Inhibition of embryonic neural retina cell-substratum adhesion with a monoclonal antibody

The C1H3 monoclonal antibody recognizes two distinct developmentally regulated cell surface antigens, with molecular masses of 170,000 and 140,000 daltons, in embryonic chick neural retina (Cole, G. J., and Glaser, L. (1984) Proc. Natl. Acad. Sci. U. S. A., in press). In vitro, the 170,000-dalton polypeptide is released by retinal cells into the surrounding culture medium and is present in material sedimentable at 100,000 X g. This pelletable material contains particles designated as adherons (Schubert, D., LaCorbiere, M., Klier, F. G., and Birdwell, G. (1983) J. Cell Biol. 96, 990-998) which promote cell-substratum adhesion of chick neural retina cells. In the present study, evidence is provided that the C1H3 monoclonal antibody inhibits cell adhesion to adheron-coated dishes when bound either to cells or to the adherons. The failure of other monoclonal antibodies, that bind to retinal cells with equal abundance, to disrupt adhesion demonstrates that the effect is specific. These data suggest that the neural-specific 170,000-dalton C1H3 polypeptide is the neural cell-adhesion molecule which is responsible for the ability of adherons to bind to cells.     

An anti-carbohydrate monoclonal antibody inhibits cell-substratum adhesion of F9 embryonal carcinoma cells

A monoclonal rat IgM antibody (4C9) raised against F9 embryonal carcinoma cells reacted with fucosyl residues in poly-N-acetyllactosamine-type large carbohydrates of these cells (embryoglycan). The chemical properties and distribution of the antigen resembled those of SSEA-1. The monoclonal antibody was found to inhibit cell-substratum adhesion of F9 cells: in the presence of the antibody, cells grew as spherical cell aggregates on plastic dishes. When the antibody was added to the already spread cells, they displayed the initial sign of rounding up within 3 h; the rounding process was largely completed within 6 h. After removal of the antibody, cells resumed their normal morphology. The antibody could act in the presence of 2,4-dinitrophenol. In serum-free medium, F9 cells spread on plastic dishes coated with fibronectin or with laminin, and the process was also inhibited by the antibody. Immuno-electronmicroscopy revealed that 4C9 antigen was diffusely distributed over the cell surface of F9 cells. The distribution of the antigen was not altered generally after culturing with the antibody for 6 h. Another monoclonal rat IgM antibody, which did not react with embryoglycan and resembled anti-Forssman, did not inhibit cell-substratum adhesion of F9 cells, in spite of its reactivity to the cells. Thus, a glycoprotein with fucosyl (poly)-N-acetyllactosamine structure appears to be involved in cell-substratum adhesion of F9 cells.     

Visualization of cell-substratum adhesion plaques by antibody exclusion

We report on an antibody exclusion method for detecting cell adhesion plaques. Substrata coated by plasma fibronectin (pFN) appeared uniformly fluorescent when analyzed by indirect immunofluorescence using a specific anti-pFN antibody. When cells that had spread on the substrata were permeabilized and analyzed by indirect immunofluorescence, areas of non-fluorescence were apparent beneath the cells and in focal streaks along the cell margins. The nonfluorescent focal streaks were coincident with adhesion plaques visualized by interference reflection microscopy.     

Integral membrane antigens involved in cell-substratum adhesion of hepatocytes and hepatoma cells

Cell-substratum adhesion of rat hepatocytes was inhibited by antisera raised against purified plasma membranes of rat liver (anti-liver-antiserum) and Morris hepatoma 7777 (anti-hepatoma-antiserum). It is assumed that substances which block the adhesion-inhibiting activity of the antisera are involved in cell-substratum adhesion. Adhesion-involved molecules of rat liver monitored as 'blocking activity' were compared with those of Morris hepatoma 7777 and 9121. They were found to be integral membrane glycoproteins, which could be solubilized only by detergents. Fractionation of plasma membrane extracts by size exclusion HPLC revealed two blocking activity peaks representing molecules involved in the adhesion to plastic (P-AIM) and collagen (C-AIM). In rat liver both adhesion-involved molecules were found; yet P-AIM seemed to be the major type of adhesion-involved molecule. In the relatively well differentiated Morris hepatoma 9121 also both types were detected. In membrane extracts of the high malignant and poorly differentiated Morris hepatoma 7777, however, no P-AIM but only C-AIM were found. Estimation by size exclusion HPLC revealed molecular weights of 120 kD for C-AIM and approx. 105 kD for P-AIM. On SDS gel electrophoresis proteins in the region of 95 kD were found in C-AIM containing fractions, whereas proteins of 105 kD are likely candidates for P-AIM.     

The identification and characterization of collagen receptors involved in HeLa cell-substratum adhesion

Four proteins of molecular mass 102, 87, 45, and 38 kDa were isolated from plasma membrane preparations by affinity chromatography. The 102-, 87-, and 38-kDa proteins were shown to be collagen receptors involved in the adhesion of HeLa cells to a gelatin substratum. All four proteins were eluted by high salt from affinity columns made of either types I or IV collagen or type I gelatin. Generally, a total of six major proteins were found in the high salt eluates, although the relative amounts of each varied among experiments. Immunoprecipitation, immunoblotting, and limited peptide mapping indicated that the 102-kDa protein was most sensitive to proteolysis leading to the formation of proteins of molecular mass 58 and 54 kDa. Even in the presence of a mixture of protease inhibitors the 58-kDa fragment was usually the more abundant species. Lectin binding indicated that the 102-, 87-, and 38-kDa proteins contain carbohydrate. Phase-partitioning with Triton X-114 and the need to solubilize the proteins in Triton X-100 indicated that the 102-, 87-, 45-, and 38-kDa proteins have a hydrophobic domain. The 87-kDa protein partitioned exclusively with the detergent-rich phase, suggesting that it is the most hydrophobic. Cell surface labeling with 125I indicated that the four proteins have an extracellular domain. Four criteria were used to determine which of the four proteins are collagen receptors mediating cell-substrate adhesion: 1) during HeLa cell adhesion, proteins with Mr values similar to all four proteins or their peptide fragments were cross-linked to a gelatin substratum derivatized with a photoactivatable probe; 2) a pentapeptide containing the Arg-Gly-Asp cell recognition sequence eluted the same four proteins as those found by high salt elution of collagen affinity columns; 3) monospecific antibodies to the 102-, 87-, and 38-kDa proteins, but not the 45-kDa protein, inhibited the spreading of HeLa cells on a gelatin substratum; 4) monospecific antibodies to the 102-, 87-, and 38-kDa proteins, but not the 45-kDa protein, bound to culture dishes substituted for gelatin in mediating the spreading of HeLa cells. Taken together, the data suggest that the 102-, 87-, and 38-kDa proteins are collagen receptors involved in HeLa cell adhesion. Although the 45-kDa protein has two of the characteristics of a collagen receptor defined here, it does not fit the criteria for one involved in cell-substratum adhesion.     

A monoclonal anti-idiotypic antibody against a human monoclonal IgM with specificity for myelin-associated glycoprotein

A human monoclonal IgM lambda antibody, directed against MAG, obtained from a patient with polyneuropathy associated with a gammopathy, was used as an immunogen to generate mouse monoclonal anti-idiotype antibodies. One hybridoma antibody, designated A8F2, reacts uniquely with the M-IgM of the patient, shows high affinity binding to the patient's M-IgM, and dose-dependently inhibits binding of the patient's M-IgM to its specific antigen MAG. Thus, A8F2 is a monoclonal anti-idiotype antibody that recognizes a region of the MAG binding site of the patient's IgM. Use of this anti-idiotype antibody in a competition RIA revealed the presence of naturally occurring anti-idiotype in the patient's serum. Because anti-idiotype antibodies may be part of a mechanism for down-regulation of antibody production, the use of A8F2 to induce a specific immunosuppression should be considered.     

Characterization of a 140Kd cell surface glycoprotein involved in myoblast adhesion

Two monoclonal antibodies that cause changes in the morphology of cultured chick myogenic cells have been described previously [8]. In this paper, these antibodies are shown to interact with the same 140Kd protein. The 140Kd protein has been further characterized as a cell-surface glycoprotein by lactoperoxidase-catalyzed iodinations and lectin affinity chromatography. The protein is resistant to digestion by trypsin and collagenase and has been shown to be unrelated to fibronectin by immunoprecipitation studies and by peptide mapping. A second protein, of approximately 170Kd MW, is also immunoprecipitated by the monoclonal antibodies. This protein is probably unrelated to the 140Kd protein since the peptide maps are quite distinct.     

A monoclonal antibody recognizing a complex tubular structure in rainbow trout pillar cells

Pillar cells are important to maintain the structural integrity of the fish gills. This study describes a new monoclonal antibody (mab 25) which detects a complex tubular structure of rainbow trout Oncorhynchus mykiss gill pillar cells. This mab was selected and established after immunization of mice with density gradient separated trout mononuclear cells. In primary screening using a cell enzyme-linked immunoabsorbant assay (ELISA) the corresponding hybridoma supernatant reacted with viable and fixed trout leukocytes. In immunofluorescence analysis mab 25 showed a distinct reaction with a prominent snow chain like tubular structure in pillar cells. It consists of seven to 11 concave turned tubuli of about 5 μm length forming a circle of about 7 μm. Reactivity of mab 25 with fibrous structures was observed in cryostat sections of gill, pseudobranchia, spleen, striated muscle and heart muscle. mab 25 recognized a protein with a molecular weight of about 58 kDa as determined by radioimmunoprecipitation. This structure appears to be related to elements which have been described as membrane enclosed collagen columns by electronmicroscopic analysis and is reminiscent of patterns labelled with anti-human cytokeratin antibodies. mab 25 may be an important tool to study the impact of environmental and physiological conditions on the structural integrity of this complex structure in trout gill pillar cells.     

Characterization of a membrane-associated glycoprotein complex implicated in cell adhesion to fibronectin

We have characterized a 140-kDa glycoprotein complex purified by a monoclonal antibody and implicated in cell adhesion to the extracellular molecule fibronectin. Three major polypeptide components were purified by monoclonal antibody JG22E, which had apparent molecular weights of 155,000 (band 1), 135,000 (band 2), and 120,000 (band 3). In two-dimensional gel electrophoresis, each subunit migrated as either a broad band or a series of spots at acidic isoelectric points. After treatment with neuraminidase, the spots became focused around pH 6.2 (band 1), pH 5.6 (band 2), and pH 5.3 (band 3). These three major bands were compared by two-dimensional peptide mapping in a series of pairwise combinations and were found to be distinct proteins. In sucrose gradients, these proteins co-migrated as a complex sedimenting at approximately 8.4 S either before or after affinity purification, whereas separated subunits migrated at 4.7 to 5.8 S. Amino acid analysis revealed no detectable hydroxyproline and a composition characterized by a substantial number of cysteine residues compared to the average protein. Our results suggest that a noncovalent complex of structurally distinct glycoproteins is involved in adhesive interactions of fibronectin with cells.     

A monoclonal antibody disrupting cell-cell adhesion of rat ascites hepatoma cells

A cell surface-associated adhesive factor (AF) separated from differentiated rat ascites hepatoma AH136B cells (forming cell islands in vivo) has been highly purified by chromatography. AF is assumed to mediate the cell-cell adhesion essential to island formation of the hepatoma cells. A substance, immunologically crossreactive with AF, is present in the ascites fluid or culture medium of the AH136B cells. Because the substance is almost identical to AF in molecular weight and aggregation-promoting activity, it has been concluded that AF is released into the ascites fluid where it is concentrated. Monoclonal antibodies have been raised against AF purified from ascites fluid of AH136B cells. We have obtained a monoclonal antibody, coded MoAF-6D6, that strongly abolishes the aggregation-promoting activity of AF. When AH136B cell islands are incubated in the presence of Fab fragments of MoAF-6D6, cell detachment from the islands is evident within 24 h. Cell islands following 36-h culture show a distinct dissociation and islands completely lose their organization 48 h after culture. The dissociating effect of MoAF-6D6 is neutralized by the addition of AF. These results suggest that AF plays a significant role in the maintenance of cell islands.     

A monoclonal antibody that blocks adhesion of Chlamydomonas mt+ gametes

During the mating reaction (fertilization) in the biflagellated alga, Chlamydomonas reinhardtii, mt+ and mt- gametes adhere to each other via their flagella and subsequently fuse to form quadriflagellated zygotes. In the studies reported here, we describe a monoclonal antibody directed against an mt+ flagellar surface molecule. The antibody blocks the adhesiveness of mt+ gametes, isolated mt+ flagella, and detergent extracts thereof. It has no effect on mt- gametes. Cyanogen bromide- activated Sepharose beads derivatized with the antibody bind only mt+ gametes; mt- gametes and mt+ and mt- vegetative cells are unreactive with the derivatized beads. The interaction of mt+ gametes with the beads is dynamic and cells continuously bind, detach, and rebind to the beads. Surprisingly, antibody-derivatized beads that have been incubated with mt+ gametes acquire the ability to bind mt- gametes. Moreover, extraction of the preincubated beads with detergents releases active mt+ adhesion molecules. The evidence suggests that binding of the antibody to the flagellar surface adhesion molecules causes their release from the flagellar surface, possibly mimicking the normal mechanism of flagellar de-adhesion.     

A monoclonal antibody identifies a 215 000-dalton nuclear envelope protein restricted to certain cell types

The monoclonal antibody, AGF2.3, was isolated from mice immunised with the human promyeloid cell line HL60. By immunofluorescence and immunoelectron microscopy the antibody was shown to bind to the nuclear envelope in uninduced HL60 cells. Immunofluorescent staining was reduced to very low levels in HL60 cells induced to mature to monocytes or neutrophils by addition of 12-0-tetradecanoylphorbol-13-acetate or dimethyl sulfoxide respectively. Blood neutrophils did not express the antigen. Weak immunofluorescent staining of cell nuclei was observed in peripheral blood lymphocytes and in sections of normal human kidney, tonsil and skin epithelium. The AGF2.3 antigen was strongly expressed on the nuclei of 21/21 haemopoietic cell lines and 21/25 permanent non-haemopoietic cell lines representing various cell types. In contrast, the antigen was not expressed by any of six primary (untransformed) cell cultures. These included fibroblasts, endothelial cells and keratinocytes. The antigen was expressed in the Q10 SV-40 transformed cell line derived from a non-expressing primary fibroblast culture. AGF2.3 antibody precipitated a protein with an apparent subunit molecular weight of approximately 215 kDa from Triton X-100 extracts of HL60 and HeLa cells labelled with 35S-methionine. This protein was not detectable in extracts of primary skin fibroblasts prepared in parallel. We conclude that AGF2.3 antibody recognises a previously undescribed protein associated with the nuclear envelope which is expressed at high levels in most transformed cell lines but which is weakly expressed or absent in normal tissues and primary cell cultures.     

Role of a major cell-substratum adhesion system in cell behavior and morphogenesis

Fibronectins are multifunctional glycoproteins involved in the embryogenesis and in multiple physiological processes. Most of their functions derive from interactions of these glycoproteins with the cell surface. Fibronectin and their cell surface receptor constitute the major cell-substratum adhesion that plays a key role in cell adhesion, cell spreading and cell motility, particularly during embryonic development. Additionally, other functions of fibronectins are due to their ability to ban a great variety of macromolecules contained in an extracellular matrix and in plasma. In particular, the interaction of fibronectins with the cell surface, collagen, fibrin and fibrinogen are involved in physiological processes such as hemostasis, wound healing and phagocytosis.     

Identification and characterization of a novel antigen complex on mouse mammary tumor cells using a monoclonal antibody against platelet glycoprotein Ic

The rat monoclonal antibody GoH3 identifies a complex of glycoproteins Ic and IIa on human and mouse platelets. The GoH3 epitope is located on glycoprotein Ic. A novel glycoprotein complex is identified by GoH3 on the surface membranes of mouse mammary epithelial tumor cells. This antigen complex is composed of glycoprotein Ic noncovalently associated with a monomor or a disulfide-linked multimer of a high molecular weight glycoprotein (Ic-binding protein (IcBP]. Glycoprotein Ic is synthesized as a large precursor with asparagine N-linked high mannose oligosaccharides. Processing of this precursor involves a proteolytic cleavage of the large polypeptides into two smaller disulfide-linked polypeptide chains, Ic alpha (heavy) and Ic beta (light), and conversion of the majority of the high mannose oligosaccharides into complex-type glycans. Likewise, glycoprotein IcBP is initially glycosylated with high mannose asparagine N-linked oligosaccharides which are processed to complex units in the mature form. Association of glycoprotein Ic with IcBP occurs within the cell soon after their synthesis. The kinetics of labeling show non-coordinate processing consistent with the idea that the concentration of glycoprotein Ic limits complex formation and the subsequent processing of glycoprotein IcBP.     

Alterations in neural crest migration by a monoclonal antibody that affects cell adhesion

The possible role of a 140-kD cell surface complex in neural crest adhesion and migration was examined using a monoclonal antibody JG22, first described by Greve and Gottlieb (1982, J. Cell. Biochem. 18:221-229). The addition of JG22 to neural crest cells in vitro caused a rapid change in morphology of cells plated on either fibronectin or laminin substrates. The cells became round and phase bright, often detaching from the dish or forming aggregates of rounded cells. Other tissues such as somites, notochords, and neural tubes were unaffected by the antibody in vitro even though the JG22 antigen is detectable in embryonic tissue sections on the surface of the myotome, neural tube, and notochord. The effects of the JG22 on neural crest migration in vivo were examined by a new perturbation approach in which both the antibody and the hybridoma cells were microinjected onto neural crest pathways. Hybridoma cells were labeled with a fluorescent cell marker that is nondeleterious and that is preserved after fixation and tissue sectioning. The JG22 antibody and hybridoma cells caused a marked reduction in cranial neural crest migration, a build-up of neural crest cells within the lumen of the neural tube, and some migration along aberrant pathways. Neural crest migration in the trunk was affected to a much lesser extent. In both cranial and trunk regions, a cell free zone of one or more cell diameters was generally observed between neural crest cells and the JG22 hybridoma cells. Two other monoclonal antibodies, 1-B and 1-N, were used as controls. Both 1-B and 1-N bind to bands of the 140-kD complex precipitated by JG22. Neither control antibody affected neural crest adhesion in vitro or neural crest migration in situ. This suggests that the observed alterations in neural crest migration are due to a functional block of the 140-kD complex.     

A monoclonal antibody which blocks infection with feline immunodeficiency virus identifies a possible non-CD4 receptor.

Monoclonal antibody vpg15 detects a 24-kDa cell surface protein on feline cells permissive for infection with feline immunodeficiency virus (FIV). The antibody blocks infection of FIV-susceptible cells, and expression of the vpg15 marker is decreased in FIV-infected cells in vitro. These results suggest that the antibody may recognize an FIV receptor distinct from CD4.     

Interaction of AP-2, a monoclonal antibody specific for the human platelet glycoprotein IIb-IIIa complex, with intact platelets

A murine monoclonal antibody, designated AP-2, reacts specifically with the complex formed by human platelet membrane glycoproteins IIb and IIIa, but does not react at all with the individual glycoproteins. Purified AP-2 covalently coupled to Sepharose CL4B was used as an immunoadsorbent column to purify the IIb-IIIa complex from a preparation of Triton X-100-solubilized human platelet proteins. Radioiodinated AP-2 was shown to bind to a single class of sites, with 57,400 +/- 9,700 molecules bound per cell (mean +/- S.D.) at saturation and a dissociation constant (Kd) of 0.64 +/- 0.15 nM (mean +/- S.D.). Binding could not be readily reversed even after a 1-h incubation with a 100-fold excess of cold antibody. AP-2 inhibits ADP-induced binding of radiolabeled fibrinogen to gel-filtered platelets in a noncompetitive fashion, consistent with the previous observation that AP-2 also inhibits the aggregation of platelets in plasma induced by a number of physiologic agonists, including adenosine diphosphate, epinephrine, collagen, thrombin, and arachidonic acid. Using AP-2, we have obtained evidence that the IIb-IIIa complex exists in the membrane of intact nonstimulated platelets and that complex integrity is not affected by external calcium ion concentration.