K. V. Ageeva scite author profile

Ceruloplasmin (CP), the multicopper oxidase of plasma, interacts with myeloperoxidase (MPO), an enzyme of leukocytes, and inhibits its peroxidase and chlorinating activity. Studies on the enzymatic properties shows that CP behaves as a competitive inhibitor impeding the binding of aromatic substrates to the active centre of MPO. The contact between CP and MPO probably entails conformational changes close to the p-phenylenediamine binding site in CP, which explains the observed activation by MPO of the substrate's oxidation. CP subjected to partial proteolysis was virtually unable to inhibit activity of MPO. The possible protein-protein interface is comprised of the area near active site of MPO and the loop linking domains 5 and 6 in CP. One of the outcomes of this study is the finding of a new link between antioxidant properties of CP and its susceptibility to proteolysis.

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Identification and properties of complexes formed by myeloperoxidase with lipoproteins and ceruloplasmin

Sokolov

Ageeva

Cherkalina

et al. 2010

Chemistry and Physics of Lipids

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Interaction of ceruloplasmin, lactoferrin, and myeloperoxidase

Sokolov

Pulina

Ageeva

et al. 2007

Biochemistry Moscow

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When lactoferrin (LF) and myeloperoxidase (MPO) are added to ceruloplasmin (CP), a CP-LF-MPO triple complex forms. The complex is formed under physiological conditions, but also in the course of SDS-free PAGE. Polyclonal antibodies to both LF and MPO displace the respective proteins from the CP-LF-MPO complex. Similar replacement is performed by a PACAP38 fragment (amino acids 29-38) and protamine that bind to CP. Interaction of LF and MPO with CP-Sepharose is blocked at ionic strength above 0.3 M NaCl and at pH below 4.1 (LF) and 3.9 (MPO). Two peptides (amino acids 50-109 and 929-1012) were isolated by affinity chromatography from a preparation of CP after its spontaneous proteolytic cleavage. These peptides are able to displace CP from its complexes with LF and MPO. Both human and canine MPO could form a complex when mixed with CP from seven mammalian species. Upon intravenous injection of human MPO into rats, the rat CP-human MPO complex could be detected in plasma. Patients with inflammation were examined and CP-LF, CP-MPO, and CP-LF-MPO complexes were revealed in 80 samples of blood serum and in nine exudates from purulent foci. These complexes were also found in 45 samples of serum and pleural fluid obtained from patients with pleurisies of various etiology.

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Effect of lactoferrin on oxidative features of ceruloplasmin

et al. 2009

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In our previous report we first described a complex between lactoferrin (Lf) and ceruloplasmin (Cp) with K (d) approximately 1.8 microM. The presence of this complex in colostrum that never contains more than 0.3 microM Cp questions the reliability of K (d) value. We carefully studied Lf binding to Cp and investigated the enzymatic activity of the latter in the presence of Lf, which allowed obtaining a new value for K (d) of Cp-Lf complex. Lf interacting with Cp changes its oxidizing activity with various substrates, such as Fe(2+), o-dianisidine (o-DA), p-phenylenediamine (p-PD) and dihydroxyphenylalanine (DOPA). The presence of at least two binding sites for Lf in Cp molecule is deduced from comparison of substrates' oxidation kinetics with and without Lf. When Lf binds to the first site affinity of Cp to Fe(2+) and to o-DA increases, but it decreases towards DOPA and remains unchanged towards p-PD. Oxidation rate of Fe(2+) grows, while that of o-DA, p-PD and DOPA goes down. Subsequent Lf binding to the second center has no effect on iron oxidation, hampers DOPA and o-DA oxidation, and reduces affinity towards p-PD. Scatchard plot for Lf sorbing to Cp-Sepharose allowed estimating K (d) for Lf binding to high-affinity (approximately 13.4 nM) and low-affinity (approximately 211 nM) sites. The observed effect of Lf on ferroxidase activity of Cp is likely to have physiological implications.

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Identification of leukocyte cationic proteins that interact with ceruloplasmin

Sokolov

Pulina

Ageeva

et al. 2007

Biochemistry Moscow

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Proteins from leukocytes were investigated for their ability to interact with ceruloplasmin (Cp), a copper-containing glycoprotein of human plasma. Extract from leukocytes was subjected to affinity chromatography on Cp-Sepharose, after which proteins were eluted from the resin with 0.5 M NaCl in Tris-HCl, pH 7.4. SDS-PAGE of the eluate revealed protein bands with molecular weights 78, 57, 40, 30, 16, and 12 kD. Among these, Western blotting detected myeloperoxidase (57, 40, and 12 kD) and lactoferrin (78 kD). Also, the 30-kD component had a sequence (1)I-(2)I/V-(3)G-(4)G-(5)R/H at the N-terminus that is likely to indicate the presence of neutrophilic elastase, cathepsin G, proteinase 3, and azurocidin (CAP 37) - all from the family of serprocidins. Mass spectrometry of tryptic fragments indicated the presence of the 16-kD eosinophilic cationic protein (seven peptides), 27-kD cathepsin G (eleven peptides), 27-kD azurocidin (eight peptides), 29-kD neutrophilic elastase (seven peptides), and 27-kD proteinase 3 (six peptides). Myeloperoxidase was represented by 57-, 40-, and 12-kD fragments (thirteen, ten, and four peptides, respectively). Thus, interaction with Cp of five cationic proteins, i.e. of eosinophilic cationic protein, cathepsin G, neutrophilic elastase, proteinase 3, and azurocidin is reported for the first time.

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K. V. Ageeva

Ceruloplasmin and myeloperoxidase in complex affect the enzymatic properties of each other

Identification and properties of complexes formed by myeloperoxidase with lipoproteins and ceruloplasmin

Interaction of ceruloplasmin, lactoferrin, and myeloperoxidase

Effect of lactoferrin on oxidative features of ceruloplasmin

Identification of leukocyte cationic proteins that interact with ceruloplasmin

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