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  • Title: Effect of changes in the ionic environment of reticulocytes on the uptake of transferrin-bound iron.
    Author: Paterson S, Morgan EH.
    Journal: J Cell Physiol; 1980 Dec; 105(3):489-502. PubMed ID: 7462336.
    Abstract:
    Rabbit reticulocytes were incubated with rabbit transferrin labelled with 59Fe and 125I in media in which the NaCl was replaced by other electrolytes or sucrose. Iron and transferrin uptake by the cells was affected by changes in the pH, ionic strength, ionic composition, and the osmolarity of the medium. Uptake was maximal at pH 7.4. A reduction in ionic strength produced by replacing NaCl with sucrose inhibited the uptake in a concentration-dependant manner, greatest inhibition occurring at lowest salt concentration. Similar results were obtained when KCl, LiCl, RbCl, Na2SO4, or K2SO4 were used instead of NaCl. Low ionic strength was found to inhibit the endocytotic uptake of transferrin labelled with colloidal gold, but had only a small effect on transferrin binding to cell membrane receptors. It was concluded that low ionic strength inhibits iron uptake primarily by blocking the endocytosis of transferrin. Three salts, NH4Cl, CaCl2, and MgCl2, produced different results from the above. NH4Cl inhibited iron uptake at all concentrations used. This action was due to an effect on the release of iron from transferrin, which appeared to be taken up by the cells in a normal manner. When the ionic strength of the sucrose medium was increased by adding low concentrations of CaCl2, iron uptake was greater than with equivalent concentrations of NaCl. However, with CaCl2 concentrations above 10 mM, iron uptake was inhibited, due to inhibition of transferrin uptake, possibly by blocking endocytosis. By contrast, MgCl2 stimulated iron uptake at all concentrations used. The results are discussed in terms of the possible effects of ionic strength, pH, and ionic composition of the extracellular fluid on the three main steps involved in iron uptake by immature erythroid cells: transferrin-receptor interaction, endocytosis, and iron release from transferrin.
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