Horse Plasma Ceruloplasmin Molecular Weight and Subunit Analysis

Ceruloplasmin is a blue copper-containing serum glycoprotein with oxidase activity. It as been proposed that the physiological function of ceruloplasmin involves the oxidation of ferrous iron and its incorporation into apotransferrin (1). There are several reports demonstrating that ceruloplasmin is made up of multiple chains (2-3-4-5-6-7). Ryden (8) has questioned the multichain structure of ceruloplasmin from human, pig, horse and rabbit sera, arguing that the dissociation observed by previous workers could be attributed to cleavage of labile bands in the protein by enzymatic contaminants present in commercial preparations of the protein. By introducing aminocaproic acid, a general protease inhibitor, at the beginning of the enzyme preparation, Ryden proposed a single-chain structure for ceruloplasmin. On the contrary the results presented by Freeman and Daniel (9) showed that human ceruloplasmin is a multichain protein.

In this paper we report a new purification method for horse ceruloplasmin which furnishes a homogeneous protein preparation in high yield and with good reproducibility.

This procedure allowed to determine with greater accuracy the molecular mass of the protein, of 120000 dal-tons by gel cromatography and 115000 daltons by SDS gel electrophoresis. The protein is composed of one unit only and contains 6 copper atoms. Horse cerulopla-smin is a glycoprotein containing about 20% carbohydrate by weight.     

Differences in the expression of the human interferon-gamma gene in fresh lymphocytes and cultured lymphoblasts

Mammalian erythrocytes have been shown to bind 125I labeled ceruloplasmin. Binding was reversible and specific. Scatchard analysis yielded linear plots with a Kd of approximately 5nM. The binding site appeared to be a protein located on the cell surface. A ceruloplasmin binding protein with a molecular weight of 60,000 daltons was isolated from human erythrocytes. Erythrocytes which were not protected by ceruloplasmin's antioxidant properties, did not bind ceruloplasmin. Our results provide evidence for the presence of ceruloplasmin receptors in the erythrocyte membrane. It is proposed that the antioxidant activity of ceruloplasmin may play a role in determining the lifespan of circulating red cells.     

Studies on Stigma Pellicle Glycoproteins of Raphanus sativus L.

Stigma surface diffusates of Raphanus sativus were subjected to polyacrylamide gel electrophoresis. There appeared protein bands, one of which gave positive PAS reaction, indicating it was glycoprotein. SDS polyacrylamide gel electrophoresis showed that the stigma diffusates contained many protein bands. By comparing their mobilities with those of standard proteins of known molecular weights, the molecular weights of some of the major fractions were estimated to be 15000, 30000—46000 and 70000 daltons. After Schiff reagent staining two main glycoprotein fractions appeared on the SDS gel electrophoretic pattern. Their molecular weights were estimated to be lower than 15000 and higher than 100000 daltons. By using acrylamide gel isoelectric focusing method, it was found that the stigma surface diffusates contained an acidic glycoprotein with pH of about 3.7. The amino acid composition of the purified stigma glycoprotein was determined with amino acid analyzer. Glycine, glutamic acid, serine, aspartic acid were some of the predominant amino acids. The diffusates were analysed by gasliquid chromatography for sugars. Results showed that the carbohydrate fraction of the glycoprotein consisted of arabinose 17.3%; galactose 19.1%, xylose 8.1%, mannose 5.4%, glucose 23.7%, rhamnose and/or fucose 26.4%. In the stigma surface diffusates of Raphanus sativus, the content of protein was estimated to be 16% and that carbohydrate was 11%.     

Purification of Choline Acetyltransferase from the Locust Schistocerca gregaria and Production of Serum Antibodies to This Enzyme

Choline acetyltransferase (ChAT; EC 2.3.1.6) was purified from the heads of Schistocerca gregaria to a final specific activity of 1.61 mumol acetylcholine (ACh) formed min-1 mg-1 protein. The molecular mass of the enzyme as determined by gel filtration is 66,800 daltons. The final enzyme preparation showed one major band at 65,000 daltons on sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis, which corresponds with the native molecular mass of the enzyme, a band at 56,000 daltons, and two bands at 40,500 and 38,000 daltons. Antibodies raised against ChAT in rabbit react only with the active band on native gel after Western blotting. They strongly react with the 65,000-dalton polypeptide band on Western blots of SDS gel separation of pure preparation of enzyme and with both the 65,000- and 56,000-dalton bands after SDS gel separation of crude extract.     

A key structural role for active site type 3 copper ions in human ceruloplasmin

Human ceruloplasmin is a copper containing serum glycoprotein with multiple functions. The crystal structure shows that its six domains are arranged in three pairs with a pseudo-ternary axis. Both the holo and apo forms of human ceruloplasmin were studied by size exclusion chromatography and small angle x-ray scattering in solution. The experimental curve of the holo form displays conspicuous differences with the scattering pattern calculated from the crystal structure. Once the carbohydrate chains and flexible loops not visible in the crystal are accounted for, remaining discrepancies suggest that the central pair of domains may move as a whole with respect to the rest of the molecule. The quasisymmetrical crystal structure therefore appears to be stabilized by crystal packing forces. Upon copper removal, the scattering pattern of human ceruloplasmin exhibits very large differences with that of the holoprotein, which are interpreted in terms of essentially preserved domains freely moving in solution around flexible linkers and exploring an ensemble of open conformations. This model, which is supported by the analysis of domain interfaces, provides a structural explanation for the differences in copper reincorporation into the apoprotein and activity recovery between human ceruloplasmin and two other multicopper oxidases, ascorbate oxidase and laccase. Our results demonstrate that, beyond catalytic activity, the three-copper cluster at the N-terminal-C-terminal interface plays a crucial role in the structural stability of human ceruloplasmin.     

Isolation and properties of superoxide dismutase from human blood plasma]

A procedure for purification of superoxide dismutase (SOD) from human blood plasma has been developed, which includes gel filtration on Ultrogels AcA-34 and AcA-44 (LKB, Sweden). The protein purified from blood plasma is a glycoprotein which is thermostable at 70-80 degrees C. The molecular mass of the protein determined immediately after gel filtration is approximately 147,000 daltons. A comparative analysis of effects on the SOD activity of plasma and erythrocytes of compounds capable of forming chelating complexes with metals within the enzyme active center has been carried out. The purified enzyme differs by its physico-chemical characteristics from cytosolic Cu,Zn-SOD and pertains to a new class of SOD, the so-called extracellular SOD, detected in some biological fluids.     

Isolation and immunological characterization of a glucose-regulated fibroblast cell surface glycoprotein and its nonglycosylated precursor.

We have isolated and immunochemically characterized a major membrane glycoprotein of mouse 3T3 cells. This GRP (glucose/glycosylation-regulated protein) is labeled by lactoperoxidase-mediated iodination and by ¹⁴C-glucosamine, binds concanavalin A and has an apparent molecular weight in SDS-polyacrylamide gels of 92,000 daltons (or 97,000 daltons in a discontinuous gel system). Glycosylated GRP was isolated from plasma membranes using Triton X-100 extraction, affinity chromatography on concanavalin A-Sepharose and preparative SDS gel electrophoresis.Antibody against this glycosylated GRP stains the external surfaces of mouse cells and induces patches and caps. Immunofluorescence and immunoprecipitation studies indicate that this glycoprotein can exist in the membrane in two molecular forms, either as a glycosylated or as a nonglycosylated protein. The nonglycosylated form is induced under conditions of limited glycosylation or glucose deprivation. This nonglycosylated GRP remains accessible to antibodies on the exterior of cells, but becomes inaccessible to lactoperoxidase.The immunoprecipitation of the 92K GRP with its specific antibody is always associated with the precipitation of a small fraction of the other major GRP of molecular weight 75,000 daltons. We suggest that both GRP (92K and 75K) may function in close association in the membrane.     

Characterisation of the alpha 1-protease inhibitor system in Thoroughbred horse plasma by horizontal two-dimensional (ISO-DALT) electrophoresis. 1. Protein staining

The isoelectric points and the molecular weights of the major components of the eight Thoroughbred protease inhibitor (Pi) types have been determined by polyacrylamide gel isoelectric focusing and polyacrylamide gel pore gradient (ISO-DALT) electrophoresis respectively. The major Pi proteins focus in the range pH 3.74-4.43 and have molecular weights ranging from 55 000-72 000 daltons. Using the ISO-DALT method of electrophoresis, protein maps for the eight Thoroughbred Pi types have been presented for the first time. None of the homozygous Pi types are identical except for the types S1 and S2 which show partial identity. The results do not necessarily support Juneja et al.'s (1979) contention of two closely linked alpha 1 Pi systems based on molecular weight differences. It is suggested that the traditional nomenclature originally proposed by Braend (1970) be maintained to describe the eight Pi alleles in Thoroughbred horse plasma. The ISO-DALT method provides a sensitive technique which is superior to existing techniques for the analysis of the horse Pi system.     

Identification of canine pulmonary surfactant-associated glycoprotein A precursors

Surfactant-associated glycoproteins A were identified by two-dimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis of crude surfactant from canine alveolar lavage: an unglycosylated form (protein A1), 27,000-28,000 daltons; glycoprotein A2, 32,000-34,000 daltons; and glycoprotein A3, 37,000-38,000 daltons; pH at isoelectric point (pI) 4.5-5.0. Glycoproteins A2 and A3 were electroeluted and used to prepare a monospecific antiserum that identified proteins A1, A2, and A3 in immunoblots of crude surfactant obtained from dog lung lavage. This antiserum precipitated several proteins from in vitro translated canine lung poly(A)+ mRNA; proteins of 27,000 daltons, pI 5.0, and 28,000 daltons, pI 4.8-5.0, which precisely comigrated with proteins A1 from canine surfactant. Cotranslational processing of the primary translation products by canine pancreatic microsomal membranes resulted in larger proteins of 31,000-34,000 daltons, pI 4.8-5.0. Treatment of these processed forms of glycoprotein A with endoglycosidase F, to remove N-linked carbohydrate, resulted in proteins of 27,000-28,000 daltons which precisely comigrated with surfactant protein A1. These observations demonstrate that the polypeptide precursors to the glycoproteins A complex are extensively modified by addition of asparagine N-linked complex carbohydrate and are subsequently secreted as glycoproteins A2 and A3.     

Purification and partial characterization of ceruloplasmin from chicken serum

The preparation and properties of ceruloplasmin from chicken serum are described. Ethanol-CHCl3 was used to precipitate the crude protein, followed by adsorption and elution from DEAE-Sephadex. Further treatment with Sephadex G-200 and CM-Sephadex yielded an intensely blue protein judged 1572-fold purer than starting serum. epsilon-Aminocaproic acid (0.02 M) was present in all buffers and starting sera. Chicken ceruloplasmin appears to be a single polypeptide, apparent Mr 124,000, with an A610/A280 ratio of 0.07 and an absorption maximum at 602 nm. Hexose, hexosamine, and sialic acid accounted for 7.2% of the weight; copper represented 0.20%, which suggested four or five copper atoms per molecule. Chicken ceruloplasmin catalyzed the azide-sensitive oxidation of p-phenylenediamine (PPD) and N,N'-dimethyl-p-phenylenediamine (DPD), and showed ferroxidase activity similar to that of human ceruloplasmin. Its amino acid composition, although similar in many residues to human ceruloplasmin, was decidedly lower in methionine and tyrosine. The chicken protein had one-third the sialic acid content of human ceruloplasmin and showed immunochemical nonidentity with human ceruloplasmin.     

Characterisation of the α1-protease inhibitor system in Thoroughbred horse plasma by horizontal two-dimensional (ISO-DALT) electrophoresis. 1. Protein staining

The isoelectric points and the molecular weights of the major components of the eight Thoroughbred protease inhibitor (Pi) types have been determined by polyacrylamide gel isoelectric focusing and polyacrylamide gel pore gradient (ISO-DALT) electrophoresis respectively. The major Pi proteins focus in the range pH 3.74–4.43 and have molecular weights ranging from 55 000–72 000 daltons. Using the ISO-DALT method of electrophoresis, protein maps for the eight Thoroughbred Pi types have been presented for the first time. None of the homozygous Pi types are identical except for the types S₁ and S₂ which show partial identity. The results do not necessarily support. Juneja et al.s (1979) contention of two closely linked α1 Pi systems based on molecular weight differences. It is suggested that the traditional nomenclature originally proposed by Braend (1970) be maintained to describe the eight Pi alleles in Thoroughbred horse plasma. The ISO-DALT method provides a sensitive technique which is superior to existing techniques for the analysis of the horse Pi system.     

Two-dimensional electrophoresis of horse serum proteins: genetic polymorphism of ceruloplasmin and two other serum proteins

Two-dimensional agarose gel (pH 8.6)-horizontal polyacrylamide gel (pH 9.0) electrophoresis of horse serum proteins revealed genetic polymorphism of ceruloplasmin (Cp) and two unidentified serum proteins tentatively designated serum protein 1 (SP1) and serum protein 2 (SP2). Family data were consistent with the hypothesis that the observed Cp and SP1 phenotypes were each controlled by two co-dominant, autosornal alleles. The three common SP2 phenotypes were shown to be controlled by two codominant, autosomal alleles. Population data and limited family data indicated the occurrence of two additional SP2 alleles. Altogether more than 600 horses representing 13 different breeds were typed for Cp, SP1 and SP2, and allele frequency estimates were calculated. SP2 was highly polymorphic in all breeds studied whereas SP1 and Cp showed quite low degrees of polymorphism. SP1 polymorphism was observed in seven breeds while Cp polymorphism was observed only in the Icelandic toelter horse breed.     

Translation of individual species of vesicular stomatitis viral mRNA.

Vesicular stomatitis virus mRNAs from three of the four bands fractionated by polyacrylamide gel electrophoresis in 99% formamide have been eluted from gels and translated in the Krebs II ascites cell-free system. Band 2 mRNA (0.7 times 10-6 daltons) directed the synthesis of the protein moiety of the glycoprotein (G), and band 3 (0.55 times 10-6 daltons) coded for the nucleocapsid (N) protein. Band 4 mRNA (o.28 times 10-6 daltons) directed the synthesis of the NS and matrix (M) proteins. The authenticity of viral proteins synthesized in vitro was shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and by analysis of (35-S)metionine-labeled tryptic peptides. These results are consistent with the complexity analysis and coding capacities for the vesicular stomatitis virus mRNA species presented in the accompanying paper.     

Purification and location of the major glycoprotein of vaccinia virus.

A glycoprotein component of vaccinia virus was extracted with a non-ionic detergent NP-40 (Nonidet P-40) and purified by gel chromatography. The single antigen extracted by the detergent had a molecular weight estimated between 100,000 and 200,000 daltons. This glycoprotein was found to contain less than 1% hexosamine which would correspond to 5--10 sugar residues per molecule. Antibodies produced against this glycoprotein were able to neutralize vaccinia virus. Using immunoelectron microscopy, this molecule was found to be located in the outer layer of the virion. These results further suggest that this protein called complex E (for external) is a surface component of vaccinia virus.     

Ceruloplasmin carries the anionic glycan oligo/poly alpha2,8 deaminoneuraminic acid

Oligo/poly alpha2,8 deaminoneuraminic acid (KDN), a unique posttranslational protein modification, was found on megalin and a not yet characterized 150 kDa glycoprotein. We purified this glycoprotein from rat testis and identified it as ceruloplasmin. Furthermore, immunoprecipitated ceruloplasmin from rat thymus, ovary, blood serum, and postnatal day 2 but not adult lung and brain was immunoreactive for oligo/poly alpha2,8 KDN. The immunoreactivity for oligo/poly alpha2,8 KDN on purified serum ceruloplasmin was abolished by N-glycosidase F treatment but not by beta-elimination, indicating that it is present on N-glycosidically linked oligosaccharides. However, the copper binding activity of ceruloplasmin was independent of the presence of the anionic glycan. By immunohistochemistry, ceruloplasmin was detectable in histologically defined regions in rat ovary, thymus, and spleen. Likewise, by RT-PCR, ceruloplasmin expression was found in various non-hepatic rat tissues and showed a developmentally regulated pattern. Thus, ceruloplasmin, in addition to megalin, represents a glycoprotein carrying oligo/poly alpha2,8 KDN.     

A novel glycoprotein that binds to hyaluronic acid

Hyaluronic acid binding protein (HBP) has been purified to homogeneity from normal rat brain by using Hyaluronate-Sepharose affinity chromatography. It appears as a single band in non-dissociating gel electrophoresis. The molecular weight of native protein, as determined by gel filtration is found to be 68,000 daltons, and has a single subunit of molecular weight approximately 13,500 as determined under denaturing conditions in polyacrylamide gel electrophoresis, indicating that this protein is apparently composed of five identical subunits. Amino acid analysis shows the purified HBP to be rich in glycine and glutamic acid content, and is distinct from fibronectin, link proteins, and gelatin binding proteins which are known to bind to hyaluronic acid. This protein is further characterised as sialic acid containing glycoprotein.     

Isolation and characterization of copper-binding sites of human ceruloplasmin

A tryptic cleavage procedure was used to obtain stable copper-containing peptide regions of human ceruloplasmin. Tryptic digestion-derived copper peptides were fractionated by gel filtration chromatography, yielding two fractions, one with an apparent molecular weight of 11000 and the other 1000. The high molecular weight fraction (11K fraction) was found to contain 50% of the copper atoms of the ceruloplasmin molecule and behaved as a single copper-containing component by gel filtration chromatography and by isoelectric focusing. The low molecular weight fraction (1K fraction) was found to be a mixture of three or four copper peptides by isoelectric focusing. Acrylamide gel electrophoresis studies, amino acid composition analysis and terminal amino acid determinations showed the 11K fraction to be a complex composed of at least three peptides arising from different regions of the ceruloplasmin molecule. Two of the peptides of the 11K complex appear to be derived from the 19K fragment of the ceruloplasmin molecule (18); one peptide in the complex appears to correspond to the aspartic acid-rich portion, residues 7-30, and the other to the histidine-rich portion, residues 103-157. Most preparations of ceruloplasmin are reported to consist of three non-covalently linked fragments that have molecular weights of 67K, 50K and 19K. Dwulet and Putnam (20) proposed a model for the sequence structure of ceruloplasmin where the molecule exhibits a three-fold repeat pattern of two alternating structures, here termed X and Y.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characterization and purification of membrane-associated phosphatidylinositol-4-phosphate kinase from human red blood cells

The membrane-bound form of phosphatidylinositol-4-phosphate (PtdInsP) kinase was purified 4,300-fold from human red blood cells to a specific activity of 117 nmol min-1 mg-1. Although this enzyme copurified with red blood cell membranes, it was solubilized by high salt extraction in the absence of detergent indicating that it is a peripheral membrane protein. The major protein seen in the most purified preparation migrated at 53,000 daltons on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The major PtdInsP kinase activity in this preparation was also coincident with this 53,000-dalton band upon renaturation of activity from SDS-PAGE. To test further whether the 53,000-dalton protein contained PtdInsP kinase activity, antibodies were prepared against the gel-purified 53,000-dalton protein. This antiserum was able to precipitate both the 53,000-dalton peptide and PtdInsP kinase activity from red blood cell membranes. The apparent size of the native enzyme in the most purified preparation was determined to be 150,000 +/- 25,000 daltons by gel filtration. This PtdInsP kinase activity was at least 100-fold more active in phosphorylating PtdInsP than phosphatidylinositol and was easily separated from the red cell membrane phosphatidylinositol kinase by salt extraction. Analysis of the reaction product, phosphatidylinositol 4,5-bisphosphate, indicates that the enzyme phosphorylates phosphatidylinositol 4-phosphate specifically at the 5'-hydroxyl of the inositol ring. The apparent Km for ATP was 2 microM, and the concentrations of Mg2+ and Mn2+ giving half-maximal activity were 2 and 0.2 mM, respectively. Mg2+ supported 3-fold higher activity than Mn2+ at optimal concentrations. The enzymatic activity was inhibited by its product, phosphatidylinositol 4,5-bisphosphate and enhanced by phosphatidylserine.     

Purification of Rat Ceruloplasmin: Characterization and Comparison with Human Ceruloplasmin

Rat ceruloplasmin was purified by a three-step column chromatography procedure, utilizing DEAE-Sepharose, Sepharose CL-6B, and CM-Sephadex A50 columns. The molecular weight of rat ceruloplasmin determined by a molecular sieve column was 124,000 daltons. An optical density ratio (610 nm/280 nm) of 0.051 and a molar extinction coefficient of 8600 were obtained. A decrease in lysine in rat ceruloplasmin compared with human ceruloplasmin could account for its reduced anodal mobility. Other differences in the amino acid sequence of the rat ceruloplasmin included an increase in methionine and cystine/cysteine, and a decrease in histidine, tyrosine and tryptophan.     

Characterization of the oligosaccharide units of the bovine erythrocyte membrane glycoprotein.

The major glycoprotein of the bovine erythrocyte membrane was purified by extraction of the ghosts with lithium 3,5-diiodosalicylate followed by phenol-water extraction and acidification. The glycoprotein contains 20% protein and 80% carbohydrate by weight and gives a single band on sodium dodecyl sulfate-polyacrylamide gels with an estimated molecular weight of 230000 daltons. The carbohydrate composition of the glycoprotein was determined to be (in residues relative to sialic acid): sialic acid, 1.0; fucose, less than 0.01; mannose, 0.1; galactose, 3.3; N-acetylgalactosamine, 0.9; and N-acetylglucosamine, 2.4. Pronase digestion of the isolated glycoprotein followed by Sephadex G-75 gel filtration resulted in the separation of a small pool of glycopeptides (pool III), which included all of the mannose-containing glycopeptides, from the bulk of the glycopeptide material which was in the void fractions of the column (pool I). Alkaline borohydride treatment released over 95% of the oligosaccharide units in pool I and approximately 30% of the oligosaccharide units in pool III. These oligosaccharides were isolated by gel filtration and ion-exchange chromatography. The oligosaccharides released from pool I had molecular weights of 1100-1400 daltons and contained sialic acid, galactose, and N-acetylglucosamine in molar ratios of 0.5-1:3:2 as well as a partial residue of N-acetylgalactosaminitol. The oligosaccharides released from pool III by alkali had molecular weights of 1300-1600 daltons and contained sialic acid, galactose, N-acetylglucosamine, N-acetylgalactosamine and N-ACETYLgalactosaminitol in molar ratios of 1-2:2:1:1:1. These data indicate that the majority of the oligosaccharide units of the bovine erythrocyte glycoprotein are linked O-glycosidically to the peptide backbone of the molecule.