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Isolation, characterization, and quantitative analysis of ceruloplasmin from horses
1991
Okumura, M. | Fujinaga, T. | Yamashita, K. | Tsunoda, N. | Mizuno, S.
Ceruloplasmin (Cp) was isolated from fresh equine plasma by precipitation, cellulose chromatography, and improved ion-exchange chromatography. Purified equine Cp is a glycoprotein having a molecular weight of approximately 115,000. In electrophoresis, equine Cp migrated to the alpha 1-globulin region, its isoelectric point was about 4.15 and consisted of about 890 amino acid residues. Serum Cp concentration was measured by use of the single radial immunodiffusion method. In clinically normal horses, the mean (+/- SD) serum Cp concentration of newborn foals was 2.87 +/- 0.40 mg/ml and that of 3-month-old foals was 5.02 +/- 0.92 mg/ml, which was similar to the adult value. It reached a peak of 6.06 +/- 0.74 mg/ml in 2-year-old horses. The Cp concentration in mares was not statistically different for the perinatal period, but it decreased immediately before and after delivery. Concentration of Cp increased at 6 days after IM administration of turpentine oil, castration, or jejunojejunostomy in adult horses, and increased to peak values twice as high as baseline values at 7 to 14 days, returning to baseline values at 28 days after treatment. We concluded that equine serum Cp is an acute-phase reactive protein increased in the intermediary or later phase of acute inflammation.
显示更多 [+] 显示较少 [-]Purification and partial characterization of canine pepsinogen A and B
2002
Suchodolski, Jan S. | Steiner, Jörg M. | Ruaux, Craig G. | Boari, Andrea | Williams, David A.
Objective-To purify and partially characterize various isoforms of canine pepsinogen (PG) from gastric mucosa. Sample Population-Stomachs obtained from 6 euthanatized dogs. Procedure-Mucosa was scraped from canine stomachs, and a crude mucosal extract was prepared and further purified by use of weak anion-exchange chromatography, hydroxyapatite chromatography, size exclusion chromatography, and strong anionexchange chromatography. Pepsinogens were characterized by estimation of molecular weights, estimation of their isoelectric points (IEPs), and N-terminal amino acid sequencing. Results-Two different groups of canine PG were identified after the final strong anion-exchange chromatography: PG A and PG B. Pepsinogens differed in their molecular weights and IEP. Pepsinogen B appeared to be a dimer with a molecular weight of approximately 34,100 and an IEP of 4.9. Pepsinogen A separated into several isoforms. Molecular weights for the various isoforms of PG A ranged from 34,200 to 42,100, and their IEPs ranged from 4.0 to < 3.0. The N-terminal amino acid sequence for the first 25 amino acid residues for PG A and B had good homology with the amino acid sequences for these proteins in other species. Conclusions and Clinical Relevance-Canine PG B and several isoforms of canine PG A have been purified. Availability of these PGs will facilitate development of immunoassays to measure PG in canine serum as a potential diagnostic marker for gastric disorders in dogs.
显示更多 [+] 显示较少 [-]Plasminogen activator production by bovine milk macrophages and blood monocytes
1991
Politis, I. | Zhao, X. | McBride, B.W. | Burton, J.H. | Turner, J.D.
The type of plasminogen activator (PA) produced by bovine milk macrophages has been determined. Macrophages produce a PA protein with molecular weight of 28,000 and isoelectic point of 8.5, and with enzymatic activity independent of fibrin. These characteristics are identical to those reported for bovine urokinase-PA. Although blood monocytes and milk macrophages produce PA after stimulation with lipopolysaccharide, mammary macrophages are clearly limited in their ability to release PA. At maximal stimulation, 78% of the PA produced by milk macrophages remained cell-associated. In marked contrast, blood monocytes released 76% of the PA produced into the culture medium. Macrophages isolated from mastitic quarters produced higher (2.5 times) amounts of PA, compared with those produced by macrophages isolated from healthy quarters. However, in both cases, macrophages were unable to secrete the protein already produced. The limited PA secretion by milk macrophages might be a residual function of a differentiated macrophage population.
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