Relationship between erythropoiesis and the enhanced intestinal uptake of ferric iron in hypoxia in the mouse

Abstract

Summary. An in vitro technique was used to determine the unidirectional Fe³⁺ uptake rates in mouse duodenal fragments. In animals in which erythropoiesis had been stimulated by hypoxia, Fe³⁺ uptake by the duodenal fragments was enhanced due to an increase in V^app_max However, when erythropoiesis was increased by injections of erythropoietin, intestinal Fe³⁺ uptake rates were unaffected. Mice subjected to sub-total nephrectomy showed an increased V^app_max for Fe³⁺ after exposure to hypoxia, despite the absence of an erythropoietic response. When the bone marrow was obliterated by treatment with ⁸⁹Sr, a small increase in V^app_max for Fe³⁺ was found: permeability studies and morpho-metric analyses demonstrated no apparent irradiation damage to the duodenal mucosa of these animals. Exposure of ⁸⁹Sr-treated mice to hypoxia caused a further significant increase in V^app_max. These results indicate that the increase in intestinal mucosal iron uptake which follows hypoxia is not mediated by erythropoietin or other factors associated with increased erythropoiesis.