New Evidence of Iron and Zinc Interplay at the Enterocyte and Neural Tissues

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Recent Advances in Nutritional Sciences

New Evidence of Iron and Zinc Interplay at the Enterocyte and Neural Tissues¹

Katarzyna Kordas² and Rebecca J. Stoltzfus

Division of Nutritional Sciences, Cornell University, Ithaca, New York

²To whom correspondence should be addressed. E-mail: kk326{at}cornell.edu.

Because combined iron-zinc supplementation regimens are employedwith increasing frequency in field trials to combat co-occurringiron and zinc deficiencies, there is a growing concern for potentialantagonisms between these 2 metals. Several supplementationtrials hinted at such a competition, and the intestinal divalentmetal transporter-1 (DMT1) has often been cited as a possiblesite for its occurrence. We summarize new evidence showing thatalthough iron does seem to reduce the absorption of zinc, theDMT1 is an unlikely site for this absorptive antagonism by virtueof the fact that zinc is not transported by the DMT1. We alsopropose a shift in thinking about iron-zinc interactions fromthe level of enterocyte to other sites/systems in the body thatmay be equally relevant for the outcome and interpretation ofsupplementation trials. We present an overview of iron and zincabsorption and function in neural tissue as one example of possibleinteractions.

KEY WORDS: • DMT1 • antagonism • interaction • iron • zinc

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Recent Advances in Nutritional Sciences

New Evidence of Iron and Zinc Interplay at the Enterocyte and Neural Tissues1

New Evidence of Iron and Zinc Interplay at the Enterocyte and Neural Tissues¹