Monoclonal antibodies against Dictyostelium plasma membranes: Their binding to simple sugars (original) (raw)
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Experimental Cell Research, 1989
Using a water-soluble, reversible biotinylating reagent, we retrieved three surfaceexposed proteins from a complex mixture of crude membrane proteins. The compound, sulfosuccinimidyl2-(biotinamido)ethyl-1-3'-dithiopropionate (sulfa-NHS-SS-biotin), which has a cleavable disultide bond, was used to label Dictyostelium discoideum amebae. Cells were lysed and a crude membrane preparation was isolated and solubilized with Ttiton X-100. Biotinylated molecules were bound to immobilized streptavidin and then eluted from the affiity matrix with dithiothreitol. Analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that out of the original complex mixture of detergent-solubilized membrane proteins, three major species at 130, 100, and 77 kDa were specifically bound and eluted with thiol reagents. These three proteins were glycoproteins (gp) since they bound concanavalin A. As demonstrated by one-dimensional peptide mapping, the retrieved gp130 and gplO0 also were present in specialized plasma membrane subdomains called contact regions which are regions of cell-cell cohesion isolated from aggregated, developed amebae. This finding provides preliminary evidence that the two proteins may be involved in cell-cell interactions during both the vegetative and aggregation stages of the D. discoideum life cycle. The retrieved gp130 species has a relative mobility on SDS-gels similar to that of gp126, a surface-exposed glycoprotein. gp126 has been suggested to play roles both as a phagocytosis receptor and as a cohesion molecule (C. M. Chadwick, J. E. Ellison, and D. R. Garrod, (1984) Nature (London) 307,646). To test ifthe retrieved gp130 was the same as gp126, a polyclonal antiserum was raised against gelpurified, endoglycosidase F-treated gp130. The immune serum recognized epitopes, apparently carbohydrates, present on many D. discoideum membrane proteins. Univalent IgG fragments from this antiserum inhibited phagocytosis, suggesting that anti-carbohydrate activity was responsible for the functional inhibition of phagocytosis. 0 1989 Academic press, Inc.
FEBS Letters, 1994
A monoclonal antibody that interferes with the EDTA-resistant adhesion of Dictyostelium discoideum slug cells recognised a carbohydrate epitope on four major antigens (95, 90, 35 and 30 kDa) in slug cells. The 35 and 30 kDa antigens were specific for stalks and spores, respectively. The 30 kDa antigen was identified as the cell surface glycoprotein, PsA. Cyclic AMP, acting via cell surface receptors, induced only the 90 kDa slug cell antigen. Slug cell adhesion proteins may be involved in cell-sorting and the glycosylation of the 95 and 90 kDa antigens appeared to be abnormal m a mutant defective in cell-sorting. Previously, a 150 kDa glycoprotein has been strongly implicated in slug cell adhesion and the present work suggests that additional glycoprotein(s) are involved.
Cell differentiation, 1982
Monoclonal antibodies against a glycoprotein presumably involved in adhesion of aggregating Dictyostelium discoideum cells have been used for labeling of the antigen at the cell surface. The antigen is distributed over the whole surface of the cells, apparently in form of small clusters. The antigen appears concomitantly with the acquisition of EDTA-stable adhesiveness typical of aggregation competent cells. In contrast, discoidin I, a lectin whose accumulation during development parallels EDTA-stable adhesiveness in another strain (NC-4), is present in nearly the same amounts of growth phase and aggregating cells of AX2-214, the strain used by use. Thus, no correlation exists in this strain between the expression of discoidin I and the development of cell adhesiveness. The 80 kilodalton glycoprotein typical of aggregation competent cells has been purified by affinity chromatography on a monoclonal antibody column. The purified antigen absorbs adhesion-blocking Fab from rabbits. Ano...
The EMBO journal, 1983
Proteins can be extracted from the slime sheath of Dictyostelium discoideum slugs by denaturing agents. A subset of these proteins is also released by cellulase digestion of the sheath, implying that protein-protein and protein-cellulose interactions are involved in sheath protein retention. It seems probable that the cellulose-associated sheath proteins are also associated with the cellulose of mature stalk cells. Monoclonal antibodies directed against sheath demonstrate extensive sharing of antigenic determinants between sheath proteins and a limited degree of antigenic sharing between sheath and slug cell proteins. All of the proteins recognised by these monoclonal antibodies are developmentally regulated. These results are discussed in terms of the structure of the sheath and its possible role(s) in D. discoideum development.
The Journal of biological chemistry, 1987
Two different types of oligosaccharides, designated type 1 and 2 carbohydrate residues, are present on the contact site A molecule, an 80-kDa glycoprotein involved in the formation of EDTA-stable cell adhesion during cell aggregation in Dictyostelium discoideum. The first precursor detected by pulse-chase labeling with [35S]methionine was a 68-kDa glycoprotein carrying type 1 carbohydrate. Conversion of the precursor into the 80-kDa form occurred simultaneously with the addition of type 2 carbohydrate. Tunicamycin inhibited type 1 glycosylation more efficiently than type 2 glycosylation. The first precursor detected in tunicamycin-treated cells by pulse-chase labeling was a 53-kDa protein lacking both carbohydrates, which was converted through addition of type 2 carbohydrate into a 66-kDa final product. Labeling of intact cells indicated that this 66-kDa glycoprotein is transported to the cell surface. Prolonged treatment with tunicamycin resulted in the accumulation within the cell...
The EMBO journal, 1987
The functions of type 1 and 2 carbohydrates of the contact site A (csA) glycoprotein of Dictyostelium discoideum have been investigated using mutants lacking type 2 carbohydrate. In two mutant strains, HG220 and HG701, a 68-kd glycoprotein was synthesized as the final product of csA biosynthesis. This glycoprotein accumulated to a much lower extent on the surfaces of mutant cells than the mature 80-kd glycoprotein did in wild-type cells. There was also no accumulation of the 68-kd glycoprotein observed within the mutant cells nor was a precursor of lower molecular mass detected, in accordance with previous findings that indicated cotranslational linkage of type 1 carbohydrate by N-glycosylation. Pulse-chase labelling showed that a 50-kd glycopeptide was cleaved off from the mutant 68-kd glycoprotein and released into the medium, while the fully glycosylated 80-kd glycoprotein of the wild type was stable. These results assign a function to type 2 carbohydrate in protecting the cell-s...