Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.7 (plasmin)
 9,023 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nine samples of human ceruloplasmin [iron(II):oxygen oxidoreductase; EC 1.16.3.1] prepared by different procedures have been examined for heterogeneity; gel electrophoresis showed that seven contained a number of components with molecular weights ranging from 20,000 to 130,000, and two contained largely a single component of molecular weight 130,000. Digestion of a single-component preparation with plasmin produced fragments with molecular weights similar to those found in the multicomponent preparations. Amino-terminal analysis, peptide mapping, and amino acid analysis showed that plasmin digestion generated a fragment of 20,000 molecular weight, which corresponded to a component present in a multicomponent ceruloplasmin preparation. The 20,000 molecular weight fragment appears to correspond to the so-called alpha-subunit or L-chain of human ceruloplasmin. Chemical evidence is thus provided that ceruloplasmin is a single-chain protein and that the so-called subunits are fragments. The 20,000 molecular weight fragment contains a single cysteine; amino acid sequence studies have shown that the sequence in the vicinity of this residue is similar to that around the single cysteine residue in plant plastocyanins and bacterial azurins, which are small, blue, copper-containing proteins.
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PMID:Chemical evidence that proteolytic cleavage causes the heterogeneity present in human ceruloplasmin preparations. 14 97

The complete amino acid sequence has been determined for a fragment of human ceruloplasmin [ferroxidase; iron(II):oxygen oxidoreductase, EC 1.16.3.1]. The fragment (designated Cp F5) contains 159 amino acid residues and has a molecular weight of 18,650; it lacks carbohydrate, is rich in histidine, and contains one free cysteine that may be part of a copper-binding site. This fragment is present in most commercial preparations of ceruloplasmin, probably owing to proteolytic degradation, but can also be obtained by limited cleavage of single-chain ceruloplasmin with plasmin. Cp F5 probably is an intact domain attached to the COOH-terminal end of single-chain ceruloplasmin via a labile interdomain peptide bond. A model of the secondary structure predicted by empirical methods suggests that almost one-third of the amino acid residues are distributed in alpha helices, about a third in beta-sheet structure, and the remainder in beta turns and unidentified structures. Computer analysis of the amino acid sequence has not demonstrated a statistically significant relationship between this ceruloplasmin fragment and any other protein, but there is some evidence for an internal duplication.
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PMID:Complete amino acid sequence of a histidine-rich proteolytic fragment of human ceruloplasmin. 28 5

1. Ceruloplasmin, the blue protein of the plasma of vertebrates, was isolated from dolphin, a marine mammal. The protein showed overall physico-chemical parameters very similar to those of all other mammalian ceruloplasmins. The spectroscopic properties indicated a conservation of the copper binding sites. 2. Non-denaturing electrophoresis revealed a conformation similar to that of other mammalian ceruloplasmins. EPR spectroscopy and calorimetric analyses indicated a three-domain arrangement of the protein typical of "aged" ceruloplasmin. 3. Dolphin ceruloplasmin is the only mammalian ceruloplasmin insensitive to trypsin, plasmin or chymotrypsin. This property, however, does not result in a higher conformational stability of the molecule. Thus, susceptibility of ceruloplasmin to aging is not directly related to the lability to proteases, which is typical of all other mammalian ceruloplasmins so far studied.
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PMID:Dolphin ceruloplasmin: the first proteolytically stable mammalian ceruloplasmin. 133 85

Rat ceruloplasmin was purified from serum using fast protein liquid chromatography and compared to human ceruloplasmin isolated in the same manner. Rat ceruloplasmin was found to be more resistant to plasmin-mediated proteolysis than was human ceruloplasmin. Although both proteins were cleaved initially to products with apparent molecular weights of 116,000 and 20,000 Da, rat ceruloplasmin was resistant to further proteolysis, whereas the human enzyme was cleaved to smaller fragments. Primary structure differences could account for the different relative stabilities between the two enzymes. Kinetic analysis of rat ceruloplasmin produced a biphasic v vs v/s plot with apparent Km's of 40 and 1.5 microM for iron. When compared with the human enzyme, rat ceruloplasmin showed about one-fourth the ferroxidase activity and had a much broader pH profile than that of human ceruloplasmin. Rates of p-phenylenediamine oxidation by rat ceruloplasmin were about one-half those obtained with human ceruloplasmin, with maximal p-phenylenediamine oxidase activity at pH 5.0 for both enzymes.
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PMID:Rat ceruloplasmin: resistance to proteolysis and kinetic comparison with human ceruloplasmin. 153 Oct 3

The stability of 18 batches of anti-D immunoglobulin preparations from 7 European manufacturers was studied over 28-day incubation at +37 degrees C and 3-year storage at +4 degrees C. The mean loss of activity after 28 days at +37 degrees C was 12.3 +/- 8.2%, and after 3 years at +4 degrees C 15.2 +/- 9.5%. The correlation coefficient of the loss of activity between these two storages was r = 0.61, p less than 0.05 indicating that short-term incubation can be used to evaluate the shelf life stability of anti-D activity. In general, measurements of IgG fragments or activities of plasmin, plasminogen, or prekallikrein activator were not valuable in predicting the stability of anti-D activity due to the fact that the preparation of each manufacturer has its own unique pattern of enzymes and inhibitors. The anti-D immunoglobulin preparations contained up to at least 7 plasma proteins in addition to IgG. All preparations contained factor B, most of them alpha 2-macroglobulin, alpha 1-antitrypsin, albumin, and alpha 2-HS glycoprotein, alpha-Lysozyme was present in 7, and ceruloplasmin in 2 preparations. Neither purity nor impurity correlated with stability.
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PMID:Stability of European anti-D immunoglobulin preparations. 182 95

Differential scanning calorimetry has been used to investigate the thermal stability of three different ceruloplasmins (from sheep, chicken, and turtle) in their native state and after limited proteolysis. The three undegraded proteins showed a similar structural organization in three calorimetric domains, although their temperature of unfolding varied from 57.8 degrees C (turtle) to 71.2 degrees C (sheep) to 82.1 degrees C (chicken). The spectroscopic and the catalytic properties were totally lost at temperatures corresponding to the unfolding of the less thermostable domain in the case of sheep and chicken ceruloplasmins and to the unfolding of the most thermostable domain in the turtle protein. Trypsin, but not plasmin, digestion caused a significant decrease of the thermal stability of sheep and chicken ceruloplasmins. Turtle ceruloplasmin was insensitive to both proteases. Comparing the thermodynamic parameters of the sheep protein in its undegraded and cleaved states revealed a mismatch between the three calorimetric domains and the 3-fold internal replication of the primary structure, which is evident in the highly homologous, fully sequenced human protein. Copper removal caused the rearrangement of the molecule in only two calorimetric domains, suggesting a role of the metal atoms in organizing a new calorimetric domain, which was tentatively assigned to the less thermostable cooperative unit of the native protein.
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PMID:The multidomain structure of ceruloplasmin from calorimetric and limited proteolysis studies. 225 7

Plasma kallikrein activation occurs frequently during blood drawing and subsequent plasma handling. The purified enzyme was incubated with ceruloplasmin, inter-alpha-trypsin inhibitor and complement factor C4. Proteolysis caused by this enzyme was compared with the degradative effects of plasmin and thrombin. Among these proteins C4 proved to be most easily degraded; its cleavage products can interact with C4-binding protein.
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PMID:Some proteins not belonging to the clotting or to the kallikrein-kinin system altered by kallikrein. 622 32

Ceruloplasmin is a 132-kDa glycoprotein abundant in human plasma. It has multiple in vitro activities, including copper transport, lipid pro- and antioxidant activity, and oxidation of ferrous ion and aromatic amines; however, its physiologic role is uncertain. Although ceruloplasmin is synthesized primarily by the liver in adult humans, production by cells of monocytic origin has been reported. We here show that IFN-gamma is a potent inducer of ceruloplasmin synthesis by monocytic cells. Activation of human monoblastic leukemia U937 cells with IFN-gamma increased the production of ceruloplasmin by at least 20-fold. The identity of the protein was confirmed by plasmin fingerprinting. IFN-gamma also increased ceruloplasmin mRNA. Induction followed a 2- to 4-h lag and was partially blocked by cycloheximide, indicating a requirement for newly synthesized factors. Ceruloplasmin induction in monocytic cells was agonist specific, as IL-1, IL-4, IL-6, IFN-alpha, IFN-beta, TNF-alpha, and LPS were completely ineffective. The induction was also cell type specific, as IFN-gamma did not induce ceruloplasmin synthesis in endothelial or smooth muscle cells. In contrast, IFN-gamma was stimulatory in other monocytic cells, including THP-1 cells and human peripheral blood monocytes, and also in HepG2 cells. Ceruloplasmin secreted by IFN-gamma-stimulated U937 cells had ferroxidase activity and was, in fact, the only secreted protein with this activity. Monocytic cell-derived ceruloplasmin may contribute to defense responses via its ferroxidase activity, which may drive iron homeostasis in a direction unfavorable to invasive organisms.
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PMID:Induction of ceruloplasmin synthesis by IFN-gamma in human monocytic cells. 925 59

Myeloperoxidase (MPO) and eosinophil peroxidase (EPO) are involved in the development of halogenative stress during inflammation. We previously described a complex between MPO and ceruloplasmin (CP). Considering the high structural homology between MPO and EPO, we studied the latter's interaction with CP and checked whether EPO becomes inhibited in a complex with CP. Disc-electrophoresis and gel filtration showed that CP and EPO form a complex with the stoichiometry 1:1. Affinity chromatography of EPO on CP-agarose (150 mM NaCl, 10 mM Na-phosphate buffer, of pH 7.4) resulted in retention of EPO. EPO protects ceruloplasmin from limited proteolysis by plasmin. Only intact CP shifted the Soret band typical of EPO from 413 to 408 nm. The contact with CP likely causes changes in the heme pocket of EPO. Peroxidase activity of EPO with substrates such as guaiacol, orcinol, o-dianisidine, 4-chloro-1-naphtol, 3,3',5,5'-tetramethylbenzidine, and 2,2'-azino-bis(3-ethylbenzthiazoline-6-sulfonate) is inhibited by CP in a dose-dependent manner. Similar to the interaction with MPO, the larger a substrate molecule, the stronger the inhibitory effect of CP upon EPO. The limited proteolysis of CP abrogates its capacity to inhibit the peroxidase activity of EPO. The peptide RPYLKVFNPR (corresponding to amino acids 883-892 in CP) inhibits the peroxidase and chlorinating activity of EPO. Only the chlorinating activity of EPO is efficiently inhibited by CP, while the capacity of EPO to oxidize bromide and thiocyanate practically does not depend on the presence of CP. EPO enhances the p-phenylenediamine-oxidase activity of CP. The structural homology between the sites in the MPO and EPO molecules enabling them to contact CP is discussed.
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PMID:Interaction of ceruloplasmin with eosinophil peroxidase as compared to its interplay with myeloperoxidase: Reciprocal effect on enzymatic properties. 2576 23