scholarly article | Q13442814 |
P356 | DOI | 10.1002/IUB.1629 |
P698 | PubMed publication ID | 28387022 |
P2093 | author name string | Kostas Pantopoulos | |
George Papanikolaou | |||
P2860 | cites work | Iron regulatory proteins control a mucosal block to intestinal iron absorption | Q42436152 |
Transferrin receptor 2 is a component of the erythropoietin receptor complex and is required for efficient erythropoiesis. | Q42913158 | ||
Induction of activin B by inflammatory stimuli up-regulates expression of the iron-regulatory peptide hepcidin through Smad1/5/8 signaling | Q45234514 | ||
Ferroportin1 in hepatocytes and macrophages is required for the efficient mobilization of body iron stores in mice | Q46475302 | ||
Hepcidin is decreased in TFR2 hemochromatosis | Q46624831 | ||
Remodeling the regulation of iron metabolism during erythroid differentiation to ensure efficient heme biosynthesis | Q46902361 | ||
TfR2 links iron metabolism and erythropoiesis | Q48226439 | ||
Chronic IFN-γ production in mice induces anemia by reducing erythrocyte life span and inhibiting erythropoiesis through an IRF-1/PU.1 axis. | Q50530448 | ||
IRP1 regulates erythropoiesis and systemic iron homeostasis by controlling HIF2α mRNA translation. | Q50897468 | ||
Disrupted hepcidin regulation in HFE-associated haemochromatosis and the liver as a regulator of body iron homoeostasis. | Q52549517 | ||
STAT3 is required for IL-6-gp130-dependent activation of hepcidin in vivo. | Q52576434 | ||
Targeted disruption of the hepatic transferrin receptor 2 gene in mice leads to iron overload. | Q52576436 | ||
Conditional disruption of mouse HFE2 gene: maintenance of systemic iron homeostasis requires hepatic but not skeletal muscle hemojuvelin. | Q52613689 | ||
Hfe and Hjv exhibit overlapping functions for iron signaling to hepcidin. | Q52656784 | ||
Hematopoietic deletion of transferrin receptor 2 in mice leads to a block in erythroid differentiation during iron-deficient anemia. | Q54091752 | ||
Hepcidin upregulation by inflammation is independent of Smad1/5/8 signaling by activin B. | Q54234772 | ||
Combined deletion of Hfe and transferrin receptor 2 in mice leads to marked dysregulation of hepcidin and iron overload. | Q54459192 | ||
High levels of GDF15 in thalassemia suppress expression of the iron regulatory protein hepcidin | Q56490134 | ||
Altered body iron distribution and microcytosis in mice deficient in iron regulatory protein 2 (IRP2) | Q57397534 | ||
Hepcidin, a urinary antimicrobial peptide synthesized in the liver | Q24290609 | ||
Interleukin-6 induces hepcidin expression through STAT3 | Q24296906 | ||
HFE interacts with the BMP type I receptor ALK3 to regulate hepcidin expression | Q24298843 | ||
STAT3 mediates hepatic hepcidin expression and its inflammatory stimulation | Q24301291 | ||
Regulation of transferrin receptor 2 protein levels by transferrin | Q24301632 | ||
The hemochromatosis gene product complexes with the transferrin receptor and lowers its affinity for ligand binding | Q24309651 | ||
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 | ||
Bone morphogenetic protein signaling by hemojuvelin regulates hepcidin expression | Q24316099 | ||
Mutations in TMPRSS6 cause iron-refractory iron deficiency anemia (IRIDA) | Q24320295 | ||
Mutant antimicrobial peptide hepcidin is associated with severe juvenile hemochromatosis | Q24324055 | ||
Crystal structure of the hemochromatosis protein HFE and characterization of its interaction with transferrin receptor | Q24336313 | ||
Severe iron deficiency anemia in transgenic mice expressing liver hepcidin | Q24536163 | ||
Regulation of cellular iron metabolism | Q24610063 | ||
Hepcidin mediates transcriptional changes that modulate acute cytokine-induced inflammatory responses in mice | Q24617847 | ||
Erythropoietin administration in humans causes a marked and prolonged reduction in circulating hepcidin | Q24632978 | ||
Pharmacological Targeting of the Hepcidin/Ferroportin Axis | Q26738350 | ||
Hepcidin in the diagnosis of iron disorders | Q26752500 | ||
Hepcidin: regulation of the master iron regulator | Q26800198 | ||
Primitive and definitive erythropoiesis in mammals | Q26851586 | ||
Regulation of Iron Metabolism by Hepcidin under Conditions of Inflammation | Q26852319 | ||
Mechanistic and regulatory aspects of intestinal iron absorption | Q26861531 | ||
Multi-copper oxidases and human iron metabolism | Q27002522 | ||
Iron homeostasis in host defence and inflammation | Q28083811 | ||
Serum and liver iron differently regulate the bone morphogenetic protein 6 (BMP6)-SMAD signaling pathway in mice | Q41028963 | ||
BMP6 is a key endogenous regulator of hepcidin expression and iron metabolism | Q41871982 | ||
Regulation of hepcidin expression by inflammation-induced activin B. | Q41961541 | ||
Characterization of Putative Erythroid Regulators of Hepcidin in Mouse Models of Anemia. | Q41990428 | ||
HIF-2alpha, but not HIF-1alpha, promotes iron absorption in mice. | Q42171228 | ||
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 | ||
A new mouse liver-specific gene, encoding a protein homologous to human antimicrobial peptide hepcidin, is overexpressed during iron overload | Q28139987 | ||
Mutations in HFE2 cause iron overload in chromosome 1q-linked juvenile hemochromatosis | Q28188379 | ||
Identification of erythroferrone as an erythroid regulator of iron metabolism | Q28240988 | ||
Regulation of iron transport and the role of transferrin | Q28253009 | ||
Iron-regulatory proteins limit hypoxia-inducible factor-2alpha expression in iron deficiency | Q28297161 | ||
Lack of the bone morphogenetic protein BMP6 induces massive iron overload | Q28510138 | ||
Targeted disruption of hepcidin in the liver recapitulates the hemochromatotic phenotype | Q28510894 | ||
Myonectin (CTRP15), a novel myokine that links skeletal muscle to systemic lipid homeostasis | Q28511505 | ||
Suppression of hepatic hepcidin expression in response to acute iron deprivation is associated with an increase of matriptase-2 protein | Q28571434 | ||
Lack of hepcidin gene expression and severe tissue iron overload in upstream stimulatory factor 2 (USF2) knockout mice | Q28586797 | ||
Mitoferrin is essential for erythroid iron assimilation | Q28587125 | ||
Microcytic anemia, erythropoietic protoporphyria, and neurodegeneration in mice with targeted deletion of iron-regulatory protein 2 | Q28587152 | ||
Mammalian tissue oxygen levels modulate iron-regulatory protein activities in vivo | Q28591638 | ||
The gene encoding the iron regulatory peptide hepcidin is regulated by anemia, hypoxia, and inflammation | Q29620394 | ||
Isocitrate ameliorates anemia by suppressing the erythroid iron restriction response | Q30418035 | ||
Iron control of erythroid development by a novel aconitase-associated regulatory pathway | Q30431455 | ||
Global transcriptome analyses of human and murine terminal erythroid differentiation | Q33697238 | ||
Regulation of ferritin genes and protein | Q34126332 | ||
Low hepcidin accounts for the proinflammatory status associated with iron deficiency. | Q34188665 | ||
Elevated growth differentiation factor 15 expression in patients with congenital dyserythropoietic anemia type I. | Q34197725 | ||
Quantitative proteomics identifies NCOA4 as the cargo receptor mediating ferritinophagy | Q34267169 | ||
Systemic iron homeostasis | Q34378495 | ||
Anemia of chronic disease. | Q34401570 | ||
A novel inflammatory pathway mediating rapid hepcidin-independent hypoferremia. | Q34461765 | ||
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 | ||
Interaction of the hereditary hemochromatosis protein HFE with transferrin receptor 2 is required for transferrin-induced hepcidin expression | Q34658174 | ||
Hfe acts in hepatocytes to prevent hemochromatosis. | Q34745897 | ||
Evidence for distinct pathways of hepcidin regulation by acute and chronic iron loading in mice | Q34783878 | ||
In situ proximity ligation assays indicate that hemochromatosis proteins Hfe and transferrin receptor 2 (Tfr2) do not interact. | Q35025412 | ||
Hypoxia-inducible factor-2α mediates the adaptive increase of intestinal ferroportin during iron deficiency in mice | Q35027929 | ||
Regulation of TMPRSS6 by BMP6 and iron in human cells and mice | Q35125938 | ||
Regulation of cell surface transferrin receptor-2 by iron-dependent cleavage and release of a soluble form. | Q35236046 | ||
The second transferrin receptor regulates red blood cell production in mice | Q35446281 | ||
Minihepcidins are rationally designed small peptides that mimic hepcidin activity in mice and may be useful for the treatment of iron overload | Q35578602 | ||
SLC39A14 Is Required for the Development of Hepatocellular Iron Overload in Murine Models of Hereditary Hemochromatosis | Q35836771 | ||
Hepcidin in iron overload disorders | Q35847742 | ||
Suppression of hepcidin during anemia requires erythropoietic activity | Q35848905 | ||
Iron metabolism and toxicity | Q35998155 | ||
N- and C-terminal transactivation domains of GATA1 protein coordinate hematopoietic program | Q36033285 | ||
Transgenic HFE-dependent induction of hepcidin in mice does not require transferrin receptor-2. | Q36067487 | ||
Contributions of heme and nonheme iron to human nutrition | Q36089182 | ||
Ferritinophagy via NCOA4 is required for erythropoiesis and is regulated by iron dependent HERC2-mediated proteolysis. | Q36119759 | ||
Isocitrate treatment of acute anemia of inflammation in a mouse model | Q36320635 | ||
The transferrin receptor modulates Hfe-dependent regulation of hepcidin expression | Q36539421 | ||
Deletion of iron regulatory protein 1 causes polycythemia and pulmonary hypertension in mice through translational derepression of HIF2α. | Q36602744 | ||
Activin B Induces Noncanonical SMAD1/5/8 Signaling via BMP Type I Receptors in Hepatocytes: Evidence for a Role in Hepcidin Induction by Inflammation in Male Mice. | Q36625078 | ||
The IRP1-HIF-2α axis coordinates iron and oxygen sensing with erythropoiesis and iron absorption | Q36728582 | ||
Erythropoietin and iron-restricted erythropoiesis | Q36767078 | ||
Hematopoietic-specific Stat5-null mice display microcytic hypochromic anemia associated with reduced transferrin receptor gene expression | Q36843802 | ||
The murine growth differentiation factor 15 is not essential for systemic iron homeostasis in phlebotomized mice. | Q36862425 | ||
Limiting hepatic Bmp-Smad signaling by matriptase-2 is required for erythropoietin-mediated hepcidin suppression in mice | Q36897141 | ||
Intestinal hypoxia-inducible transcription factors are essential for iron absorption following iron deficiency | Q37137793 | ||
Hepcidin regulation in the anemia of inflammation | Q37193954 | ||
Cross-talk between the mitogen activated protein kinase and bone morphogenetic protein/hemojuvelin pathways is required for the induction of hepcidin by holotransferrin in primary mouse hepatocytes | Q37207754 | ||
Identification of TWSG1 as a second novel erythroid regulator of hepcidin expression in murine and human cells | Q37262477 | ||
Hypoxia-inducible factors link iron homeostasis and erythropoiesis | Q37620078 | ||
Angiocrine Bmp2 signaling in murine liver controls normal iron homeostasis | Q37624591 | ||
The type I BMP receptor Alk3 is required for the induction of hepatic hepcidin gene expression by interleukin-6. | Q37683823 | ||
Knockout mouse models of iron homeostasis | Q37872758 | ||
The IRP/IRE system in vivo: insights from mouse models | Q38239649 | ||
Beyond soluble transferrin receptor: old challenges and new horizons | Q38621816 | ||
NCOA4 Deficiency Impairs Systemic Iron Homeostasis | Q38802658 | ||
The mutual control of iron and erythropoiesis. | Q38830409 | ||
Endothelial cells produce bone morphogenetic protein 6 required for iron homeostasis in mice | Q39173201 | ||
Diferric transferrin regulates transferrin receptor 2 protein stability | Q40524098 | ||
Repulsive guidance molecule is a structural bridge between neogenin and bone morphogenetic protein | Q40979907 | ||
P433 | issue | 6 | |
P304 | page(s) | 399-413 | |
P577 | publication date | 2017-04-06 | |
P1433 | published in | IUBMB Life | Q15764029 |
P1476 | title | Systemic iron homeostasis and erythropoiesis | |
P478 | volume | 69 |