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Target Concepts:
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Query: EC:1.16.3.1 (
ceruloplasmin
)
5,074
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Animal and human studies have shown that copper is involved in the function of several enzymes. Studies have also shown that copper is required for infant growth, host defense mechanisms, bone strength, red and white cell maturation, iron transport, cholesterol and glucose metabolism, myocardial contractility, and brain development. Copper deficiency can result in the expression of an inherited defect such as
Menkes syndrome
or in an acquired condition. Acquired deficiency is mainly a pathology of infants; however, it has been diagnosed also in children and adults. Most cases of copper deficiency have been described in malnourished children. The most constant clinical manifestations of acquired copper deficiency are anemia, neutropenia, and bone abnormalities. Other, less frequent manifestations are hypopigmentation of the hair, hypotonia, impaired growth, increased incidence of infections, alterations of phagocytic capacity of the neutrophils, abnormalities of cholesterol and glucose metabolism, and cardiovascular alterations. Measurements of serum copper and
ceruloplasmin
concentrations are currently used to evaluate copper status. These indexes are diminished in severe to moderate copper deficiency; however, they are less sensitive to marginal copper deficiency. Erythrocyte superoxide dismutase and platelet cytochrome c activities may be more promising indexes for evaluating marginal copper deficiency.
...
PMID:Copper as an essential nutrient. 861 66
Recent studies resulted in the cloning of the genes responsible for
Menkes syndrome
and Wilson disease. Despite the distinct clinical phenotypes of these disorders, each gene encodes a highly homologous member of the cation-transport P-type ATPase family. The remarkable evolutionary conservation of these proteins in bacteria, yeast, plants, and mammals reveals a fundamental protein structure essential for copper export in all life forms. Characterization of a molecular defect in the rat homologue of the Wilson ATPase in the Long-Evans Cinnamon rat identifies an animal model of Wilson disease and will permit experimental analysis of the precise role of this ATPase in copper transport, the effects of specific inherited mutations on transport function, and the cellular and molecular mechanisms of tissue injury resulting from copper accumulation. Finally, recent molecular genetic analysis of a distinct group of patients with low serum
ceruloplasmin
and basal ganglia symptoms identified a series of mutations in the
ceruloplasmin
gene. The presence of these mutations in conjunction with the clinical and pathologic findings clarifies the essential biological role of this abundant copper protein in metal metabolism and identifies aceruloplasminemia as a novel autosomal recessive disorder of iron metabolism.
...
PMID:Genetic and molecular basis for copper toxicity. 861 71
The movement of copper ions across membrane barriers of vital organs and tissues is a priority topic in nutrition and one for which there continues to be little understanding of the mechanism. Reports of membrane-bound, copper-transporting adenosine triphosphatases (Cu-ATPases) selective for copper ions have brought new focus to the problem and prompted fresh ideas. Using a cell culture model approach, we attempted to learn whether transport into and out of cells depends on a Cu-ATPase. Measurement of transport kinetics in fibroblasts, brain glial cells, neuroblastoma cells, and placental cells showed differences in the rates of copper uptake and response to sulfhydryl reagents. BeWo cells, a human choriocarcinoma placental cell line, behaved as did Menkes fibroblasts by avidly absorbing copper but not releasing copper to the immediate environment. Further tests showed that BeWo cells did not express the transcript for the membrane-bound Cu-ATPase that has been identified with
Menkes syndrome
. Transcript induction, however, was achieved by growing BeWo cells on porous filters that allowed apical and basolateral surfaces to form. With transcript expression, the cells showed a capacity to release copper into the medium. BeWo cells also synthesized a form of
ceruloplasmin
whose structure differed from that of the plasma protein and hence may be a product of a different gene. BeWo cells may also express the gene for Wilson disease, thus linking Menkes and Wilson proteins to maternal delivery of copper. We constructed a model in which both ATPases work in concert in a vesicle-based transport mechanism. The vesicle model may help us understand the transport of copper across the placenta and all cells in general.
...
PMID:Functional analysis of copper homeostasis in cell culture models: a new perspective on internal copper transport. 958 41
Wilson disease is an autosomal recessive inherited disorder of copper metabolism, characterized by the accumulation of copper in the body due to defective biliary copper excretion from hepatocytes. Recently, novel components involved in copper metabolism, including
Menkes disease protein
(ATP7A), Wilson disease protein (ATP7B), and copper chaperones, have been identified. It has been demonstrated that ATP7B functions in copper secretion into the plasma, coupled with
ceruloplasmin
synthesis and biliary copper excretion. However, the precise intracellular localization of ATP7B has been disputed. Various mutations of ATP7B have been reported in patients with Wilson disease, and investigations of genotype-phenotype correlations are now being conducted in the patients. These recent findings provide us with information on the molecular pathogenesis of Wilson disease, as well as the biological mechanisms of copper homeostasis. In this review, recent advances in this field are briefly summarized.
...
PMID:Wilson disease. 1218 46
Copper is essential for brain metabolism, serving as a cofactor to superoxide dismutase, dopamine-beta-hydroxylase, amyloid precursor protein,
ceruloplasmin
, and other proteins required for normal brain function. The copper-transporting ATPases ATP7A and ATP7B play a central role in distribution of copper in the central nervous system; genetic mutations in ATP7A and ATP7B lead to severe neurodegenerative disorders, Menkes disease and Wilson disease, respectively. Although both ATP7A and ATP7B are required, their specific roles and regulation in the brain remain poorly understood. Using high-resolution imaging and functional assays, we demonstrate that ATP7A and ATP7B show cell-specific distribution in adult cerebellum, have distinct enzymatic characteristics, and are regulated differently during development. ATP7B is continuously expressed in Purkinje neurons (PN) where it delivers copper to the
ferroxidase
ceruloplasmin
. ATP7A is a faster copper transporter than Wilson disease protein as evidenced by faster rates of catalytic reactions. The expression of ATP7A switches during development from PN to Bergmann glia, the cells supporting PN function in adult brain. Inactivation of ATP7B (Wilson disease protein) by gene knock-out induces a striking shift in the expression of the ATP7B target protein,
ceruloplasmin
, from PN to Bergmann glia, where ATP7A (
Menkes disease protein
) is present. The induced cell-specific change in expression restores copper delivery to
ceruloplasmin
via ATP7A. Overall, the results provide evidence for distinct functions of ATP7A and ATP7B in the cerebellum and illustrate a tight link between copper homeostasis in PN and Bergmann glia.
...
PMID:The copper-transporting ATPases, menkes and wilson disease proteins, have distinct roles in adult and developing cerebellum. 1563 71
Menkes syndrome
is caused by mutation of ATP7A gene that encode copper-binding membrane protein localized to the trans-Golgi membrane. Mutation of this gene causes defective exportation of copper from the cell. Intracellular accumulation of copper does not reach the toxic state, as copper entering the body is trapped in the intestinal epithelium. Copper requiring enzymes are dysfunction and cause multisystemic manifestations. The authors report a Thai boy 8 months of age who had depigmentation and kinky hair at birth. He developed myoclonic jerk at 3 months of age. He had hypopigmentation of the skin, delayed development, hypotonia, pectus excurvatum, loose skin and joints. He had anemia, very low serum copper and
ceruloplasmin
. X-ray showed Wormian bone of skull, osteopenia of long bones and generalized brain atrophy. The presented case has similar clinical and laboratory findings to 2 previous reports by Songkla University and Siriraj Hospital. Treatment is not effective due to unavailability of copper- histidinate and the patient already had severe brain damage. Genetic counseling is important to prevent the next offspring. Biochemical and molecular diagnosis are available for confirmation and prenatal diagnosis, but these techniques have limitations in Thailand.
...
PMID:Menkes syndrome: a case report. 1685 71
Copper is an essential micronutrient involved in a variety of biological processes indispensable to sustain life. At the same time, it can be toxic when present in excess, the most noticeable chronic effect being liver damage. Potent, efficient regulatory mechanisms control copper absorption in the digestive tract and copper biliary excretion; absorption ranges between 12 and 60% in humans, depending on Cu intake, presence of other factors in the diet that may promote or inhibit its absorption and on the copper status of the individual. Current evidence suggests that copper deficiency may be more prevalent than previously thought, while copper toxicity is uncommon under customary daily life conditions.
Menkes syndrome
and Wilson disease are genetic conditions associated with severe copper deficiency and severe copper toxicity, respectively. Effects of milder degrees of copper deficiency and excess copper exposure are not well described, mainly due to lack of sensitive and specific indicators; serum copper concentration and
ceruloplasmin
are the most frequently used indicators, but they only detect rather intense changes of copper status. Of the many proteins assessed as potential markers of copper status the chaperone of Zn-Cu superoxide dismutase (CCS1) has yielded promising results; data on its performance under different conditions are needed to confirm its use as an indicator of early copper deficiency. Defining copper requirements and upper safe limits of consumption (UL) is a complex process since there are adverse health consequences from both copper deficiency and copper excess (U shape curve). The regulatory framework for risk assessment of essential trace elements introduced by the International Programme on Chemical Safety (IPCS) has proposed a homeostatic model to determine the Adequate Range of Oral Intake (AROI) of essential trace elements; the nadir of the resulting U shape curve serves to define the AROI. At this range of intake physiological mechanisms allow for normal homeostasis and basically, there are no detectable adverse effects. At present, Recommended Dietary Intakes (DRIs) and Adequate Intakes (AIs) are used to recommend copper intakes at different ages and life situations. Evidence obtained in humans and non-human primates presented here suggest that current copper UL should be re evaluated. Developing the scientific basis for a copper UL and evaluating the relevance of copper deficiency globally are future key challenges for copper researchers.
...
PMID:Risks and benefits of copper in light of new insights of copper homeostasis. 2134 55
The movement of key transition metal ions is recognized to be of critical importance in the interaction between macrophages and intracellular pathogens. The present study investigated the role of copper in mouse macrophage responses to Salmonella enterica sv. Typhimurium. The copper chelator BCS (bathocuproinedisulfonic acid, disodium salt) increased intracellular survival of S. Typhimurium within primary mouse BMM (bone-marrow-derived macrophages) at 24 h post-infection, implying that copper contributed to effective host defence against this pathogen. Infection of BMM with S. Typhimurium or treatment with the TLR (Toll-like receptor) 4 ligand LPS (lipopolysaccharide) induced the expression of several genes encoding proteins involved in copper transport [Ctr (copper transporter) 1, Ctr2 and Atp7a (
copper-transporting ATPase 1
)], as well as the multi-copper oxidase Cp (
caeruloplasmin
). Both LPS and infection with S. Typhimurium triggered copper accumulation within punctate intracellular vesicles (copper 'hot spots') in BMM as indicated by the fluorescent reporter CS1 (copper sensor 1). These copper hot spots peaked in their accumulation at approximately 18 h post-stimulation and were dependent on copper uptake into cells. Localization studies indicated that the copper hot spots were in discrete vesicles distinct from Salmonella containing vacuoles and lysosomes. We propose that copper hot spot formation contributes to antimicrobial responses against professional intracellular bacterial pathogens.
...
PMID:Copper redistribution in murine macrophages in response to Salmonella infection. 2236 63
We report the case of a male patient with a normal development in the first three months of life, presenting for global regression, central axial hypotonic syndrome, pyramidal syndrome, focal epileptic seizures, and a particular aspect of the hair - almost absent, short, sparse, lightly colored, at age of five months, becoming coarse, twisted (kinky hair) by the age of 21 months. Different diseases associate similar neurological and macroscopic aspect of the hair (biotinidase deficiency, argininosuccinic aciduria, aminoaciduria, giant axonal neuropathy, trichothiodistrophy and
Menkes syndrome
). The microscopic aspect of the patient's hair showing normal hair, silver colored hair, hair shafts twisting 1800, trichoclasis, and trichoptilosis, was highly characteristic for Menkes disease. Diagnosis was further supported by the low concentration of serum copper and
ceruloplasmin
and exclusion of other metabolic disorders with similar macroscopic aspect of the hair. Molecular genetic testing by multiplex PCR indicated deletion of exon 22 in the ATP7A gene situated in Xq21.1 region, consistent with the clinical and biochemical phenotype. Physicians should use microscopic evaluation of the hair more often when suspicion of Menkes disease is raised, aiming a narrow further diagnostic workup and early positive diagnosis and genetic advice for the affected families.
...
PMID:Role of optic microscopy for early diagnosis of Menkes disease. 2532 26
