Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P17931 (galectin-3)
2,860 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Volkensin, a highly toxic protein from the roots of Adenia volkensii (kilyambiti, kinoria), was purified by affinity chromatography on acid-treated Sepharose 6B. The toxin is a glycoprotein (Mr 62,000, neutral sugar content 5.74%) consisting of an A subunit (Mr 29,000) and of a B subunit (Mr 36,000) linked by disulfide and noncovalent bond(s). The amino acid, amino sugar, and neutral sugar composition of the protein were determined. Volkensin is a galactose-specific lectin and is a potent inhibitor of eukaryotic protein synthesis in whole cells as well as in a cell-free system (a rabbit reticulocyte lysate). The inhibitory and the lectin activities are functions of the A and B subunits, respectively. Volkensin can be included amongst the ricin-like toxins and resembles most closely modeccin, the toxin of Adenia digitata.
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PMID:Properties of volkensin, a toxic lectin from Adenia volkensii. 393 57

Agglutination and competition studies suggest that human erythrocyte Band 3 can interact with both mannose/glucose- and galactose-specific lectins. Purified Band 3 reconstituted into lipid vesicles binds concanavalin A, but the nonspecific binding component, measured in the presence of alpha-methylmannoside, is very high. This glycoprotein also carries binding sites for the galactose-specific lectin Ricinus communis agglutinin. Binding was inhibited poorly by lactose, but much more effectively by desialylated fetuin glycopeptides, suggesting that the lectin recognizes a complex oligosaccharide sequence on Band 3. The glycoprotein bears two separate classes of binding sites for R. communis agglutinin. High-affinity binding sites exist which show strong positive cooperativity and correspond in number to the outward-facing Band 3 molecules. A low-affinity binding mode is abolished by 40% ethyleneglycol, suggesting the involvement of hydrophobic lectin-glycoprotein interactions. Studies on binding of R. communis agglutinin to human erythrocytes indicate positively cooperative binding to 7 X 10(5) very-high-affinity sites per cell, and lectin binding is completely inhibitable by lactose. Based on its binding characteristics in vesicles, it seems likely that Band 3 forms the major receptor for this lectin in human erythrocytes. Properties such as positive cooperativity thus appear to be a common feature of the interaction of Band 3 with a variety of lectins of different specificity, both in erythrocytes and lipid bilayers.
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PMID:Interaction of human erythrocyte Band 3 with Ricinus communis agglutinin and other lectins. 397 96

Galectin-3 (Gal-3) is a beta-galactoside-binding protein with M(r) approximately 30,000. Cell surface Gal-3 is postulated to be involved in homotypic aggregation of tumor cells in the circulation during metastasis through attachment to a complementary serum glycoprotein(s), which serves as a cross-linking bridge between adjacent cells. To test this hypothesis a recombinant strain of baculovirus encoding Gal-3 was used to infect Sf9 insect cells, which lack endogenous Gal-3. Immunoblotting and indirect immunofluorescence studies revealed that the infection with recombinant virus conferred Gal-3 expression on Sf9 cells, and the Gal-3 was localized on the cell surface as well as in the cytoplasm. Sf9 cells infected with recombinant virus underwent homotypic aggregation in the presence of exogenous glycoprotein (i.e., asialofetuin), whereas control cells uninfected or infected with wild-type virus did not. Lactose and Fab' fragments of anti-Gal-3 antibodies markedly inhibited the cell-cell aggregation. Moreover, cosuspension of Sf9 cells infected with the recombinant virus with uninfected cells in the presence of asialofetuin resulted in a preferential cell-cell adhesion of the Gal-3-expressing cells. These results directly demonstrate the ability of cell surface Gal-3 molecules to mediate homotypic cell adhesion by bridging through branched, soluble complementary glycoconjugates.
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PMID:Functional evidence that cell surface galectin-3 mediates homotypic cell adhesion. 754 67

We have isolated mutants in the fission yeast Schizosaccharomyces pombe that are defective in protein glycosylation. A collection of osmotically sensitive mutants was prepared and screened for glycosylation defects using lectin staining as an assay. Mutants singly defective in four glycoprotein synthesis genes (gps1-4) were isolated, all of which bind less galactose-specific lectin. Acid phosphatase and other glycoproteins from the gps mutants have increased electrophoretic mobility, suggesting that these mutants make glycans of reduced size. N-linked glycan analysis revealed that terminal oligosaccharide modification is defective in the gps1 and gps2 mutants. Both mutants synthesize the Man9GlcNAc2 core glycan but have reduced amounts of larger structures. Modified core glycans from gps1 cells have normal amounts of galactose (Gal) residues, but reduced amounts of Man, consistent with a defect in a Golgi mannosyltransferase in this mutant. In contrast, N-linked oligosaccharides from gps2 mutants have much less Gal than wild type, because of reduced levels of the Gal donor, UDP-Gal. This reduction is caused by decreased activity of UDP-glucose 4-epimerase, which synthesizes UDP-Gal. Neither the gps1 or gps2 mutations are lethal, although the cells grow at reduced rates. These findings suggest that S. pombe cells can survive with incompletely glycosylated cell wall glycoproteins. In particular, these results suggest that Gal, which comprises approximately 30% by weight of cell wall glycoprotein glycans, is not crucial for cell growth or survival.
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PMID:Isolation of protein glycosylation mutants in the fission yeast Schizosaccharomyces pombe. 766 20

A family of soluble animal lectins, galectins, with beta-galactoside-binding activity, is gaining increased attention. One member of this family, galectin-3, has been previously designated by this group as epsilon bp, for its IgE-binding activity. On the basis of the saccharide specificity and other biochemical characteristics of epsilon bp, it is possible that this lectin could have an important extracellular modulatory role, functioning through recognition of critical cell surface glycoproteins on many cell types. We present evidence here that recombinant human epsilon bp activates human neutrophils in a dose-dependent manner as demonstrated by superoxide production. The observed activity is dependent on the lectin property of epsilon bp intrinsic to its carboxyl-terminal domain, as it could be inhibited effectively by lactose, a known saccharide ligand of epsilon bp. However, the amino-terminal domain is also necessary for the observed activity, as epsilon bp-C (the carboxyl-terminal domain fragment) is devoid of neutrophil-activating activity, even though it retains the carbohydrate-binding property. Affinity purification of lysates from cell surface-radio-iodinated neutrophils revealed two major protein bands of M(r) 115,000 and M(r) 180,000 that are recognized by epsilon bp and preliminary data suggested that one of these proteins is NCA-160, a human carcinoembryonic Ag-related glycoprotein. This study thus lends further support to our view of an extracellular function for epsilon bp and suggests that this protein has an important role in inflammation and host defense through modulating the function of neutrophils.
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PMID:A human lectin, galectin-3 (epsilon bp/Mac-2), stimulates superoxide production by neutrophils. 789 28

Tumor invasion of host tissues and trophoblastic penetration of the endometrium share common biological features. Both processes involve the invasion of basement membranes, an event that is initiated by adhesion of cancer or trophoblast cells to basement membrane components and particularly to laminin. Adhesion to this latter glycoprotein is mediated through a variety of cell surface receptors. We have previously shown that the 67 kD Laminin Receptor (67LR) and a 31 kD Human Laminin Binding Protein, recently renamed galectin-3, are inversely modulated as the invasive phenotype of cancer cells progresses, with up regulation of the former, and down regulation of the latter, respectively. In this study, we examined the expression of these two proteins in 27 human trophoblastic specimens at different gestational ages using Northern and Western blot techniques. Expression of the 67LR increased from 7 weeks to a maximum at 12 weeks, when invasion is maximal, and then decreased. Expression of galectin-3 was inversely modulated by the gestational age, with a minimum expression at 12 weeks. Our data demonstrate that invasive trophoblast displays the same pattern of laminin binding proteins expression than invasive cancer cells, and further demonstrates that invasion of the extracellular matrix by trophoblast and cancer cells share common molecular mechanisms.
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PMID:Inverse expression of two laminin binding proteins, 67LR and galectin-3, correlates with the invasive phenotype of trophoblastic tissue. 819

The carbohydrate binding specificity of recombinant carbohydrate-binding protein 35 (rCBP35) has been investigated by quantitative precipitation using a series of glycoproteins and carbohydrate-protein conjugates and by inhibition of precipitation using well defined carbohydrate haptens. Synthetic glycoconjugates and glycoproteins containing terminal nonreducing galactosyl units in beta-linkage were capable of forming a precipitate with rCBP35. If the glycoprotein or glycoconjugate contained terminal Neu5Ac, or galactose in alpha-linkage, precipitate formation was not observed. We also found that murine laminin, which contains polylactosamine structures, reacted more strongly than did bovine fetuin. Using carbohydrate-bovine serum albumin (BSA) glycoconjugates, we found that the tetrasaccharide Gal beta 1, 4GlcNAc beta 1, 3Gal beta 1,4-GlcNAc-BSA reacted more strongly than the disaccharide Gal beta 1, 4GlcNAc-BSA conjugate, suggesting that the binding site accommodates carbohydrate ligands greater in size than a disaccharide. Equilibrium dialysis experiments using [3H]lactose showed that rCBP35 binds 1 mol (n = 0.84) of lactose/30,000 g atoms of protein, with an affinity constant of 2.07 x 10(4) M-1. The binding site on the polypeptide appears to contain four subsites that recognize the sequence Gal beta 1,4GlcNAc beta 1, Gal beta 1,X-. All disaccharides tested that contain a nonreducing beta-galactosyl unit behaved as inhibitors of precipitation at approximately the same concentration, suggesting that the reducing position of the tetrasaccharide does not play an important role in the specific binding to the fourth subsite. The reducing sugar may serve to hold the saccharide in a tunnel like binding pocket since methyl-beta-D-galactoside itself is an extremely poor inhibitor.
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PMID:Carbohydrate-binding protein 35. II. Analysis of the interaction of the recombinant polypeptide with saccharides. 832 71

IgE-binding protein (epsilon BP) was originally identified in rat basophilic leukemia (RBL) cells by virtue of its affinity for IgE. epsilon BP is now known to be a beta-galactoside-binding lectin containing an S-type carbohydrate recognition domain. It is identical to a macrophage surface antigen, Mac-2, and lectins designated as CBP35, L-34, and RL-29, for which various functions have been suggested. Studies from other groups as well as ours have indicated that epsilon BP is secreted by cells such as macrophages and is present in extracellular fluids. We demonstrated previously that binding sites for epsilon BP are present on the surface of RBL cells. In this report, we show that epsilon BP binds to a small number of glycoprotein species on the surface of RBL cells. Significantly, one of these glycoproteins is the high-affinity IgE receptor (Fc epsilon RI). Preliminary studies showed that epsilon BP causes mediator release from RBL cells, possibly through cross-linking of Fc epsilon RI. The results suggest a function of epsilon BP as an activator of mast cells.
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PMID:Epsilon BP, a beta-galactoside-binding animal lectin, recognizes IgE receptor (Fc epsilon RI) and activates mast cells. 834 74

Mature macrophages (M phi) differ from other rat leukocytes by their ability to bind soybean agglutinin (SBA). In this study we identify the SBA-binding structure on rat bone marrow-derived M phi (BMDM phi). Precipitation of iodinated membrane proteins from rat bone marrow cells (BMC) and BMDM phi with SBA revealed a major glycoprotein of Mr 160 kDa on BMDM phi but not on BMC. In addition minor bands migrating at 70 and 26 kDa were seen. Stimulation of BMDM phi with 100 nM SBA induced a decrease in surface density of Thy1.1 (MRC OX7) and His54 and an increase in the expression of MRC OX6 (RT1.B/I-A), MRC OX17 (RT1.D/I-E), MRC OX41 (gp 110/120), MRC OX42 (CD11b/c), Macl (CD11b/CR3) and Mac2 (galectin-3/IgE binding protein) antigen. Expression of other M phi differentiation antigens recognized by mAb MRC OX43 (M phi, endothelial cells) and ED9 (M phi/CD14 like) were not significantly altered. BMDM phi derived from cultures with M phi colony-stimulating factor (M-CSF) and SBA showed increased oxidative burst and phagocytic activity compared to cells cultured with M-CSF alone. Our data suggest that binding of a 160-kDa membrane glycoprotein on M phi by N-acetylgalactosamine-specific lectins stimulates M phi differentiation and activation.
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PMID:Soybean agglutinin binds a 160-kDa rat macrophage membrane glycoprotein and enhances cell differentiation and activation. 887 19

Tenascin is a large extracellular matrix glycoprotein which is found in limited regions of normal adult tissues including the skin. We investigated the induction of tenascin expression in mouse skin during hapten-induced dermatitis. In the dorsal skin, hapten application first induced a transient expression of tenascin in deeper regions of the skin. Its distribution then spread over the whole dermis corresponding to the infiltration of Mac-2-positive macrophages. In the ear, tenascin was consistently found in the subcutaneous tissue on the inner side, but very little was seen on the outer side. Tenascin did appear transiently, however, on both sides under hapten treatment. In the early phase of allergic contact dermatitis, no apparent induction of tenascin expression was observed in the swollen ear. However, there was an abundant tenascin expression on both sides during healing. Tenascin expressed under normal conditions was mostly the 180-kDa isoform, while the 230-kDa isoform was markedly induced during healing of the dermatitis. These results suggest that tenascin, particularly the larger 230-kDa isoform, may play important roles in the pathogenesis and healing of hapten-induced dermatitis.
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PMID:Differential expression of tenascin in the skin during hapten-induced dermatitis. 889 67


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