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Query: UMLS:C0240066 (
iron deficiency
)
7,156
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have isolated and characterized a novel iron-regulated gene that is homologous to the divalent metal transporter 1 family of metal transporters. This gene, termed metal transporter protein (mtp1), is expressed in tissues involved in body iron homeostasis including the developing and mature reticuloendothelial system, the duodenum, and the pregnant uterus.
MTP1
is also expressed in muscle and central nervous system cells in the embryo. At the subcellular level,
MTP1
is localized to the basolateral membrane of the duodenal epithelial cell and a cytoplasmic compartment of reticuloendothelial system cells. Overexpression of
MTP1
in tissue culture cells results in intracellular iron depletion. In the adult mouse,
MTP1
expression in the liver and duodenum are reciprocally regulated.
Iron deficiency
induces
MTP1
expression in the duodenum but down-regulates expression in the liver. These data indicate that
MTP1
is an iron-regulated membrane-spanning protein that is involved in intracellular iron metabolism.
...
PMID:A novel mammalian iron-regulated protein involved in intracellular iron metabolism. 1074 49
Maternal
iron deficiency
during pregnancy induces anaemia in the developing fetus; however, the severity tends to be less than in the mother. The mechanism underlying this resistance has not been determined. We have measured placental expression of proteins involved in iron transfer in pregnant rats given diets with decreasing levels of iron and examined the effect of
iron deficiency
on iron transfer across BeWo cell layers, a model for placental iron transfer. Transferrin receptor expression was increased at both mRNA and protein levels. Similarly, expression of the iron-responsive element (IRE)-regulated form of the divalent metal transporter 1 (DMT1) was also increased. In contrast, the non-IRE regulated isoform showed no change in mRNA levels. Protein levels of DMT1 increased significantly. Iron efflux is thought to be mediated by the metal transporter protein, IREG1/ferroportin1/
MTP1
, and oxidation of Fe(II) to Fe(III) prior to incorporation into fetal transferrin is carried out by the placental copper oxidase. Expression of IREG1 was not altered by
iron deficiency
, whereas copper oxidase activity was increased. In BeWo cells made iron deficient by treatment with desferrioxamine ('deferioxamine'), iron accumulation from iron-transferrin increased, in parallel with increased expression of the transferrin receptor. At the same time, iron efflux also increased, showing a higher flux of iron from the apical to the basolateral side. The data show that expression of placental proteins of iron transport are up-regulated in maternal
iron deficiency
, resulting in an increased efficiency of iron flux and a consequent minimization of the severity of fetal anaemia.
...
PMID:Effect of iron deficiency on placental transfer of iron and expression of iron transport proteins in vivo and in vitro. 1138 98
Iron deficiency
is the most common nutritional disorder worldwide, whereas pathologic elevations of body iron stores can occur under certain circumstances due to genetic abnormalities or in association with other diseases. The intestine is the exclusive locus of homeostatic regulation of body iron stores, which is accomplished by changes in iron absorption efficiency by largely unknown molecular mechanisms in response to alterations in body iron stores. Recently, a number of novel genes involved in iron metabolism, such as the iron uptake transporter DMT1/DCT1/Nramp2 and the iron export transporter IREG1/ferroportin1/
MTP1
, have been identified, providing important insights about molecular aspects of intestinal iron absorption and its regulation. The aim of this study was to investigate the effects of iron treatment on DMT1 and IREG1 mRNA expression in Caco-2 cells, a human intestinal cell line. Exposure of the cells to iron (200 micromol/L ferric nitrilotriacetic acid for 72 h) significantly decreased transferrin receptor mRNA (80%), DMT1 mRNA (57%) and IREG1 mRNA (52%). These observations are consistent with the notion of parallel regulation of these iron-responsive genes in vivo to protect the enterocyte from iron toxicity and mediate a decreased efficiency of intestinal iron absorption to prevent iron overload.
...
PMID:Iron treatment downregulates DMT1 and IREG1 mRNA expression in Caco-2 cells. 1192 62
Individuals with hereditary hemochromatosis suffer from systemic iron overload due to duodenal hyperabsorption. Most cases arise from a founder mutation in HFE (845G-->A; ref. 2) that results in the amino-acid substitution C282Y and prevents the association of HFE with beta2-microglobulin. Mice homozygous with respect to a null allele of Hfe (Hfe-/-) or homozygous with respect to the orthologous 882G-->A mutation (Hfe(845A/845A)) develop iron overload that recapitulates hereditary hemochromatosis in humans, confirming that hereditary hemochromatosis arises from loss of HFE function. Much work has focused on an exclusive role for the intestine in hereditary hemochromatosis. HFE deficiency in intestinal crypt cells is thought to cause intestinal
iron deficiency
and greater expression of iron transporters such as SLC11A2 (also called DMT1, DCT1 and NRAMP2) and SLC11A3 (also called IREG1, ferroportin and
MTP1
; ref. 3). Published data on the expression of these transporters in the duodenum of HFE-deficient mice and humans are contradictory. In this report, we used a custom microarray to assay changes in duodenal and hepatic gene expression in Hfe-deficient mice. We found unexpected alterations in the expression of Slc39a1 (mouse ortholog of SLC11A3) and Cybrd1, which encode key iron transport proteins, and Hamp (hepcidin antimicrobial peptide), a hepatic regulator of iron transport. We propose that inappropriate regulatory cues from the liver underlie greater duodenal iron absorption, possibly involving the ferric reductase Cybrd1.
...
PMID:Regulatory defects in liver and intestine implicate abnormal hepcidin and Cybrd1 expression in mouse hemochromatosis. 1270 90
