Chicken developmental antigens: analysis of erythroid populations with monoclonal antibodies

Fusions were performed between the mouse PAI myeloma cell line and spleen cells from Balb/c mice immunized with intact erythrocytes from 1-day Cornell K-strain White Leghorn chickens. Following single cell cloning, four hybridoma clones were found to secrete erythroid specific monoclonal antibodies. Based on its pattern of reactivity, the antibody (IgG2a, kappa) secreted by clone 10C6 detects a specific avian oncodevelopmental antigen associated with the hematopoietic system: chicken fetal antigen (CFA). Two other clones, designated as 3F12 and 4C2, produced antibodies (IgM, kappa) that recognize another avian developmental antigen: chicken adult antigen (CAA). A fourth clone, 9F9, produced an antibody (IgM, kappa) that reacts with all peripheral erythrocytes from both Japanese quail and chicken regardless of age. Clone 10C6 antibody apparently detects an erythrocyte specific (ES) determinant of CFA associated with determinant #8 while antibodies of clones 3F12 and 4C2 recognize a chicken specific determinant of CAA. Analysis by complement mediated microcytotoxicity indicated that the epitopes detected by 10C6 vs 3F12 and 4C2 antibodies were expressed on erythrocytes in a reciprocal fashion during development. Furthermore, strain variations in the incidence of erythrocytes carrying these epitopes were observed. The usefulness of these monoclonal antibodies for the study of erythroid populations is discussed.     

Chicken A blood groups system antigens: molecular characteristics and lack of expression on lymphocytes

The molecular structure of two antigens (A2 and A4) of the chicken A blood group system was determined by using an A4-specific monoclonal antibody (ISU-cA) and several alloantisera specific for chicken A blood group antigens. Molecules immunoprecipitated from erythrocytes were separated on sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) under either reducing or non-reducing conditions. Molecules of relative molecular weights 53.0 and 54.5 Kd were identified under reducing conditions for A2 and A4 antigens, respectively, and non-reduced molecules had a relative molecular weight of 44.5 Kd for both antigens. Two-dimensional electrophoresis showed a similar, single, diffuse band near pH 6.5 for each antigen. The data are consistent with a glycosylated molecule with one or more intrachain disulphide bonds. Allelic differences between A2 and A4 antigens seem to be due to an additional moiety on A4 antigen with a net neutral charge. Binding to chicken lymphocytes of antibody specific for A antigens was not detected by enzyme-linked immunosorbent assay (ELISA). Immunoprecipitations of radiolabelled peripheral blood lymphocyte-surface molecules using ISU-cA and A-specific alloantisera also did not detect A blood group antigens. Thus, chicken A blood group antigens are not indicated to be present on lymphocytes.     

Syngeneic monoclonal antimelanoma antibodies and their application for analysis of tumor antigens, gene cloning, and in vitro/in vivo diagnosis

In this article, we summarized syngeneic monoclonal antimelanoma antibodies and their application for chemical characterization of mouse melanoma antigens, cloning of genomic DNA controlling antigen expression, and in vivo/in vitro tumor diagnosis. The melanoma antigen is composed of a protein complex in association with GM3(NeuAc)-like sugar moiety. The GM3 structure expresses the cross-species epitopes shared in various mammalian species, whereas the mouse specific melanoma epitope is present on protein molecules. By using the monoclonal antimelanoma reactive with GM3 epitope, we developed a very sensitive sandwich radioimmunoassay system detecting soluble melanoma antigens equivalent to 10(2)-10(3) cells/ml. The antibody was also useful in imaging tumor in vivo. These results indicate that the antibody with cross-species reactivity has a potential for tumor targeting. The monoclonal antibody M562 recognizing protein molecule with species specific epitope but not other antimelanoma antibodies, however, effectively inhibited experimental lung metastasis of melanoma cells, indicating that the M562 epitope seems to possess important biological functions. Recently, the genomic DNA controlling the antigen expression was successfully isolated by DNA transfection and expression technique with monoclonal anti-melanoma M562 and the fluorescence-activated cell sorter. We also found that genomic DNA possesses transformation-related activity in NIH3T3 cells.     

Monoclonal antibody immunocytochemistry: novel method extending usefulness of monoclonal antibodies for antigen visualization

We describe a novel procedure combining the multiple-site reactivity of polyclonal antibodies with the defined single epitope-specificity of monoclonal antibodies. The method is based on previous findings that IgG molecules often only react with tissue-bound antigens with one of their two antigen-combining sites; thus, the remaining site is free to bind subsequently added antigen. In the procedure devised, such (undenatured) antigen is subsequently detected by a specific monoclonal antibody and the reaction is finally revealed by immunogold-silver staining. Antibody subpopulations to contaminating antigens may well be present in the polyclonal antiserum and may well bind first to tissue and then to the corresponding contaminants in the crude antigen preparation applied as second layer. Such contaminants will, however, not react with the monoclonal antibody and will therefore not be immunocytochemically detected. The method has been evaluated with one antigen which cannot be detected by monoclonal antibodies in paraffin sections (glial fibrillar acidic protein) and with another antigen (human chorionic gonadotropin) which can only be detected by the monoclonal antibody when occurring in high concentrations. In both cases the procedure resulted in strong specific staining of the antigens with no background.     

Use of tetrameric antibody complexes to stain cells for flow cytometry

Bifunctional tetrameric complexes of monoclonal antibodies were used to stain cells for flow cytometry. These complexes consist of two different mouse monoclonal IgG1 antibodies (one with specificity for a cell surface antigen, the other with specificity for a fluorochrome) cross-linked by two molecules of a monoclonal rat anti-mouse IgG1. The use of this immunological approach to cross-link fluorochromes to cell surface antigens was studied with tetrameric complexes containing Leu-3a or Leu-2a antibodies and monoclonal antibodies specific for the fluorochromes B- and R-phycoerythrin. The ability of such cyclic immune complexes to stain T-cell subset antigens on human peripheral blood lymphocytes was demonstrated in single and double-staining experiments. The results demonstrate that tetrameric antibody complexes provide a simple and efficient alternative to covalently labeled antibodies for the flow cytofluorimetric analysis of cell-surface antigens.     

Quantitative immunocytochemical characterization of mononuclear phagocytes. I. Monoblasts, promonocytes, monocytes, and peritoneal and alveolar macrophages

The purpose of the present study was to compare the phenotype of tissue macrophages with that of their precursors in the bone marrow and blood. The phenotype was determined on the basis of the quantitative binding of monoclonal antibodies to cell-surface antigens (antigen F4/80, complement receptor III, Fc receptor II, Ia antigen, common leukocyte antigen, and Mac-2 and Mac-3 antigens) on individual mononuclear phagocytes. Monoclonal antibody binding to cells, detected by the biotin-avidin immunoperoxidase procedure, was quantitated by cytophotometric determination of the amount of enzyme reaction product on cells. The results of this quantitation are expressed as the median of the specific absorbance per unit of cell-surface area (0.25 micron2) and per cell. Shortly after collection of the mononuclear phagocytes, binding of all monoclonal antibodies except those directed against the common leukocyte and Mac-2 antigens to peritoneal macrophages was enhanced compared with binding to blood monocytes; for alveolar macrophages we found reduced binding of monoclonal antibodies F4/80 and M1/70 (complement receptor III) and enhanced binding of monoclonal antibodies with specificity for the common leukocyte antigen and Mac-2 and Mac-3 antigens. The results obtained with cultured mononuclear phagocytes show that during the development from monoblast to tissue macrophages, monoclonal antibody binding to the various types of mononuclear phagocyte, expressed per unit of cell-surface area, was not significantly altered except that of M3/38 (Mac-2 antigen) to peritoneal macrophages and that of F4/80 and M1/70 (complement receptor III) to alveolar macrophages. Expressed on a per cell basis, the results show an increase in the binding of all monoclonal antibodies except those directed against the Fc receptor II and Mac-3 antigen during the development from promonocytes to peritoneal macrophages; binding of most monoclonal antibodies to alveolar macrophages was considerably lower than that to blood monocytes. It is concluded that the expression of the various cell-surface antigens alters during mononuclear phagocyte differentiation. The expression changed also during culture, although distinct patterns of alteration could not be distinguished.     

The sheep antibody response to repeated infection with Lucilia cuprina.

, , and 1992. The sheep antibody response to repeated infection with Lucilia cuprina. International Journal for Parasitology 22: 1169–1174. The specific serum antibody responses of sheep exposed to 10 consecutive infections of L. cuprina have been analysed by enzyme-linked immuno-sorbent assay and immunoblotting using monoclonal antibodies specific for sheep immunoglobulin isotypes. Recognition of a number of larval excretory-secretory products by IgM antibodies appeared to be non-specific. IgG₁ was the major antibody class stimulated by the infection protocol and marked increases in antibody to specific excretory-secretory antigens were observed. Three molecules of 35, 30 and 25 kDa were particularly recognized although the extent of recognition of these molecules varied considerably between individual sheep serum. A pooled serum composed of sera collected after five to seven infections significantly inhibited larval growth in in vitro cultures when compared to a sera pool consisting of sera collected both prior to infection and after infections 1 and 2. The degree of inhibition was greater when serum with high specific antibody titre was used.     

Intermediate filament proteins immunologically related to desmin in astrocytes: A study of chicken spinal cord by two-dimensional gel electrophoresis and immunoblotting

Co-migration experiments by two-dimensional SDS-PAGE using chicken spinal cord extracts and desmin purified from chicken gizzard showed that desmin is not present in spinal cord. However, by the immunoblotting procedure, desmin antibodies recognized 3 spinal cord antigens with different molecular weights and isoelectric points than desmin and the glial fibrillary acidic (GFA) protein. These antigens which also reacted with GFA protein antibodies were not identified in chicken gizzard extracts. The reactivity of the antigens with a monoclonal antibody recognizing an epitope common to most intermediate filament proteins (1) suggests that immunostaining of astrocytes with desmin antibodies (2, 3) is due to the presence of new intermediate filament proteins immunologically related to desmin.Special issue dedicated to Dr. Paola S. Timiras     

Plasmodium vivax: exoerythrocytic schizonts recognized by monoclonal antibodies against blood-stage schizonts

Exoerythrocytic parasites of Plasmodium vivax grown in human hepatoma cells in vitro were probed with monoclonal antibodies raised against other stages of P. vivax. Monoclonal antibodies specific for four independent antigens on blood-stage merozoites all reacted with exoerythrocytic schizonts and merozoites by immunostaining. The characteristic staining pattern of each monoclonal antibody was similar on both blood- and exoerythrocytic-stage parasites and appeared only in mature schizont segmenters. In contrast, a monoclonal antibody specific for the caveolar-vesicle complex of the infected host cell membrane and a second monoclonal antibody reacting with an unknown internal antigen did not appear to react with exoerythrocytic parasites. We confirm prior reports that monoclonal antibodies against the sporozoite immunodominant repeat antigen react with all exoerythrocytic-stage parasites, but note that as the exoerythrocytic parasite matures the immunostaining is concentrated in plaques reminiscent of germinal centers and apparently distinct from mature merozoites. These results indicate that mature merozoites from either exoerythrocytic or blood-stage parasites are antigenically very similar, but that stage-specific antigens may be found in specialized structures present only in a specific host cell type.     

Immunological characterization of Rhizobium leguminosarum outer membrane antigens by use of polyclonal and monoclonal antibodies.

Surface antigens of Rhizobium leguminosarum biovar viciae strain 248 were characterized by using polyclonal and monoclonal antibodies. With Western immunoblotting as the criterion, an antiserum raised against living whole cells recognized mainly flagellar antigens and the O-antigen-containing part of the lipopolysaccharide (LPS). Immunization of mice with a peptidoglycan-outer membrane complex yielded eight monoclonal antibodies, of which three reacted with LPS and five reacted with various sets of outer membrane protein antigens. The observation that individual monoclonal antibodies react with sets of related proteins is discussed. Studies of the influence of calcium deficiency and LPS alterations on surface antigenicity showed that in normally grown wild-type cells, the O-antigenic side chain of LPS blocks binding of an antibody to a deeper-lying antigen. This antigen is accessible to antibodies in cells grown under calcium limitation as well as in O-antigen-lacking mutant cells. Two of the antigen groups which can be distinguished in cell envelopes of free-living bacteria were depleted in cell envelopes of isolated bacteroids, indicating that the monoclonal antibodies could be useful tools for studying the differentiation process from free-living bacteria to bacteroids.     

Ontogeny and expression of chicken A blood group antigens

Expression of chicken red blood cell (RBC) surface antigens was studied by using a monoclonal antibody (ISU-cA) specific for chicken A blood group antigens. Erythrocytes were examined from embryos of 3-18 days of incubation and from chicks at hatch up to 21 weeks of age. Specific antigens were detected on embryonic RBC surfaces by immunofluorescence as early as 3 days of incubation. Antigenic expression was examined by both haemagglutination and immunofluorescence and found to increase with age from embryos to mature birds. The antigen concentration on the cell surface was found to be affected by genotype; heterozygotes had an intermediate level of antigen between that of the two parental genotypes. These data confirm the co-dominance that is observed with most blood group antigens. Flow cytometric analysis allowed confirmation that the entire erythrocyte population gradually increased in antigenic expression over time, rather than having an antigen-negative subpopulation being replaced by a positive subpopulation.     

Identification of circulating antigens, including an immunoglobulin binding protein, from Toxoplasma gondii tissue cyst and tachyzoites in murine toxoplasmosis

Here we describe the identification of Toxoplasma gondii circulating antigens in sera of BALB/c mice experimentally infected with either the virulent RH strain, or the cystogenic WTD1 strain or with an isolate from a human patient. The circulating antigens were identified by immunoblot in tachyzoite (RH strain) and in tissue cyst (ME-49 strain) crude antigens, using antibodies produced by immunisation of BALB/c mice with homologous sera from infected animals. The most relevant tachyzoite antigen identified are in the following four clusters of 109-94, 67-57, 35-31 and 28-21 kDa. Tissue cyst-specific circulating antigens, like the 18 kDa one, were detected in sera from mice infected with the cystogenic strains. These immune sera, after depletion of tachyzoite specific antibodies, recognised three tissue cysts antigens with Mr of 120, 79 and 48 kDa, and a cluster of antigens in the range of 68-53 kDa. We produced monoclonal antibodies by fusion of myeloma cells with lymphocytes from the mouse immunised with circulating antigens from the RH strain. One of the clones (3A11/H12) obtained, secretes IgG(1) and recognises a peptide epitope from a tachyzoite 67 kDa protein. This parasite protein also binds irrelevant mouse IgG(1) as well as immunoglobulins from other species. The reactivity with non-specific antibodies was inhibited by preincubation with 2% normal mouse and goat serum, while the reaction with the monoclonal antibody 3A11/H12 was not. Furthermore, a biotinylated F(ab')(2) of an irrelevant mouse IgG(1) did not show any reactivity while the F(ab')(2) of the monoclonal antibody 3A11/H12 reacts specifically with the 67 kDa antigen suggesting that this circulating antigen is a putative Fc binding protein.     

Screening of murine monoclonal antibodies against living schistosomula of Schistosoma mansoni by radioimmunoassay

A radioimmunoassay was developed to screen supernatants of murine monoclonal antibodies against surface antigens of living schistosomula of Schistosoma mansoni. Of 196 clones screened, 10% bound schistosomula. Of these, 74% bound only schistosomula. The remaining molecules also reacted with soluble adult worm antigens and soluble egg antigens as determined by enzyme-linked immunosorbent assay. Immunoblot analysis demonstrated that monoclonal antibody 204-3E4 reacted with a 68 kDa protein, a glycoprotein that induces substantial resistance against S. mansoni infection. Recognition of an 18 kDa antigen by 204-3F1 antibody was stage-specific with the antigen being expressed in cercariae, 3- and 24-h-old parasites but not 4-day, lung stage or adult worms. Monoclonal antibody 204-4E3 reacted with purified S. mansoni paramyosin. These data indicate that radioimmunoassay using living schistosomula is a rapid alternative method to identify murine hybridomas that secrete antibodies which react with surface antigens of S. mansoni.     

Preparation of mycoplasma immunogens from plants and a comparison of polyclonal and monoclonal antibodies made against primula yellows MLO-associated antigens

A method is described for obtaining from plants partially purified preparations of mycoplasma-like organisms (MLO) which are suitable for use as immunogens for polyclonal or monoclonal antibody production, and as antigens for directly coating ELISA plates. Using this method a mouse monoclonal antibody to primula yellows MLO was prepared, and its characteristics compared with those of primula yellows polyclonal antibodies from rabbits and also against polyclonal antibodies made to similar preparations of European aster yellows MLO. No serological distinction was obtained between any of the homologous or heterologous combinations of antibody and MLO preparation using ELISA, fluorescence microscopy with FITC-labelled antibodies, or immunoprobes of western blots of partially purified MLO preparations. By contrast, there were no cross-reactions between the primula or aster yellows antibodies or MLO preparations and preparations of clover phyllody or tomato big bud MLOs or their respective polyclonal antibodies. The primula yellows MLO monoclonal and polyclonal antibodies, and also the European aster yellows MLO polyclonal antibodies, all appeared to recognize only a single major antigen of approximate M, = 22 400 daltons. Some possible explanations for the apparent specificity of the polyclinic antisera for a single antigen, and the relevance to MLO preparation procedures are discussed.     

Production and immunological characterization of a monoclonal antibody to Trichophyton quinckeanum: interaction with phosphorylcholine-bearing components

A monoclonal antibody (Tq-1) that interacts with the phosphorylcholine (PC)-bearing antigens of Trichophyton quinckeanum was produced by fusion of myeloma cells (JKAg-8) with spleen cells of BALB/c mice immunized with an alum-precipitated fraction of T. quinckeanum cytoplasmic antigen. It was characterized as an IgM class antibody by immunodiffusion using anti-Ig heavy chain specific reagents, ELISA using immunoglobulin-specific peroxidase-conjugated antibodies, and by gel filtration chromatography; it showed high affinity for Staphylococcus aureus protein-A. Interaction of Tq-1 with PC-like antigens of T. quinckeanum was demonstrated by inhibition studies using ELISA, immunoblotting, immunoprecipitation and immuno electron microscopy techniques. The binding activity of Tq-1 antibody with a range of dermatophyte proteins was completely inhibited by prior incubation with PC hapten. Moreover, dermatophyte antigens reacting with the monoclonal antibody reacted strongly with sera from chronically infected mice. Dermatophyte antigens derived from both young (24 h) and old (20 d) cultures reacted with Tq-1 and this binding was inhibited by PC, suggesting that Tq-1 target antigen PC appears at an early stage during fungal growth and remains throughout its life.     

A proteomics-based approach for monoclonal antibody characterization

The determination of monoclonal antibody specificity is dependent upon the availability of purified antigen. Such material is not always available and this has proven to be one of the rate-limiting steps in monoclonal antibody production. The aim of the present study was to develop a generic approach to defining antibody specificity that bypassed the need for pure antigens through the use of proteomics. The scheme and its application to several biological mixtures are described. The results demonstrate the ability of the approach to identify antibodies against both the major components and the minor contaminants of a protein mixture. This approach should markedly enhance the characterization of antibodies to complex antigen mixtures.     

Comparison of techniques to screen and characterize bacteria-specific hybridomas for high-quality monoclonal antibodies selection

Antibodies are very important materials for diagnostics. A rapid and simple hybridoma screening method will help in delivering specific monoclonal antibodies. In this study, we systematically developed the first antibody array to screen for bacteria-specific monoclonal antibodies using Listeria monocytogenes as a bacteria model. The antibody array was developed to expedite the hybridoma screening process by printing hybridoma supernatants on a glass slide coated with an antigen of interest. This screening method is based on the binding ability of supernatants to the coated antigen. The bound supernatants were detected by a fluorescently labeled anti-mouse immunoglobulin. Conditions (slide types, coating, spotting, and blocking buffers) for antibody array construction were optimized. To demonstrate its usefulness, antibody array was used to screen a sample set of 96 hybridoma supernatants in comparison to ELISA. Most of the positive results identified by ELISA and antibody array methods were in agreement except for those with low signals that were undetectable by antibody array. Hybridoma supernatants were further characterized with surface plasmon resonance to obtain additional data on the characteristics of each selected clone. While the antibody array was slightly less sensitive than ELISA, a much faster and lower cost procedure to screen clones against multiple antigens has been demonstrated.     

Chicken developmental antigens in 15I5-B-congenic lines

Six partially developed 15I5-B-congenic lines of chickens were used to assess the genetic influence on the developmental expression of selected epitopes of two avian developmental antigen systems: chicken fetal antigen (CFA) and chicken adult antigen (CAA). Both CFA and CAA are serologically and molecularly complex hematopoietic antigen systems, yet little is known about genetic influences on their expression. Using polyclonal rabbit anti-CFA, only slight variations in overall CFA expression on peripheral erythrocytes were observed during neonatal development; no consistent trend was evident. In contrast, analysis with monoclonal antibody 10C6 revealed that the incidence of CFA determinant 8 (CFA8) on erythrocytes of the early neonate was significantly reduced in line 15I5 compared with lines .6-2, .7-2 and .15I-5; line .C-12 also exhibited a reduced CFA8 incidence at hatching. Likewise, the CAA epitope detected by monoclonal antibody 3F12 was found to appear at a slower rate on erythrocytes from lines 15I5 and .C-12 than on those of other lines. Similar results were obtained using the anti-CAA monoclonal 4C2 where reduced expression was found in lines 15I5, .C-12, and .P-13. Results of complement-mediated cytolysis using the positive control 9F9 monoclonal antibody suggested that observed genetic differences were not due to inherent differences in erythroid cytolytic sensitivity. Neither could the results be explained by the incidence of circulating reticulocytes vs. mature erythrocytes within the lines. Rather, the results suggest that different genetic lines of chickens vary in the developmental kinetics of definitive erythrocyte subpopulations bearing specific phenotypes defined by monoclonal antibodies. These findings are discussed in light of previous observations using these B-congenic lines.     

Nonlabeled secondary antibodies augment/maintain the binding of primary, specific antibodies to cell membrane antigens.

BACKGROUND: In studies on surface membrane antigen expression using immunofluorescence techniques, it is commonly observed that direct staining gives weaker signals than the signals following indirect staining with fluorochrome-conjugated secondary antibodies. This is most marked when cells have also been permeabilized in order to stain intracellular protein. The commonly accepted explanation for this observation is that fluorochrome-conjugated secondary antibodies bind to a higher number of binding sites on the primary antibody, as compared to the binding of conjugated primary antibodies to the membrane antigens. Another hypothesis might be that the antibody/antibody complexes formed on the membranes when using the indirect technique may have an augmented ability to bind the membrane epitopes. The present study was performed in order to check this hypothesis. MATERIALS AND METHODS: Peripheral blood mononuclear cells were stained with fluorochrome-conjugated anti-CD antibodies directly without or with a second-step application of nonconjugated goat anti-mouse IgG antibodies, followed by different fixation and permeabilization methods. The cells were analyzed by flow cytometry. RESULTS: A second-step application of nonconjugated goat anti-mouse IgG antibodies following direct staining with fluorochrome-conjugated anti-CD antibodies gave a significant increase in membrane antigen expression on permeabilized cells as compared to direct staining alone. The secondary antibody must be bivalent, since whole IgG or F(ab')(2) fragments of the goat anti-mouse antibodies showed effects, while Fab fragments did not. CONCLUSIONS: Nonlabeled secondary antibodies are able to influence the binding of primary, specific antibodies to cell membrane antigens on cells treated with permeabilizing agents necessary for staining intracellular proteins. The improved membrane antigen expression seems to be due to the formation of a network of primary and secondary antibodies on the cell surface, with increased ability for maintaining binding to CD antigens.