of the growing fetus. AIMS: To investigate the role of the duodenal iron transport molecules and hepatic regulatory molecules in coordinating the changes in iron absorption observed during pregnancy. METHODS: Rats at various days of gestation and 24-48 hours post-partum were examined for hepatic expression of hepcidin, transferrin receptors 1 and 2, and HFE (the gene mutated in the most prevalent form of hereditary haemochromatosis), and duodenal expression of divalent metal transporter 1 (DMT1), duodenal cytochrome b (Dcytb), iron regulated mRNA (Ireg1), and hephaestin (Hp) by ribonuclease protection assay, western blotting, and immunohistochemistry. RESULTS: Decreased hepatic non-haem iron and transferrin saturation and increased expression of transferrin receptor 1 in the liver indicated a progressive reduction in maternal body iron stores during pregnancy. Duodenal expression of the iron transport molecules DMT1, Dcytb, and Ireg1 increased during pregnancy, and this corresponded with a reduction in hepcidin, HFE, and transferrin receptor 2 expression in the liver. Expression of all molecules returned towards control values by 24-48 hours post-partum. CONCLUSIONS: These data indicate that increased expression of key iron transport molecules is responsible for the elevated iron absorption associated with pregnancy, and implicate hepcidin, HFE, and transferrin receptor 2 in determining how the maternal iron homeostatic machinery responds to the increased iron demands accompanying gestation.
BACKGROUND:Iron absorption increases during pregnancy to cater for the increased iron requirements of the growing fetus. AIMS: To investigate the role of the duodenal iron transport molecules and hepatic regulatory molecules in coordinating the changes in iron absorption observed during pregnancy. METHODS:Rats at various days of gestation and 24-48 hours post-partum were examined for hepatic expression of hepcidin, transferrin receptors 1 and 2, and HFE (the gene mutated in the most prevalent form of hereditary haemochromatosis), and duodenal expression of divalent metal transporter 1 (DMT1), duodenal cytochrome b (Dcytb), iron regulated mRNA (Ireg1), and hephaestin (Hp) by ribonuclease protection assay, western blotting, and immunohistochemistry. RESULTS: Decreased hepatic non-haem iron and transferrin saturation and increased expression of transferrin receptor 1 in the liver indicated a progressive reduction in maternal body iron stores during pregnancy. Duodenal expression of the iron transport molecules DMT1, Dcytb, and Ireg1 increased during pregnancy, and this corresponded with a reduction in hepcidin, HFE, and transferrin receptor 2 expression in the liver. Expression of all molecules returned towards control values by 24-48 hours post-partum. CONCLUSIONS: These data indicate that increased expression of key iron transport molecules is responsible for the elevated iron absorption associated with pregnancy, and implicate hepcidin, HFE, and transferrin receptor 2 in determining how the maternal iron homeostatic machinery responds to the increased iron demands accompanying gestation.
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