Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P02749 (beta2-glycoprotein I)
 836 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

C-reactive protein (CRP) is thought to play an important role in immunomodulation. The exact biologic function of this pentraxin protein is, however, still unclear. Here we report experiments designed to further characterize the binding properties of CRP. Using purified human CRP it could be shown that CRP immobilized onto polystyrene surfaces or onto latex beads binds distinct plasma glycoproteins including IgG, asialofetuin, asialo-beta 2-glycoprotein I and, likewise, synthetic glycoproteins as a lectin, exhibiting binding specificity for terminal galactosyl residues of the glycoprotein glycans. Binding of CRP to IgA, IgM, IgG, asialofetuin, asialo-beta 2-glycoprotein I and to synthetic glycoproteins requires immobilization onto surfaces of both CRP and the ligand. Fibronectin and fibrinogen are bound by surface-immobilized CRP also in soluble phase. Comparing various mono-, di-, and trisaccharides as competitive inhibitors of the lectin binding activity of CRP, only beta-D-Gal-(1-3)-D-GalNAc, beta-D-Gal-(1-4)-D-GalNAc, and beta-D-Gal-(1-4)-beta-D-Gal-(1-4)-D-GlcNAc had significant inhibitory power at a concentration of 8 mmol/liter. Binding activity of CRP was pH-dependent with an optimum at pH 5 to 6 and was reduced by 90% when pH was shifted from 6 to the physiologic pH value of 7.4. CRP exhibited lectin-like properties with binding specificity for galactosyl residues also when bound to K-562 erythroleukemia cells. It is therefore suggested that CRP immobilized onto surfaces exhibits lectin activity toward galactosyl groups preferentially in a mildly acidic environment as present at sites of inflammation.
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PMID:Lectin specificity and binding characteristics of human C-reactive protein. 162 92

An anticoagulant protein, factor IX/factor X-binding protein (IX/X-bp), isolated from the venom of Trimeresurus flavoviridis, binds with factor IX and factor X in the presence of Ca2+ with a 1 to 1 stoichiometry (Atoda, H., and Morita, T. (1989) J. Biochem. (Tokyo) 106, 808-813). Analysis of S-pyridylethylated IX/X-bp by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed a 16.0-kDa band (designated the A chain) and a 15.5-kDa band (designated the B chain). These two chains were separated by reversed-phase high performance liquid chromatography, and their complete amino acid sequences were determined by sequencing of the peptides obtained after digestion with lysyl endopeptidase, chymotrypsin, and V8 protease from Staphylococcus aureus and after chemical cleavage with cyanogen bromide. The A chain had an amino-terminal sequence of Asp-Cys-Leu-Ser-Gly- and consisted of 129 residues with Mr 14,830. The B chain has an amino-terminal sequence of Asp-Cys-Pro-Ser-Asp- and consists of 123 residues of Mr 14,440. There was 47% identity between the A and the B chain. The sequence of IX/X-bp showed 25-37% identity with that of the C-type carbohydrate recognition domain-like structure of acorn barnacle lectin, human and rat asialoglycoprotein receptors, the human lymphocyte Fc epsilon receptor for immunoglobulin E, proteoglycan core protein, pancreatic stone protein, and tetranectin. The sequences of the first 18 amino acid residues of both the A and B chains were also, to a certain extent, homologous to the partial amino acid sequence of the b subunit of factor XIII, a member of the beta 2-glycoprotein I-like family. In this region, some similarity with the amino-terminal amino acid sequence of botrocetin was also observed.
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PMID:The primary structure of coagulation factor IX/factor X-binding protein isolated from the venom of Trimeresurus flavoviridis. Homology with asialoglycoprotein receptors, proteoglycan core protein, tetranectin, and lymphocyte Fc epsilon receptor for immunoglobulin E. 183 Nov 97

The amount and type of sialylation of tumor cell membranes depends on the activity of a number of different sialyltransferase enzymes. For the detection of specific activities in human colorectal carcinoma tissue several glycoprotein and glycolipid acceptors were used: desialylated fetuin, alpha 1-acid glycoprotein, beta 2-glycoprotein I, ovine submaxillaris mucin, and the gangliosides GM1, GM2, GM3 and GD1a. Because of their possible relevance for metastasis, precursors of Le(a) and Le(x) antigens, too, were employed, namely neoglycolipids produced by coupling LcOse4 or NeoLcOse4 oligosaccharides to L-alpha-phosphatidyl-ethanol-amine-dipalmitoyl. Our data indicate that human colorectal tumor tissue contains two highly active sialyltransferase enzymes, which are only weakly expressed in normal mucosa. These are a N-glycan-specific alpha 2,6-sialyltransferase, which was significantly increased in metastasizing tumors, and a Gal beta 1,3Gal-NAc-specific sialyltransferase, which was increased in tumors of early stages. A shift to enhanced alpha 2,6-sialylation of membrane glycoproteins during carcinogenesis was demonstrated by lectin ELISA analysis of magneto-bead separated tumor cells. Quantitative determination of specific sialyltransferase activities may be a sensitive tool for detection and monitoring of colon carcinoma.
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PMID:Different sialyltransferase activities in human colorectal carcinoma cells from surgical specimens detected by specific glycoprotein and glycolipid acceptors. 819

Apolipoprotein H, also known as beta 2-Glycoprotein I, is a single chain highly glycosylated polypeptide of 326 amino acids. The carbohydrate content of apolipoprotein H is approximately 19% of the molecular weight. Some studies have described the main oligosaccharides forming the glycosylated chains but the carbohydrate inner structures of apolipoprotein H has not been investigated yet. This gap should be filled being glycosylation a very important process which is able to regulate the structure and the biological functions of proteins. Lectins are proteins which specifically bind carbohydrate structures. Affinity chromatography of glycoproteins on immobilized lectins, such as Concanavalin A (Con A), has been proved to be a useful method for oligosaccharide fractionation. N-Linked oligosaccharide structures were shown to interact with Con A according to their branching properties. In the present study, we analyzed the patterns of Con A elution of apolipoprotein H isolated from human plasma. Using Con A affinity chromatography we show that apolipoprotein H has a high degree of heterogeneity in its glycosylated structure. It allowed one to isolate two groups of apolipoprotein H molecules bearing biantennary and truncated hybrids and high mannose and hybrid oligosaccharides. Since Con A affinity chromatography allows fractionation of molecules differing in the extent of carbohydrate branching irrespective of the sialyl residues, we can conclude that mannose residues are masked with other sugars such as galactose-beta (1-4)N-acetylglucosamine, galactose-beta (1-3)N-acetyl-galactosamine and sialic acid linked alpha (2-6) to galactose or to N-acetylgalactosamine, or capped with sulfated residues. Thus, according to our results apolipoprotein H presents truncated hybryd or hybrid-type carbohydrate chains which bear few unmasked mannose residues as terminal sugar. Moreover, isoelectrofocusing of apolipoprotein H forms fractionated on Con A demostrates that weakly bound material presents a predominance of more acidic isoforms than that firmly bound to the lectin, indicating that weakly bound fractions contain molecules which are more negatively charged and that Con A is able to separate glycosylated forms which are not discriminated by isoelectrofocusing.
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PMID:Characterization of the carbohydrate structures of apolipoprotein H through concanavalin A affinity chromatography. 910 19

We studied the structure of N-linked carbohydrates bound to apolipoprotein H by a combination of two methods which make use of lectins. Digoxigenin-labelled lectins are used for the structural characterization of carbohydrate chains of glycoproteins. Concanavalin A lectin affinity chromatography was used to analyse apolipoprotein H according to the characteristics of its carbohydrate chain inner to sialic acid residues. Our results from digoxigenin-labelled lectins analysis showed that apolipoprotein H gave positive bands to SNA, DSA, GNA, PNA and AAA lectins. Apolipoprotein H gave a negative band when reacted with MAA lectin. When we applied apolipoprotein H onto the Concanavalin A lectin column no detectable amounts of protein were eluted with Concanavalin A buffer. After adding a buffer with low sugar concentration (10 mM glucoside) a large amount of apolipoprotein H was recovered. These molecules of apolipoprotein H weakly bound to the lectin. When a higher sugar concentration (500 mM mannoside) was added most of the sample applied was eluted. These molecules of apolipoprotein H firmly bound to the column having high affinity for the lectin. These results combined with those coming from the digoxigen-labeled lectins method enable us to understand the inner structure of carbohydrate chains with their outer branches. Molecules of apolipoprotein H which weakly bind to Concanavalin A could bear complex N-glycans organized in biantennary or truncated hybrid structures. Firmly bound apolipoprotein H referred to molecules rich in N-glycan hybrid structures. They have an outer branch belonging to the high mannose carbohydrate chains which explain the ability to bind to the column and an other main branch bearing the sequence galactose beta-(1-4)-N-acetylglucosamine beta-(1-2) mannose. Galactose could be the terminal sugar or, alternatively, be masked with sialic acid alpha-(2-6) terminally linked.
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PMID:Characterization and representative structures of N-oligosaccharides bound to apolipoprotein H. 952 27

The binding and uptake of phosphatidylserine (PS)-expressing cells appears to involve multiple receptor-mediated systems that recognize the lipid either directly or indirectly through intermediate proteins that form a molecular bridge between the cells. Here we show that beta2-glycoprotein I (beta2GPI), a 50-kDa serum glycoprotein, binds PS-containing vesicles and serves as an intermediate for the interaction of these vesicles with macrophages. Chemical modification of lysines and cysteines abolished beta2GPI-dependent PS uptake by inhibiting the binding of PS to beta2GPI and the binding of PS.beta2GPI complex to macrophages, respectively. Recognition was mediated by beta2GPI and not by the lipid because antibodies to beta2GPI inhibited binding of the complex to macrophages. These results indicate that human (THP-1-derived) macrophages bind beta2GPI only after it is bound to its lipid ligand. Competition experiments with monosaccharides that inhibit lectin-dependent interactions, and PS.beta2GPI binding experiments using deglycosylated beta2GPI, suggested that carbohydrate residues were not required for macrophage recognition of the complex. Antibodies to putative macrophage PS receptors (CD36, CD68, and CD14) did not inhibit uptake of the complex. These data suggest that beta2GPI can bind cells that fail to maintain membrane lipid asymmetry and generate a specific bridging moiety that is recognized for clearance by a phagocyte receptor that is distinct from CD36, CD68, and CD14.
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PMID:Characterization of phosphatidylserine-dependent beta2-glycoprotein I macrophage interactions. Implications for apoptotic cell clearance by phagocytes. 978 40

Dendritic cells (DC) are potent antigen-presenting cells involved in the initiation of immune responses, including those directed towards self antigens. Immature DC capture soluble antigens by macropinocytosis or c-type lectin receptor-mediated endocytosis and particulate by phagocytosis, including Fc receptor-mediated phagocytosis. Apoptosis is accompanied by the clustering of intracellular autoantigens, which are also selectively cleaved and phos-phorylated, and by the exposure of anionic phospholipids (phosphatidyl-serine, PS). Anti-phospholipid antibody (aPL) detection correlates with an increased risk of developing autoimmune syndromes. In this study apoptosis was induced by UV irradiation, growth factor deprivation or exposure to protein synthesis inhibitors of murine cells and verified by confocal microscopy and flow cytometry. Apoptotic cells were recognized by a panel of anti-beta2-glycoprotein I (beta2-GPI) aPL monoclonal antibodies, but not by isotype-matched antibodies. The binding restricted to membrane domains, corresponding to apoptotic blebs, was not affected by the stimulus initiating apoptosis and was specific, since it required the association of the beta2-GPI co-factor to the apoptotic membrane. aPL-binding successfully transformed apoptotic cells in an efficient phagocytic substrate for murine immature DC, possibly skewing their immunogenicity in vivo.
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PMID:Dendritic cells preferentially internalize apoptotic cells opsonized by anti-beta2-glycoprotein I antibodies. 980 23

Apolipoprotein H is a single chain polypeptide composed of 326 amino acids highly glycosylated. Its carbohydrate content is approximately 19% of the molecular weight. We show that it is rich in sialic acid linked alpha (2-6) to galactose or N-acetylgalactosamine. Sialic acid is not alpha (2-3) linked to galactose. Galactose is beta (1-4) linked to N-acetylglucosamine and beta (1-3) linked to N-acetylgalactosamine. Carbohydrate O-linked chains (mainly sialic acid) are alpha (2-6) linked to galactose or N-acetylgalactosamine. Galactose is also organised in O-linked chains and beta (1-4) linked to N-acetylglucosamine and beta (1-3) linked to acetylgalactosamine. Concanavalin A lectin was used to isolate two groups of apolipoprotein H molecules bearing biantennary and truncated hybrids and high mannose and hybrid oligosaccharides. Apolipoprotein H fails to bind lysine-Sepharose. Our results thus show that it presents truncated hybrid or hybrid-type carbohydrate chains which bear few unmasked mannose residues as a terminal sugar. Biochemical analysis of carbohydrate structures conducted on single isoforms separated through IEF revealed that no specific carbohydrate complex is bound to a single isoform.
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PMID:Study of the glycosylation of apolipoprotein H. 1070 Oct 81