Regulation of Iron Metabolism by Hepcidin under Conditions of Inflammation

Schmidt, Paul

doi:10.1074/jbc.r115.650150

Cited by 129 publications

(104 citation statements)

References 102 publications

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“…Additionally, hepcidin/ferroportin‐dependent mechanisms mean that iron deficient individuals generally absorb a higher proportion of ingested iron, and gastrointestinal absorption may be further enhanced in patients who are actively bleeding, or with cirrhotic liver diseases . In contrast, patients with chronic and/or inflammatory disease states with inappropriately elevated hepcidin have more limited gastrointestinal iron absorption, irrespective of ingested iron doses …”

Section: Discussionmentioning

confidence: 99%

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Can Iron Treatments Aggravate Epistaxis in Some Patients With Hereditary Hemorrhagic Telangiectasia?

et al. 2016

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Objectives/HypothesisTo examine whether there is a rationale for iron treatments precipitating nosebleeds (epistaxis) in a subgroup of patients with hereditary hemorrhagic telangiectasia (HHT).Study DesignSurvey evaluation of HHT patients, and a randomized control trial in healthy volunteers.MethodsNosebleed severity in response to iron treatments and standard investigations were evaluated by unbiased surveys in patients with HHT. Serial blood samples from a randomized controlled trial of 18 healthy volunteers were used to examine responses to a single iron tablet (ferrous sulfate, 200 mg).ResultsIron tablet users were more likely to have daily nosebleeds than non–iron‐users as adults, but there was no difference in the proportions reporting childhood or trauma‐induced nosebleeds. Although iron and blood transfusions were commonly reported to improve nosebleeds, 35 of 732 (4.8%) iron tablet users, in addition to 17 of 261 (6.5%) iron infusion users, reported that their nosebleeds were exacerbated by the respective treatments. These rates were significantly higher than those reported for control investigations. Serum iron rose sharply in four of the volunteers ingesting ferrous sulfate (by 19.3–33.1 μmol/L in 2 hours), but not in 12 dietary controls (2‐hour iron increment ranged from −2.2 to +5.0 μmol/L). High iron absorbers demonstrated greater increments in serum ferritin at 48 hours, but transient rises in circulating endothelial cells, an accepted marker of endothelial damage.ConclusionsIron supplementation is essential to treat or prevent iron deficiency, particularly in patients with pathological hemorrhagic iron losses. However, in a small subgroup of individuals, rapid changes in serum iron may provoke endothelial changes and hemorrhage.Level of Evidence4. Laryngoscope, 126:2468–2474, 2016

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Section: Discussionmentioning

confidence: 99%

“…65 In contrast, patients with chronic and/or inflammatory disease states with inappropriately elevated hepcidin have more limited gastrointestinal iron absorption, irrespective of ingested iron doses. 53,66…”

Section: Discussionmentioning

confidence: 99%

Can Iron Treatments Aggravate Epistaxis in Some Patients With Hereditary Hemorrhagic Telangiectasia?

et al. 2016

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“…9 It is thought that hepcidin synthesis is influenced by cytokines such as interleukin 6 (IL 6), which promotes iron uptake by cells of the innate immune system. 10 Similar to hepcidin, the synthesis of CRP by hepatocytes is 5 driven by circulating IL 6. 11 In addition, albumin, although it is not directly involved in iron transport, is quantitatively the most important circulating binding protein, and is itself a negative acute phase protein commonly measured in clinical practice.…”

Section: Introductionmentioning

confidence: 99%

Quantitative data on the magnitude of the systemic inflammatory response and its relationship with serum measures of iron status

McSorley

Jones

McMillan

et al. 2016

Translational Research

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Quantitative data on the magnitude of the systemic inflammatory response and its relationship with serum measures of iron status. Translational Research, 176, pp. 119-126. (doi:10.1016Research, 176, pp. 119-126. (doi:10. /j.trsl.2016 This is the author's final accepted version.There may be differences between this version and the published version. You are advised to consult the publisher's version if you wish to cite from it.http://eprints.gla.ac.uk/120861/

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“…In hepatocytes, it has been well‐documented that inflammation induces hepcidin gene expression via the interleukin‐6 (IL‐6)/signal transducer and activator of transcription 3 (STAT3) pathway, via iron sensing through the transferrin receptor 2 (TfR2)/human hemochromatosis protein (HFE), and the bone morphogenetic protein (BMP)/hemojuvelin (HJV)/SMAD (a small mothers of decapentaplegic protein) pathways, and downregulated by erythroferrone (ERFE) ‐dependent and ‐independent mechanisms . Recent studies have also demonstrated that hepcidin expression can be upregulated by progesterone and mifepristone, two steroid hormones, through cell surface protein progesterone receptor membrane component‐1, transforming growth factor β1, SMAD1/5/8‐independent signaling by activin B, oxidases such as NADPH‐dependent oxidase 4 or artificially overexpressed urate oxidase (UOX), IL‐1β via inducing CCAAT enhancer‐binding protein δ (C/EBPδ) expression, peroxiredoxin‐2 which is a supporter for STAT3 transcriptional activity, fibroblast growth factor‐encoding gene, and downregulated by the immunophilin FKBP12 (FK506‐binding protein 1A) via binding with BMP type I receptor ALK2, cystathionine β‐synthase, TfR1, and matriptase‐2 …”

Section: Hepcidin and The Treatment Of Neurodegenerative Disordersmentioning

confidence: 99%

Hepcidin and its therapeutic potential in neurodegenerative disorders

Qian

2019

Medicinal Research Reviews

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Abnormally high brain iron, resulting from the disrupted expression or function of proteins involved in iron metabolism in the brain, is an initial cause of neuronal death in neuroferritinopathy and aceruloplasminemia, and also plays a causative role in at least some of the other neurodegenerative diseases including Alzheimer's disease, Parkinson's disease, Huntington's disease, and Friedreich's ataxia. As such, iron is believed to be a novel target for pharmacological intervention in these disorders. Reducing iron toward normal levels or hampering the increases in iron associated with age in the brain is a promising therapeutic strategy for all iron‐related neurodegenerative disorders. Hepcidin is a crucial regulator of iron homeostasis in the brain. Recent studies have suggested that upregulating brain hepcidin levels can significantly reduce brain iron content through the regulation of iron transport protein expression in the blood‐brain barrier and in neurons and astrocytes. In this review, we focus on the discussion of the therapeutic potential of hepcidin in iron‐associated neurodegenerative diseases and also provide a systematic overview of recent research progress on how misregulated brain iron metabolism is involved in the development of multiple neurodegenerative disorders.

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Regulation of Iron Metabolism by Hepcidin under Conditions of Inflammation

Cited by 129 publications

References 102 publications

Can Iron Treatments Aggravate Epistaxis in Some Patients With Hereditary Hemorrhagic Telangiectasia?

Can Iron Treatments Aggravate Epistaxis in Some Patients With Hereditary Hemorrhagic Telangiectasia?

Quantitative data on the magnitude of the systemic inflammatory response and its relationship with serum measures of iron status

Hepcidin and its therapeutic potential in neurodegenerative disorders

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