DMT1, a physiologically relevant apical Cu 1+ transporter of intestinal cells

Arredondo M.; Muñoz P; Núñez M.T.; Mura C.V.

Keywords: copper, kinetics, iron, acid, proteins, inhibition, transport, resistance, antioxidants, animals, cells, ion, protein, cell, absorption, metabolism, humans, human, intestine, caco-2, electrophysiology, macrophage, carrier, mucosa, article, antisense, oligonucleotide, cation, function, ferrous, ferric, controlled, study, priority, natural, journal, 2, Ascorbic, associated, Oligonucleotides,, Intestinal, Trixis, Iron-Binding

Abstract

Despite important advances in the under-standing of copper secretion and excretion, the molecular components of intestinal copper absorption remain a mys-tery. DMT1, also known as Nramp2 and DCT1, is the trans-porter responsible for intestinal iron uptake. Electrophysio-logical evidence suggests that DMT1 can also be a copper transporter. Thus we examined the potential role of DMT1 as a copper transporter in intestinal Caco-2 cells. Treatment of cells with a DMT1 antisense oligonucleotide resulted in 80 and 48% inhibition of iron and copper uptake, respectively. Cells incorporated considerable amounts of copper as Cu 1+, whereas Cu 2+ transport was about 10-fold lower. Cu 1+ inhibited apical Fe 2+ transport. Fe 2+, but not Fe 3+, effectively inhibited Cu 1+ uptake. The iron content of the cells influ enced both copper and iron uptake. Cells with low iron content transported fourfold more iron and threefold more copper than cells with high iron content. These results demonstrate that DMT1 is a physiologically relevant Cu 1+ transporter in intestinal cells, indicating that intestinal absorption of copper and iron are intertwined.

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Título de la Revista: AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY
Volumen: 284
Número: 6 53-6
Editorial: AMER PHYSIOLOGICAL SOC
Fecha de publicación: 2003
URL: http://www.scopus.com/inward/record.url?eid=2-s2.0-0038249175&partnerID=q2rCbXpz