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: UMLS:C0025202 (melanoma)
69,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The carbohydrate moieties present on laminin play a crucial role in the multiple biological activities of this basement membrane glycoprotein. We report the identification of a human laminin binding protein with an apparent molecular mass of 14 kDa on sodium dodecyl sulfate-polyacrylamide gels that was found, after purification and amino acid microsequencing, to be identical to the previously described 14-kDa galactoside binding soluble L-14 lectin. We have designated this human laminin binding protein as HLBP14. HLBP14 was purified from human melanoma cells in culture by laminin affinity chromatography and gel electroelution. We demonstrate that HLBP14 binds specifically to the poly-N-acetyllactosamine residues of murine laminin and does not bind to other glycoproteins that do not contain such structures, such as fibronectin. HLBP14 was eluted from a murine laminin column by lactose, N-acetyllactosamine, and galactose but not by other control saccharides, including glucose, fucose, mannose, and melibiose. It did not bind to laminin treated with endo-beta-galactosidase. Lactose also eluted HLBP14 off a human laminin affinity column, implying that human laminin also contains poly-N-acetyllactosamine residues. On immunoblots, polyclonal antibodies raised against HLBP14 recognized HLBP14 as well as 31- and 67-kDa molecules that are also laminin binding proteins, indicating that these proteins share common epitopes. L-14, a dimeric lactose binding lectin, is expressed in a wide variety of tissues. Although the expression of this molecule has been linked to a variety of biological events, the elucidation of its specific functions has been elusive. The observation that HLBP14, a human cancer cell laminin binding protein, is identical to L-14 strongly suggests that the functions attributed to this lectin could be mediated, at least in part, through its ability to interact with the poly-N-acetyllactosamine residues of laminin. HLBP14 could potentially play a role during tumor invasion and metastasis by modulating the interactions between cancer cells and laminin.
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PMID:Identification of a 14-kDa laminin binding protein (HLBP14) in human melanoma cells that is identical to the 14-kDa galactoside binding lectin. 138 13

Initial adhesion of B16 melanoma variants to non-activated endothelial cells is mediated through specific interaction between GM3 (NeuAc alpha 2----3Gal beta 1----4Glc beta 1----Cer) expressed on melanoma cells and lactosylceramide (LacCer, Gal beta 1----4Glc beta 1----Cer) expressed on endothelial cells. This adhesion is predominant over integrin- or lectin-mediated adhesion in a dynamic flow experimental system employing a parallel plate laminar flow chamber (Lawrence, M. B., Smith, C. W., Eskin, S. G., and McIntire, L. V. (1990) Blood 75, 227-237). In this system, a tumor cell suspension flows over a glass plate coated with glycosphingolipid, lectin, or fibronectin, and adhesion is recorded on videotape. These conditions were designed to mimic the microvascular environment in which tumor metastatic deposition takes place. In contrast, lectin- and fibronectin-based mechanisms are predominant in previously used static adhesion systems. Under static conditions, the relative degree of adhesion of the four B16 variants to endothelial cells or to LacCer-coated plates was the same as their relative degree of GM3 expression (i.e. BL6 approximately F10 greater than F1 greater than WA4), and adhesion was inhibited in the presence of methyl-beta-lactoside, or liposomes containing LacCer or GM3. Adhesion was also inhibited by pretreatment of B16 cells with anti-GM3 antibody DH2 or sialidase and by pretreatment of endothelial cells with anti-LacCer antibody T5A7. Under dynamic flow conditions, WA4 cells did not adhere to mouse endothelial cells at high shear stress (greater than 2.5 dynes/cm2) but did adhere at lower shear stress. In contrast, BL6 and F10 cells adhered strongly at both low and high shear stress. BL6 cell adhesion to endothelial cells at both low and high shear stress was inhibited in the presence of antibody DH2, ethyl-beta-lactoside, or lactose, as well as by pretreatment of BL6 cells with sialidase. Thus, some clear differences, as well as similarities, in cell adhesion under static versus dynamic conditions are demonstrated. These findings suggest that melanoma cell adhesion to endothelial cells, based on GM3/LacCer interaction, initiates metastatic deposition, which may trigger a series of "cascade" reactions leading to activation of endothelial cells and expression of Ig family or selectin receptors, thereby promoting adhesion and migration of tumor cells.
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PMID:Cell adhesion in a dynamic flow system as compared to static system. Glycosphingolipid-glycosphingolipid interaction in the dynamic system predominates over lectin- or integrin-based mechanisms in adhesion of B16 melanoma cells to non-activated endothelial cells. 151 64

CD53 is a human cell-surface Ag expressed exclusively by nucleated cells of hemopoietic origin. In this work a cDNA clone encoding the CD53 Ag was isolated from a COS cell-expression library. The sequence of the cDNA predicts a protein of 219 residues bearing four putative membrane-spanning hydrophobic domains. Sequence analysis shows that CD53 is related to three other recently described molecules: a melanoma Ag, ME491; a B cell Ag, CD37; and the broadly distributed hemopoietic cell Ag S5.7. Comparison of NH2-terminal protein sequence of OX44 rat Ag and CD53 suggest that CD53 is the human homologue of OX44. In addition, CD53 is distantly related to Escherichia coli lac Y permease, a type III integral membrane protein that ferries lactose into the bacterial cell. CD53 transcripts increase in prevalence after mitogenic stimulation, suggesting that the protein may be involved in the transport of factors essential for cell proliferation.
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PMID:Identification and analysis of cDNA clones encoding CD53. A pan-leukocyte antigen related to membrane transport proteins. 225 20

Because its expression appears to be largely restricted to human melanomas, 9-O-acetyl-GD3 is a candidate antigen for vaccine construction. Searching for potential sources, we compared chemically O-acetylated calf brain GD3 and 9-O-acetyl-GD3 extracted from bovine buttermilk with 9-O-acetyl-GD3 from human melanoma. Three fractions (F1-F3) of chemically O-acetylated GD3 differed in the number and position of O-acetyl groups. O-Acetylation sites were the lactose portion in F1 and lactose as well as sialic acid in F2 and F3. Natural (melanoma- or buttermilk-derived) 9-O-acetyl-GD3 was O-acetylated solely on the sialic acid moiety. While F1 was not reactive with monoclonal antibodies against 9-O-acetyl-GD3, F2 and F3 were as reactive as the natural products. Immunization with the natural products induced high-titer antibodies against natural 9-O-acetyl-GD3 as well as F2 and F3. In contrast, mice immunized with the synthetic fractions produced antibodies only against the immunogen but not against natural 9-O-acetyl-GD3. Only immunization with the natural products induced production of antibodies reactive with surface antigens of melanoma cells expressing 9-O-acetyl-GD3. The findings suggest (a) that C-9 of the subterminal sialic acid is the site of chemical O-acetylation in F2 and F3, as opposed to C-9 of the terminal sialic acid in the natural products; (b) that O-acetylation of both the terminal and subterminal sialic acid moieties of GD3 results in recognition by three murine monoclonal antibodies (D1.1, ME 311, and Jones) reactive with human melanoma cells; (c) that O-acetylation of the terminal sialic acid is critical, on the other hand, for inducing an immune response against melanoma 9-O-acetyl-GD3; and (d) that O-acetyl GD3 from bovine buttermilk can substitute as immunogen for inducing an immune response against human melanoma cell surface antigens in the mouse.
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PMID:Biochemical and serological characteristics of natural 9-O-acetyl GD3 from human melanoma and bovine buttermilk and chemically O-acetylated GD3. 230 5

Previously we have shown (Godal, A. et al., J. Natl. Cancer Inst., 77: 1247-1253, 1986) that the sensitivities of different melanoma cell lines to a conjugate of abrin with the anti-melanoma antibody 9.2.27 was correlated with their sensitivities to native abrin. To elucidate the underlying mechanism we have compared the binding and toxicity of the conjugate and of native abrin to two melanoma cell lines, FEMX and LOX, which differ in sensitivity to abrin. Abrin was linked by a disulfide bond to the monoclonal antibody 9.2.27, and the conjugate was purified by affinity chromatography to remove molecules with exposed galactose-binding sites on the toxin B-chain. Lactose had no effect on the binding of the immunotoxin (IT) to the cells but nevertheless reduced strongly the toxicity to the LOX cells. The differences in sensitivity to native abrin were much larger than the concurrent differences in binding. Lactose reduced the toxicity of abrin to a far greater extent than the associated reduction in binding to the cell surface. The toxicity of the immunotoxin to the FEMX cells could be prevented by pretreatment with excess 9.2.27 antibody, whereas the more abrin-sensitive LOX cells were protected only to a limited extent. Concurrent treatment of the LOX cells with antibody and lactose acted synergistically and afforded complete protection. It is suggested that the protective effect of lactose against the IT was exerted after internalization into vesicles of IT bound unspecifically to the cell surface and that the toxic moiety of the IT, the abrin A-chain, may be translocated from endocytotic vesicles to the cytosol by two alternative mechanisms, one mediated by the antibody and a second one facilitated by the B-chain and its lectin binding site. The relative significance of these mechanisms seems to differ in different target cell lines depending on their inherent sensitivities to native abrin which in turn largely reflects the ability of the cells to internalize and process surface-bound abrin.
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PMID:Studies on the mechanism of action of abrin-9.2.27 immunotoxin in human melanoma cell lines. 244 69

A simple and sensitive chromogenic microtitre plate assay for glycoprotein enzymes is described, using melanoma tissue plasminogen activator (t-PA) as a model enzyme. The assay is based on the binding of t-PA to immobilised lectin and quantitating the bound enzyme with plasminogen, fibrinogen fragments and chromogenic substrate S-2251 on an ELISA plate reader. Seven different lectins were examined for the binding of t-PA, and of these, concanavalin A was chosen for subsequent studies. The specificity of this binding can be inhibited dose-dependently in the presence of D-mannose and methyl alpha-D-mannoside, but not by D-glucose and D-lactose. The lower limit of the sensitivity of this assay is about 0.5 IU/ml. Comparison of the dose-response curves indicates that the sensitivity of this assay method is very similar to that of bioimmunoassay using anti-t-PA IgG to capture the antigen. The applicability of this method to other glycoprotein enzymes was also evaluated using alkaline phosphatase from bovine mucosa. The specificity of this method was related to the choice of substrate and this was shown by analysis of a mixture of t-PA and alkaline phosphatase. It is suggested that this assay can be adapted for the analysis of complex glycoprotein mixtures with the appropriate choice of lectin and substrate.
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PMID:Lectin affinity bioassay: an assay method for glycoprotein enzyme. 249 37

In view of the possible role of glycosphingolipids in defining the specificity of cell-cell interactions, the key molecules for recognition of cell surface glycosphingolipids have been studied. In addition to previously suggested recognition mechanisms involving endogenous lectins and glycosyltransferases, an alternative possibility, based on carbohydrate-carbohydrate (Lex-Lex) interaction, has been raised (Eggens, I., Fenderson, B., Toyokuni, T., Dean, B., Stroud, M., and Hakomori, S. (1989) J. Biol. Chem. 264, 9476-9484). We now report a highly specific interaction between gangliotriaosylceramide (Gg3, GalNAc beta 1----4Gal beta 1----4Glc beta 1----Cer) and sialosyllactosylceramide (GM3, NeuAc alpha 2----3Gal beta 1----4Glc beta 1----Cer). The interaction requires a bivalent cation (Ca2+ or Mg2+) and can be inhibited by sialosyl 2----3 lactose, anti-GM3 antibody (DH2), anti-Gg3 antibody (2D4), or EDTA. The strength of interaction between GM3 liposome and the Gg3-coated plastic surface was highly density-dependent. The mouse lymphoma L5178 AA12 cell line (high expressor of Gg3) interacted specifically with the mouse B16 melanoma cell line (high expressor of GM3). The interaction was inhibited by 5 mM sialosyllactose, anti-GM3 antibody, anti-Gg3 antibody, and EDTA in analogy to GM3-Gg3 interaction. L5178 AV27, a genetically related variant clone which does not express Gg3, showed no interaction with B16 cells. Untreated AA12 cells, but not 2D4-treated AA12 cells or AV27 cells, interacted with GM3 coated on the plastic surface. These findings suggest a specific interaction between AA12 cells and B16 cells based on Gg3-GM3 interaction.
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PMID:Specific interaction between gangliotriaosylceramide (Gg3) and sialosyllactosylceramide (GM3) as a basis for specific cellular recognition between lymphoma and melanoma cells. 258 11

To improve the applicability of immunotoxins (ITs), we have developed a new two-step indirect procedure. The target cells to be killed are first incubated with cell-specific mouse monoclonal antibodies (MAbs). After removal of excess unbound antibody, the cells are incubated in the presence of lactose with an indirect IT, a conjugate of whole abrin and sheep anti-mouse immunoglobulin (SAM) that binds only to cells having primary mouse MAbs on their surfaces. The SAM-abrin IT is affinity purified before use to remove molecules with exposed B-chain-binding sites; it was nontoxic in the absence of the specific mouse MAbs, demonstrating the specificity of the two-step method. We compared the indirect approach, using four different primary MAbs, with the conventional method, in which abrin is coupled directly to the mouse MAbs. In three human cell lines--the melanoma line FEMX, the Burkitt cell line Rael, and the leukemia cell line KM3--the cell kill, measured by a clonogenic assay, was consistently greater with the indirect than with the direct method. In the melanoma and Rael cells, the indirect method gave a higher cell kill than even native abrin. With a mixture of two different antibodies an additive effect was observed with the indirect but not with the direct method. The new approach greatly simplifies the therapeutic application in vitro of ITs, because it permits the use of different primary antibodies, singly or in mixtures, in conjunction with only one or a few general indirect ITs. In efforts to further improve the usefulness of the indirect method, other indirect ITs containing different toxin moieties are being examined. The possibility of employing the indirect principle in vivo is being explored.
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PMID:New indirect approach to the therapeutic use of immunotoxins. 325 65

The mechanism of action of an abrin 9.2.27 antimelanoma antibody conjugate has been studied in 2 human melanoma cell lines, FEMX and LOX, which differ in sensitivity to the immunotoxin (IT) and to native abrin. The IT, which had been affinity purified before use to remove molecules with exposed gal-binding sites on the toxin B-chain, inhibited cellular protein synthesis at a faster rate in the LOX than in the FEMX cells despite the fact that the LOX cells express less specific antigen and bind less IT to the cell surface. Surface-bound abrin-IT, as well as surface-bound specific antibody, disappeared at equal rates from the cell surface of the 2 cell lines. After binding of labelled IT the disappearance of total cell-associated radioactivity, as well as the appearance of TCA-precipitable and TCA-soluble radioactivity in the incubation medium, occurred at faster rates in the LOX than in the FEMX cells. No free abrin or antibody B-chain complex could be detected in the medium or inside the cells. The results indicate that the different sensitivities of the melanoma cell lines reflect different abilities to process endocytosed IT and to translocate the active A-chain to the cytosol. Experiments carried out in the presence of lactose are interpreted to mean that the A-chain may be translocated to the cytosol by two mechanisms, one involving antigen-antibody interaction and one involving the B-chain, and that the lectin binding site contributes to the B-chain-facilitated mechanism.
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PMID:Kinetics of uptake and degradation of an abrin immunotoxin by melanoma cells and studies of the rates of cellular intoxication. 326 91

Single-cell suspensions of several tumor cell lines, including five human melanomas (A375, SH4, Hs294, Hs852, and Hs939), a human cervical adenocarcinoma (HeLa-S3), a murine melanoma (B16-F1), and a murine fibrosarcoma (UV-2237P), undergo extensive homotypic aggregation in the presence of the glycoproteins fetuin and its desialated derivative, asialofetuin. This phenomenon was observed even at very low glycoprotein concentrations (less than 10 micrograms/ml). Fluorescent derivatives of fetuin and asialofetuin bind to the surface B16-F1 melanoma cells; this binding can be inhibited by lactose (0.1 M). Since the above results suggested the presence of a carbohydrate-binding component(s) on the tumor cells, we tested the possibility that the cells contain endogenous lectin(s). Extracts prepared from the neoplastic cell lines used in this study exhibited a potent capacity to agglutinate trypsin-treated, glutaraldehyde-fixed rabbit erythrocytes. This activity was abolished by treating the extracts with trypsin and could be inhibited by millimolar concentrations of lactose, whereas D-galactose, D-galactosamine, and N-acetyl-D-galactosamine were much less potent inhibitors. D-Mannose, L-fucose, and N-acetyl-D-glucosamine failed to inhibit hemagglutination at 0.2 M. These results demonstrate the presence of a galactoside-specific lectin in the tumor cells. The implications of the existence of a carbohydrate-binding protein(s) on the surface of malignant cells on their in vivo behavior, especially as it may relate to metastatic spread, are discussed.
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PMID:Lectin-like activities associated with human and murine neoplastic cells. 616 52


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