Science Mapping Research on Citizenship Education: A Bibliometric Review

Considering that the development of hepatic lesions related to iron overload diseases might be a result of abnormally expressed hepatic genes, we searched for new genes up-regulated under the condition of iron excess. By suppressive subtractive hybridization performed between livers from carbonyl iron-overloaded and control mice, we isolated a 225-base pair cDNA. By Northern blot analysis, the corresponding mRNA was confirmed to be overexpressed in livers of experimentally (carbonyl iron and iron-dextran-treated mice) and spontaneously (␤ 2 -microglobulin knockout mice) ironoverloaded mice. In addition, ␤ 2 -microglobulin knockout mice fed with a low iron content diet exhibited a decrease of hepatic mRNA expression. The murine fulllength cDNA was isolated and was found to encode an 83-amino acid protein presenting a strong homology in its C-terminal region to the human antimicrobial peptide hepcidin. In addition, we cloned the corresponding rat and human orthologue cDNAs. Both mouse and human genes named HEPC are constituted of 3 exons and 2 introns and are located on chromosome 7 and 19, respectively, in close proximity to USF2 gene. In mouse and human, HEPC mRNA was predominantly expressed in the liver. During both in vivo and in vitro studies, HEPC mRNA expression was enhanced in mouse hepatocytes under the effect of lipopolysaccharide. Finally, to analyze the intracellular localization of the predicted protein, we used the green fluorescent protein chimera expression vectors. The murine green fluorescent protein-prohepcidin protein was exclusively localized in the nucleus. When the putative nuclear localization signal was deleted, the resulting protein was addressed to the cytoplasm. Taken together, our data strongly suggest that the product of the new liver-specific gene HEPC might play a specific role during iron overload and exhibit additional functions distinct from its antimicrobial activity.

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Non-transferrin bound iron: A key role in iron overload and iron toxicity

Brissot¹,

Ropert²,

Lan³

et al. 2012

Biochimica et Biophysica Acta (BBA) - General Subjects

537

447

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Roseburia Spp.: A Marker of Health?

et al. 2017

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The genus Roseburia consists of obligate Gram-positive anaerobic bacteria that are slightly curved, rod-shaped and motile by means of multiple subterminal flagella. It includes five species: Roseburia intestinalis, R. hominis, R. inulinivorans, R. faecis and R. cecicola. Gut Roseburia spp. metabolize dietary components that stimulate their proliferation and metabolic activities. They are part of commensal bacteria producing short-chain fatty acids, especially butyrate, affecting colonic motility, immunity maintenance and anti-inflammatory properties. Modification in Roseburia spp. representation may affect various metabolic pathways and is associated with several diseases (including irritable bowel syndrome, obesity, Type 2 diabetes, nervous system conditions and allergies). Roseburia spp. could also serve as biomarkers for symptomatic pathologies (e.g., gallstone formation) or as probiotics for restoration of beneficial flora.

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Haemochromatosis

Brissot

Pietrangelo²,

Adams

et al. 2018

Nat Rev Dis Primers

282

283

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Haemochromatosis is defined as systemic iron overload of genetic origin, caused by a reduction in the concentration of the iron regulatory hormone hepcidin, or a reduction in hepcidin-ferroportin binding. Hepcidin regulates the activity of ferroportin, which is the only identified cellular iron exporter. The most common form of haemochromatosis is due to homozygous mutations (specifically, the C282Y mutation) in HFE, which encodes hereditary haemochromatosis protein. Non-HFE forms of haemochromatosis due to mutations in HAMP, HJV or TFR2 are much rarer. Mutations in SLC40A1 (also known as FPN1; encoding ferroportin) that prevent hepcidin-ferroportin binding also cause haemochromatosis. Cellular iron excess in HFE and non-HFE forms of haemochromatosis is caused by increased concentrations of plasma iron, which can lead to the accumulation of iron in parenchymal cells, particularly hepatocytes, pancreatic cells and cardiomyocytes. Diagnosis is noninvasive and includes clinical examination, assessment of plasma iron parameters, imaging and genetic testing. The mainstay therapy is phlebotomy, although iron chelation can be used in some patients. Hepcidin supplementation might be an innovative future approach.

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Liver pathology in genetic hemochromatosis: A review of 135 homozygous cases and their bioclinical correlations

et al. 1992

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C/EBPα Regulates Hepatic Transcription of Hepcidin, an Antimicrobial Peptide and Regulator of Iron Metabolism

Courselaud

Pigeon

Inoue

et al. 2002

Journal of Biological Chemistry

224

177

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Originally identified as a gene up-regulated by iron overload in mouse liver, the HEPC gene encodes hepcidin, the first mammalian liver-specific antimicrobial peptide and potential key regulator of iron metabolism. Here we demonstrate that during rat liver development, amounts of HEPC transcripts were very low in fetal liver, strongly and transiently increased shortly after birth, and reappeared in adult liver. To gain insight into mechanisms that regulate hepatic expression of hepcidin, 5-flanking regions of human and mouse HEPC genes were isolated and analyzed by functional and DNA binding assays. Human and mouse HEPC promoterluciferase reporter vectors exhibited strong basal activity in hepatoma HuH-7 and mouse hepatocytes, respectively, but not in non-hepatic U-2OS cells. We found that CCAAT/enhancer-binding protein ␣ (C/EBP␣) and C/EBP␤ were respectively very potent and weak activators of both human and mouse promoters. In contrast, co-expression of hepatocyte nuclear factor 4␣ (HNF4␣) failed to induce HEPC promoter activity. By electrophoretic mobility shift assay we demonstrated that one putative C/EBP element found in the human HEPC promoter (؊250/؊230) predominantly bound C/EBP␣ from rat liver nuclear extracts. Hepatic deletion of the C/EBP␣ gene resulted in reduced expression of HEPC transcripts in mouse liver. In contrast, amounts of HEPC transcripts increased in liver-specific HNF4␣-null mice. Decrease of hepcidin mRNA in mice lacking hepatic C/EBP␣ was accompanied by iron accumulation in periportal hepatocytes. Finally, iron overload led to a significant increase of C/EBP␣ protein and HEPC transcripts in mouse liver. Taken together, these data demonstrate that C/EBP␣ is likely to be a key regulator of HEPC gene transcription and provide a novel mechanism for cross-talk between the C/EBP pathway and iron metabolism.

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A new syndrome of liver iron overload with normal transferrin saturation

Moirand¹,

Mortaji²,

Loréal³

et al. 1997

The Lancet

311

146

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Quantification of Non-Transferrin-Bound Iron in the Presence of Unsaturated Transferrin

Gosriwatana

Loréal

et al. 1999

Analytical Biochemistry

156

145

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Olivier Loréal

A New Mouse Liver-specific Gene, Encoding a Protein Homologous to Human Antimicrobial Peptide Hepcidin, Is Overexpressed during Iron Overload

Non-transferrin bound iron: A key role in iron overload and iron toxicity

Roseburia Spp.: A Marker of Health?

Haemochromatosis

Liver pathology in genetic hemochromatosis: A review of 135 homozygous cases and their bioclinical correlations

C/EBPα Regulates Hepatic Transcription of Hepcidin, an Antimicrobial Peptide and Regulator of Iron Metabolism

A new syndrome of liver iron overload with normal transferrin saturation

Quantification of Non-Transferrin-Bound Iron in the Presence of Unsaturated Transferrin

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