Iron supply determines apical/basolateral membrane distribution of intestinal iron transporters DMT1 and ferroportin 1
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Núñez González, Marco
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Iron supply determines apical/basolateral membrane distribution of intestinal iron transporters DMT1 and ferroportin 1
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Abstract
00168.2009.—Intestinal iron absorption comprises
the coordinated activity of the influx transporter divalent metal
transporter 1 (DMT1) and the efflux transporter ferroportin (FPN). In
this work, we studied the movement of DMT1 and FPN between
cellular compartments as a function of iron supply. In rat duodenum,
iron gavage resulted in the relocation of DMT1 to basal domains and
the internalization of basolateral FPN. Considerable FPN was also
found in apical domains. In Caco-2 cells, the apical-to-basal movement
of cyan fluorescent protein-tagged DMT1 was complete 90 min
after the addition of iron. Steady-state membrane localization studies
in Caco-2 cells revealed that iron status determined the apical/
basolateral membrane distribution of DMT1 and FPN. In agreement
with the membrane distribution of the transporters, 55Fe flux experiments
revealed inward and outward iron fluxes at both membrane
domains. Antisense oligonucleotides targeted to DMT1 or FPN inhibited
basolateral iron uptake and apical iron efflux, respectively, indicating
the participation of DMT1 and FPN in these fluxes. The fluxes
were regulated by the iron supply; increased iron reduced apical
uptake and basal efflux and increased basal uptake and apical efflux.
These findings suggest a novel mechanism of regulation of intestinal
iron absorption based on inward and outward fluxes at both membrane
domains, and repositioning of DMT1 and FPN between membrane
and intracellular compartments as a function of iron supply. This
mechanism should be complementary to those based in the transcriptional
or translational regulation of iron transport proteins.
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This work was financed by Grant 1070840 from Fondo Nacional de Ciencia
y Tecnología (FONDECYT), Chile, and a grant from the Millennium Scientific
Initiative to the Millennium Institute of Cell Dynamic and Biotechnology.
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URI: https://repositorio.uchile.cl/handle/2250/119057
DOI: doi:10.1152/ajpcell.00168.2009
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Am J Physiol Cell Physiol 298: C477–C485, 2010.
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