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Mackenzie, B, Ujwal, ML, Chang, MH, Romero, MF and Hediger, MA (2006) Divalent metal-ion transporter DMT1 mediates both H+ -coupled Fe2+ transport and uncoupled fluxes. Pflugers Arch. 451:544-58


The H(+) -coupled divalent metal-ion transporter DMT1 serves as both the primary entry point for iron into the body (intestinal brush-border uptake) and the route by which transferrin-associated iron is mobilized from endosomes to cytosol in erythroid precursors and other cells. Elucidating the molecular mechanisms of DMT1 will therefore increase our understanding of iron metabolism and the etiology of iron overload disorders. We expressed wild type and mutant DMT1 in Xenopus oocytes and monitored metal-ion uptake, currents and intracellular pH. DMT1 was activated in the presence of an inwardly directed H(+) electrochemical gradient. At low extracellular pH (pH(o)), H(+) binding preceded binding of Fe(2+) and its simultaneous translocation. However, DMT1 did not behave like a typical ion-coupled transporter at higher pH(o), and at pH(o) 7.4 we observed Fe(2+) transport that was not associated with H(+) influx. His(272) --> Ala substitution uncoupled the Fe(2+) and H(+) fluxes. At low pH(o), H272A mediated H(+) uniport that was inhibited by Fe(2+). Meanwhile H272A-mediated Fe(2+) transport was independent of pH(o). Our data indicate (i) that H(+) coupling in DMT1 serves to increase affinity for Fe(2+) and provide a thermodynamic driving force for Fe(2+) transport and (ii) that His-272 is critical in transducing the effects of H(+) coupling. Notably, our data also indicate that DMT1 can mediate facilitative Fe(2+) transport in the absence of a H(+) gradient. Since plasma membrane expression of DMT1 is upregulated in liver of hemochromatosis patients, this H(+) -uncoupled facilitative Fe(2+) transport via DMT1 can account for the uptake of nontransferrin-bound plasma iron characteristic of iron overload disorders.


PubMed Online version:10.1007/s00424-005-1494-3


Animals; Cation Transport Proteins/genetics; Cation Transport Proteins/metabolism; Cations, Divalent/metabolism; Gene Expression Regulation; Ion Transport; Iron/metabolism; Mutation; Oocytes; Protein Binding; Protons; Rats; Xenopus laevis



Gene product Qualifier GO Term Evidence Code with/from Aspect Extension Notes Status



GO:0006826: iron ion transport

ECO:0000315: mutant phenotype evidence used in manual assertion


Seeded From UniProt




GO:0015093: ferrous iron transmembrane transporter activity

ECO:0000315: mutant phenotype evidence used in manual assertion


Seeded From UniProt


See also


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