Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Male Holtzman rats were offered a semipurified low-copper (Cu) diet (0.36 mg Cu/kg) for 5-6 weeks to further characterize cardiac hypertrophy, which accompanies Cu deficiency. Cu-adequate (controls) were given supplemental Cu (20 micrograms/ml) in their drinking water, and Cu-deficient rats were given deionized water. Cu-deficient rats had lower plasma ceruloplasmin activity, lower hemoglobin levels, higher heart weights, and similar body weights compared with Cu-adequate rats. The relative degree of hypertrophy in the right ventricle of Cu-deficient rats was significantly higher (2.3-fold) than that in the left ventricle and atria (both were 1.9-fold higher than the values in Cu-adequate rats). Edema was not detected. Ventricles and atria of Cu-deficient rats had markedly lower Cu and no significant differences in iron concentrations compared with Cu-adequate rats. Heart protein concentrations were not altered consistently by Cu deficiency. Enzyme activities of the cuproenzymes cytochrome-c oxidase (CCO), copper, zinc-superoxide dismutase (SOD), dopamine beta-monooxygenase (DBM), peptidylglycine alpha-amidating monooxygenase (PAM), and the selenoenzyme glutathione peroxidase (GPX) were measured in the atria and ventricles. Cu deficiency resulted in lower specific activities of all cuproenzymes, with the exception of ventricular PAM. GPX was not altered by chamber region or diet. Specific activity of PAM was 200-fold higher in atria than in ventricles in control rats. Catecholamine analyses by HPLC confirmed that, like ventricular tissue, atria of Cu-deficient rats had lower noreplnephrine and higher dopamine concentrations, consistent with lower DBM activity. Another experiment detected no differences between the two dietary groups in mean arterial blood pressure, heart rates, or responses after challenge with anglotensin II, phenylepherine, or acetylocholine in cannulated rats. In this Cu-deficient rat model, all chambers of the heart exhibit similar and marked hypertrophy. Biochemical alterations following dietary Cu deficiency were also similar in atria and ventricles. The hypertrophic response appears different from the response to simple pressure or volume overload.
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PMID:Atria and ventricles of copper-deficient rats exhibit similar hypertrophy and similar altered biochemical characteristics. 927 Jul 21

We determined the concentrations of copper, the activities of ceruloplasmin and peptidylglycine alpha-amidating monooxygenase (PAM), and the stimulation index of PAM by the in vitro addition of copper in plasma samples obtained from three male patients with occipital horns and a milder Menkes disease phenotype, having severe copper deficiency due to the defect in copper transport. We found a decreased plasma ceruloplasmin activity and an increased copper stimulation index of plasma PAM in these patients compared with healthy control subjects. The combination of these two determinations may provide a means for the assessment of copper nutriture in humans using blood samples obtained in a single microhematocrit tube. Further investigation is warranted to evaluate whether these noninvasive measurements can be used for the diagnosis of mild copper deficiency in humans with sufficient specificity and sensitivity.
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PMID:In vitro copper stimulation of plasma peptidylglycine alpha-amidating monooxygenase in Menkes disease variant with occipital horns. 939 70

Copper is an essential cofactor for approximately a dozen cuproenzymes in which copper is bound to specific amino acid residues in an active site. However, free cuprous ions react readily with hydrogen peroxide to yield the deleterious hydroxyl radical. Therefore, copper homeostasis is regulated very tightly, and unbound copper is extremely low in concentration. Copper imported by the plasma membrane transport protein Ctr1 rapidly binds to intracellular copper chaperone proteins. Atox1 delivers copper to the secretory pathway and docks with either copper-transporting ATPase ATP7B in the liver or ATP7A in other cells. ATP7B directs copper to plasma ceruloplasmin or to biliary excretion in concert with a newly discovered chaperone, Murr1, the protein missing in canine copper toxicosis. ATP7A directs copper within the transgolgi network to the proteins dopamine beta-monooxgenase, peptidylglycine alpha-amidating monooxygenase, lysyl oxidase, and tyrosinase, depending on the cell type. CCS is the copper chaperone for Cu,Zn-superoxide dismutase; it delivers copper in the cytoplasm and intermitochondrial space. Cox17 delivers copper to mitochondria to cytochrome c oxidase via the chaperones Cox11, Sco1, and Sco2. Other copper chaperones may exist and might include metallothionein and amyloid precursor protein (APP). Genetic and nutritional studies have illustrated the essential nature of these copper-binding proteins; alterations in their levels are associated with severe pathology.
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PMID:Intracellular copper transport in mammals. 1511 35

In an attempt to identify a sensitive and improved marker of mammalian copper status during neonatal development experiments compared two plasma cuproenzymes, peptidylglycine alpha-amidating monooxygenase (PAM ), an enzyme involved in peptide posttranslational activation, to ceruloplasmin (Cp), a ferroxidase involved in iron mobilization. Dietary Cu deficiency (Cu-) was studied in dams and offspring at postnatal age 3 (P3), P12, and P28. Rodent Cp activity rose during lactation whereas PAM activity fell. Reduction in Cp activity was more severe than reduction in PAM activity in Cu- offspring and dams. Cp activity was greater in rats than mice whereas PAM activity was similar in adults but greater in mouse than rat pups. Both cuproenzymes changed during neonatal development and when dietary copper was limiting. With proper controls, each enzyme can be used to assess copper status.
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PMID:Plasma peptidylglycine alpha-amidating monooxygenase (PAM) and ceruloplasmin are affected by age and copper status in rats and mice. 1644 35