Iron Transport

1 July 2000

journal article
review article
Published by Annual Reviews in Annual Review of Nutrition

Vol. 20 (1) , 129-151
https://doi.org/10.1146/annurev.nutr.20.1.129

Abstract

Iron homeostasis is maintained by regulating its absorption: Under conditions of deficiency, assimilation is enhanced but iron uptake is otherwise limited to prevent toxicity due to overload. Iron deficiency remains the most important micronutrient deficiency worldwide, but increasing awareness of the genetic basis for iron-loading diseases points to iron overload as a major public health issue as well. Recent identification of mutant alleles causing iron uptake disorders in mice and humans provides new insights into the mechanisms involved in iron transport and its regulation. This article summarizes these discoveries and discusses their impact on our current understanding of iron transport and its regulation.

Keywords

This publication has 193 references indexed in Scilit:

Hemochromatosis 1988: is one gene enough?
Journal of Hepatology, 1998
The Human Nramp2 Gene: Characterization of the Gene Structure, Alternative Splicing, Promoter Region and Polymorphisms
Blood Cells, Molecules, and Diseases, 1998
Characterization of Fe2+ and Fe3+ transport by iron-loaded cardiac myocytes
Toxicology, 1997
Pumping iron in the '90s
Trends in Cell Biology, 1996
Presence of iron catalytic for free radical reactions in patients undergoing chemotherapy: implications for therapeutic management
Cancer Letters, 1995
Transferrin-receptor-independent but iron-dependent proliferation of variant Chinese hamster ovary cells
Experimental Cell Research, 1992
Bleomycin‐detectable iron in the plasma of premature and full‐term neonates
FEBS Letters, 1992
Human melanotransferrin (p97) has only one functional iron‐binding site
FEBS Letters, 1992
Human macrophage hemoglobin‐iron metabolism in vitro
American Journal of Hematology, 1982
A non-transferrin-bound serum iron in idiopathic hemochromatosis
Digestive Diseases and Sciences, 1980