Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: EC:1.16.3.1 (
ceruloplasmin
)
5,074
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Human hephaestin (Hp) is a
transmembrane protein
that has been implicated in duodenal iron export. Mutations in the murine hephaestin gene (sla) produce microcytic, hypochromic anemia that is refractory to oral iron therapy. Hp shares approximately 50% sequence identity with the plasma multicopper
ferroxidase
ceruloplasmin
including conservation of residues involved in disulfide bond formation and metal coordination. On the basis of this similarity to
ceruloplasmin
, human hephaestin may also bind copper and possess
ferroxidase
activity. To test this hypothesis, human hephaestin cDNA has been cloned by reverse transcription of human duodenal mRNA. Following in vitro mutagenesis to make the encoded polypeptide suitable for expression and purification, the hephaestin cDNA was cloned into the expression vector pNUT and introduced into baby hamster kidney cells. After selection with methotrexate, the baby hamster kidney cells secreted the recombinant human hephaestin into the medium at a level of approximately 2 mg/L. Purification was achieved by a single immunoaffinity chromatography step. As judged by SDS-PAGE, N-terminal sequence analysis, and matrix-assisted laser desorption ionization-time-of-flight mass spectrometry, the purified hephaestin was homogeneous with a mass of 129600 Da, suggesting a carbohydrate content of 7.7%. Inductively coupled plasma mass spectrometry revealed that recombinant hephaestin contained an average of 3.13 atoms of copper per protein molecule. A visible absorption maximum was observed at 607 nm, consistent with the presence of a Type 1 copper site. By using ferrous ammonium sulfate as a substrate, recombinant hephaestin was shown to have
ferroxidase
activity with a K(m) of 2.1 microM for Fe(II). Lastly, urea PAGE showed that hephaestin was able to catalyze formation of diferric transferrin from Fe(II) and apotransferrin.
...
PMID:Recombinant expression and functional characterization of human hephaestin: a multicopper oxidase with ferroxidase activity. 1627 20
Hypoxia has been shown to increase the expression of a variety of proteins involved in iron homeostasis, including
ceruloplasmin
, transferrin, and transferring receptor. Divalent metal transporter 1 (DMT1) is a
transmembrane protein
that is important in divalent metal ion transport, in particular iron. Although previous studies have provided that DMT1 exon1A is regulated by hypoxia, little is known about the relationship between DMT1 exon1B and hypoxia. Hypoxia-inducible factor 1 (HIF-1) is a transcription factor which is stabilized when mammalian cells are subjected to hypoxia. In this study, we have identified a functional hypoxia-response element (HRE) at position of -327 to -323 (-ACGTG-) in DMT1 exon1B promoter using a combination of bioinformatics and biological approaches. Both the total cellular iron and ferrous uptake increased after hypoxia, decreased after DMT1 RNA interference. Reactive oxygen species (ROS) were also changed by +iron responsive element (IRE) DMT1 exon1B overexpression. These findings implicated DMT1 exon1B was a target gene for HIF-1. Hypoxia might affect cellular iron uptake through regulating the expression of DMT1. When iron was present in excess, cells might be damaged by the ROS production.
...
PMID:Hypoxia regulates the ferrous iron uptake and reactive oxygen species level via divalent metal transporter 1 (DMT1) Exon1B by hypoxia-inducible factor-1. 2068 Oct 27
Accumulation of iron occurs in the CNS in several neurodegenerative diseases. Iron is essential for life but also has the ability to generate toxic free radicals if not properly handled. Iron homeostasis at the cellular level is therefore important to maintain proper cellular function, and its dysregulation can contribute to neurodegenerative diseases. Iron export, a key mechanism to maintain proper levels in cells, occurs via ferroportin, a ubiquitously expressed
transmembrane protein
that partners with a
ferroxidase
. A membrane-bound form of the
ferroxidase
ceruloplasmin
is expressed by astrocytes in the CNS and regulates iron efflux. We now show that oligodendrocytes use another
ferroxidase
, called hephaestin, which was first identified in enterocytes in the gut. Mice with mutations in the hephaestin gene (sex-linked anemia mice) show iron accumulation in oligodendrocytes in the gray matter, but not in the white matter, and exhibit motor deficits. This was accompanied by a marked reduction in the levels of the paranodal proteins contactin-associated protein 1 (Caspr) and reticulon-4 (Nogo A). We show that the sparing of iron accumulation in white matter oligodendrocytes in sex-linked anemia mice is due to compensatory upregulation of
ceruloplasmin
in these cells. This was further confirmed in
ceruloplasmin
/hephaestin double-mutant mice, which show iron accumulation in both gray and white matter oligodendrocytes. These data indicate that gray and white matter oligodendrocytes can use different iron efflux mechanisms to maintain iron homeostasis. Dysregulation of such efflux mechanisms leads to iron accumulation in the CNS.
...
PMID:Iron efflux from oligodendrocytes is differentially regulated in gray and white matter. 2191 13
Angiogenesis is a process of synthesis of new blood vessels from preexisting vasculature. Copper (Cu) as a micronutrient is important to many proteins for their physiological roles. Cu is transported by
ceruloplasmin
from liver to other parts of the body. Copper transporter 1 (CTR1) is a
transmembrane protein
which participate in Cu transport across the cell. It is also known to be involved in angiogenesis. In this study, we have designed three peptides from copper-binding regions of CTR1 which are rich in histidine and methionine. These peptides were screened for their inhibitory effect on angiogenesis in the HUVEC model. Mass spectroscopy studies revealed that all the three peptides derived from CTR 1 (Pep 1, 2, and 3) bound to Cu. The intracellular Cu levels estimated by atomic absorption spectroscopy showed decreased levels of copper in peptide-treated cells as compared to control. These peptides inhibited proliferation, migration, and tube formation in HUVEC by sequestering copper, preventing its entry into the cell and thereby inhibiting angiogenesis.
...
PMID:Peptides derived from histidine and methionine-rich regions of copper transporter 1 exhibit anti-angiogenic property by chelating extracellular Cu. 2913 64
Accumulation of iron has been associated with the pathobiology of various disorders of the central nervous system. Our previous work has shown that hephaestin (Heph) and
ceruloplasmin
(Cp) double knockout (KO) mice induced iron accumulation in multiple brain regions and that this was paralleled by increased oxidative damage and deficits in cognition and memory. In this study, we enriched astrocytes and oligodendrocytes from the cerebral cortex of neonatal wild-type (WT), Heph KO and Cp KO mice. We demonstrated that Heph is highly expressed in oligodendrocytes, while Cp is mainly expressed in astrocytes. Iron efflux was impaired in Cp KO astrocytes and Heph KO oligodendrocytes and was associated with increased oxidative stress. The expression of Heph, Cp, and other iron-related genes was examined in astrocytes and oligodendrocytes both with and without iron treatment. Interestingly, we found that the expression of the mRNA encoding ferroportin 1, a
transmembrane protein
that cooperates with CP and HEPH to export iron from cells, was positively correlated with Cp expression in astrocytes, and with Heph expression in oligodendrocytes. Our findings collectively demonstrate that HEPH and CP are important for the prevention of glial iron accumulation and thus may be protective against oxidative damage.
...
PMID:Multi-copper ferroxidase deficiency leads to iron accumulation and oxidative damage in astrocytes and oligodendrocytes. 3126 55
