review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Tomas Ganz | |
Richard Coffey | |||
P2860 | cites work | Combined deletion of Hfe and transferrin receptor 2 in mice leads to marked dysregulation of hepcidin and iron overload. | Q54459192 |
T-type calcium channel blockade improves survival and cardiovascular function in thalassemic mice | Q83613597 | ||
Differing impact of the deletion of hemochromatosis-associated molecules HFE and transferrin receptor-2 on the iron phenotype of mice lacking bone morphogenetic protein 6 or hemojuvelin | Q86263513 | ||
The multicopper ferroxidase hephaestin enhances intestinal iron absorption in mice | Q21132022 | ||
Human NRAMP2/DMT1, which mediates iron transport across endosomal membranes, is localized to late endosomes and lysosomes in HEp-2 cells | Q22253465 | ||
HFE interacts with the BMP type I receptor ALK3 to regulate hepcidin expression | Q24298843 | ||
Hepcidin regulates cellular iron efflux by binding to ferroportin and inducing its internalization | Q24310115 | ||
A novel MHC class I-like gene is mutated in patients with hereditary haemochromatosis | Q24310146 | ||
HRG1 is essential for heme transport from the phagolysosome of macrophages during erythrophagocytosis | Q24315610 | ||
Bone morphogenetic protein signaling by hemojuvelin regulates hepcidin expression | Q24316099 | ||
Identification of an intestinal folate transporter and the molecular basis for hereditary folate malabsorption | Q24320048 | ||
Iron Export through the Transporter Ferroportin 1 Is Modulated by the Iron Chaperone PCBP2. | Q38764417 | ||
NCOA4 Deficiency Impairs Systemic Iron Homeostasis | Q38802658 | ||
Chaperone protein involved in transmembrane transport of iron | Q38992478 | ||
Endothelial cells produce bone morphogenetic protein 6 required for iron homeostasis in mice | Q39173201 | ||
Intestinal brush-border Na+/H+ exchanger-3 drives H+-coupled iron absorption in the mouse. | Q39622458 | ||
Regulation of type II transmembrane serine proteinase TMPRSS6 by hypoxia-inducible factors: new link between hypoxia signaling and iron homeostasis | Q39641301 | ||
An essential cell-autonomous role for hepcidin in cardiac iron homeostasis. | Q39643628 | ||
The role of transferrin receptor 1 and 2 in transferrin-bound iron uptake in human hepatoma cells | Q39787443 | ||
Diferric transferrin regulates transferrin receptor 2 protein stability | Q40524098 | ||
Iron regulatory protein prevents binding of the 43S translation pre-initiation complex to ferritin and eALAS mRNAs. | Q40792922 | ||
Hepcidin-induced hypoferremia is a critical host defense mechanism against the siderophilic bacterium Vibrio vulnificus | Q41543544 | ||
The hemochromatosis protein HFE competes with transferrin for binding to the transferrin receptor | Q41701387 | ||
Both iron deficiency and daily iron supplements increase lipid peroxidation in rats | Q41723105 | ||
Lethal Cardiomyopathy in Mice Lacking Transferrin Receptor in the Heart | Q41867784 | ||
BMP6 is a key endogenous regulator of hepcidin expression and iron metabolism | Q41871982 | ||
Iron loading and erythrophagocytosis increase ferroportin 1 (FPN1) expression in J774 macrophages. | Q42445804 | ||
Mice are poor heme absorbers and do not require intestinal Hmox1 for dietary heme iron assimilation | Q42549317 | ||
Regulation of iron absorption in Hfe mutant mice | Q44083659 | ||
L-type Ca2+ channels provide a major pathway for iron entry into cardiomyocytes in iron-overload cardiomyopathy | Q44560867 | ||
Erythroid cell mitochondria receive endosomal iron by a "kiss-and-run" mechanism. | Q51508013 | ||
Both Nramp1 and DMT1 are necessary for efficient macrophage iron recycling. | Q51774036 | ||
A stem-loop in the 3' untranslated region mediates iron-dependent regulation of transferrin receptor mRNA stability in the cytoplasm. | Q52562791 | ||
Mutant antimicrobial peptide hepcidin is associated with severe juvenile hemochromatosis | Q24324055 | ||
A mouse model of juvenile hemochromatosis | Q24532268 | ||
IL-6 mediates hypoferremia of inflammation by inducing the synthesis of the iron regulatory hormone hepcidin | Q24568204 | ||
Effect of Erythropoietin, Iron Deficiency and Iron Overload on Liver Matriptase-2 (TMPRSS6) Protein Content in Mice and Rats | Q27323133 | ||
Haem homeostasis is regulated by the conserved and concerted functions of HRG-1 proteins | Q28115078 | ||
The serine protease matriptase-2 (TMPRSS6) inhibits hepcidin activation by cleaving membrane hemojuvelin | Q28115763 | ||
Transferrin receptor is necessary for development of erythrocytes and the nervous system | Q28118509 | ||
Mutations in HFE2 cause iron overload in chromosome 1q-linked juvenile hemochromatosis | Q28188379 | ||
Identification of erythroferrone as an erythroid regulator of iron metabolism | Q28240988 | ||
Cloning and characterization of a mammalian proton-coupled metal-ion transporter | Q28245045 | ||
Sequential regulation of ferroportin expression after erythrophagocytosis in murine macrophages: early mRNA induction by haem, followed by iron-dependent protein expression | Q28260693 | ||
The iron exporter ferroportin/Slc40a1 is essential for iron homeostasis | Q28264540 | ||
Iron regulates cytoplasmic levels of a novel iron-responsive element-binding protein without aconitase activity | Q28286839 | ||
Identification of the iron-responsive element for the translational regulation of human ferritin mRNA | Q28302958 | ||
Transferrin receptor 2: continued expression in mouse liver in the face of iron overload and in hereditary hemochromatosis | Q28508392 | ||
Slc11a2 is required for intestinal iron absorption and erythropoiesis but dispensable in placenta and liver | Q28509001 | ||
Lack of the bone morphogenetic protein BMP6 induces massive iron overload | Q28510138 | ||
Distinct roles for hepcidin and interleukin-6 in the recovery from anemia in mice injected with heat-killed Brucella abortus | Q28510247 | ||
Hereditary hemochromatosis protein, HFE, interaction with transferrin receptor 2 suggests a molecular mechanism for mammalian iron sensing | Q28510853 | ||
Targeted disruption of hepcidin in the liver recapitulates the hemochromatotic phenotype | Q28510894 | ||
Identification of an intestinal heme transporter | Q28513323 | ||
Suppression of hepatic hepcidin expression in response to acute iron deprivation is associated with an increase of matriptase-2 protein | Q28571434 | ||
Targeted disruption of the hepcidin 1 gene results in severe hemochromatosis | Q28588832 | ||
A mouse model of anemia of inflammation: complex pathogenesis with partial dependence on hepcidin | Q28590264 | ||
Identification of a ferrireductase required for efficient transferrin-dependent iron uptake in erythroid cells | Q28594532 | ||
Duodenal reductase activity and spleen iron stores are reduced and erythropoiesis is abnormal in Dcytb knockout mice exposed to hypoxic conditions | Q33455905 | ||
Human macrophage ferroportin biology and the basis for the ferroportin disease | Q33628733 | ||
Functional properties of human ferroportin, a cellular iron exporter reactive also with cobalt and zinc | Q33702877 | ||
Iron release from macrophages after erythrophagocytosis is up-regulated by ferroportin 1 overexpression and down-regulated by hepcidin | Q33818360 | ||
The gene TFR2 is mutated in a new type of haemochromatosis mapping to 7q22. | Q33901224 | ||
Iron deficiency and iron excess damage mitochondria and mitochondrial DNA in rats. | Q34013010 | ||
Circulating non-transferrin-bound iron after oral administration of supplemental and fortification doses of iron to healthy women: a randomized study | Q34056151 | ||
A mouse model of hereditary folate malabsorption: deletion of the PCFT gene leads to systemic folate deficiency. | Q34166480 | ||
Quantitative proteomics identifies NCOA4 as the cargo receptor mediating ferritinophagy | Q34267169 | ||
BMP type II receptors have redundant roles in the regulation of hepatic hepcidin gene expression and iron metabolism | Q34293026 | ||
Transferrin receptor 1. | Q34341431 | ||
Erythroferrone contributes to recovery from anemia of inflammation | Q34353734 | ||
Effect of the antihepcidin Spiegelmer lexaptepid on inflammation-induced decrease in serum iron in humans | Q34398348 | ||
Erythroferrone contributes to hepcidin suppression and iron overload in a mouse model of β-thalassemia | Q34489655 | ||
Dysfunction of the heme recycling system in heme oxygenase 1–deficient mice: effects on macrophage viability and tissue iron distribution | Q34541622 | ||
Increased iron loading induces Bmp6 expression in the non-parenchymal cells of the liver independent of the BMP-signaling pathway | Q34658504 | ||
The labile iron pool: characterization, measurement, and participation in cellular processes(1). | Q34956696 | ||
Abnormal erythroid maturation leads to microcytic anemia in the TSAP6/Steap3 null mouse model | Q35096963 | ||
Cardiac ferroportin regulates cellular iron homeostasis and is important for cardiac function. | Q35189906 | ||
Zip14 is a complex broad-scope metal-ion transporter whose functional properties support roles in the cellular uptake of zinc and nontransferrin-bound iron. | Q35322005 | ||
Perturbation of hepcidin expression by BMP type I receptor deletion induces iron overload in mice | Q35483789 | ||
SLC39A14 Is Required for the Development of Hepatocellular Iron Overload in Murine Models of Hereditary Hemochromatosis | Q35836771 | ||
Hepcidin in iron overload disorders | Q35847742 | ||
Transgenic HFE-dependent induction of hepcidin in mice does not require transferrin receptor-2. | Q36067487 | ||
Hepatocyte divalent metal-ion transporter-1 is dispensable for hepatic iron accumulation and non-transferrin-bound iron uptake in mice | Q36067702 | ||
Noncanonical role of transferrin receptor 1 is essential for intestinal homeostasis | Q36079057 | ||
Ferritinophagy via NCOA4 is required for erythropoiesis and is regulated by iron dependent HERC2-mediated proteolysis. | Q36119759 | ||
Intestinal DMT1 is critical for iron absorption in the mouse but is not required for the absorption of copper or manganese | Q36174536 | ||
Substrate profile and metal-ion selectivity of human divalent metal-ion transporter-1. | Q36216669 | ||
ZIP8 is an iron and zinc transporter whose cell-surface expression is up-regulated by cellular iron loading | Q36298311 | ||
Endoplasmic reticulum anchored heme-oxygenase 1 faces the cytosol | Q36366933 | ||
The Poly(C) Binding Protein Pcbp2 and Its Retrotransposed Derivative Pcbp1 Are Independently Essential to Mouse Development | Q36480866 | ||
The transferrin receptor modulates Hfe-dependent regulation of hepcidin expression | Q36539421 | ||
A cytosolic iron chaperone that delivers iron to ferritin. | Q36826647 | ||
Each member of the poly-r(C)-binding protein 1 (PCBP) family exhibits iron chaperone activity toward ferritin. | Q36929114 | ||
On-demand erythrocyte disposal and iron recycling requires transient macrophages in the liver | Q37117562 | ||
Intestinal hypoxia-inducible transcription factors are essential for iron absorption following iron deficiency | Q37137793 | ||
Mutations in the gene encoding DMT1: clinical presentation and treatment. | Q37604584 | ||
Angiocrine Bmp2 signaling in murine liver controls normal iron homeostasis | Q37624591 | ||
Non-transferrin bound iron: a key role in iron overload and iron toxicity | Q37920197 | ||
Metabolic Catastrophe in Mice Lacking Transferrin Receptor in Muscle | Q38255270 | ||
The plasma membrane metal-ion transporter ZIP14 contributes to nontransferrin-bound iron uptake by human β-cells | Q38728231 | ||
P433 | issue | 31 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 12727-12734 | |
P577 | publication date | 2017-06-14 | |
P1433 | published in | Journal of Biological Chemistry | Q867727 |
P1476 | title | Iron homeostasis: An anthropocentric perspective | |
P478 | volume | 292 |