Immunochemical characterization of Epstein-Barr virus-associated early and late antigens in n-butyrate-treated P3HR-1 cells.

Sodium butyrate induces the Epstein-Barr virus cycle in latently infected P3HR-1 cells with a high efficiency. This fact was utilized for the metabolic labeling of the Epstein-Barr virus antigens. Nonproducer Raji cells, lacking both early antigen and viral capsid antigen, were used as controls. Immunoprecipitation patterns were compared with 13 anti-Epstein-Barr virus (viral capsid antigen) - positive and 3 negative sera. Sixteen polypeptides were identified as being associated with the lytic Epstein-Barr virus cycle. Their molecular weights ranged from 31,000 (31K) to 275K on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Two polypeptides, 158K and 165K, could be classified as late viral products on the basis of their sensitivity to cytosine arabinoside. Six of the polypeptides, i.e., 90K, 95K, 134K, 165K, 236K, and 275K, were detected by [(3)H]glucosamine labeling. Among the early, cytosine arabinoside-insensitive polypeptides detected by [(35)S]methionine labeling, a 152K component appears to be a major constituent of early antigen. This polypeptide was precipitated by all anti-Epstein-Barr virus-positive sera tested. As a rule, together with the 103K and 134K polypeptides, the 152K component is precipitated by anti-early antigen, R (restricted) antibodies. In addition, anti-early antigen D (diffuse) antibodies precipitate 31K, 51K, 65K, and 90K components.     

Detection by monoclonal antibodies of an early membrane protein induced by Epstein-Barr virus.

Two monoclonal antibodies, E8B3 and E8D2, were raised against Epstein-Barr virus (EBV)-producing cells and were shown to immunoprecipitate a protein with an approximate molecular weight of 105,000 (p105). The protein was detectable only in EBV-containing cells which were supporting the virus lytic cycle, and its synthesis increased after cells were induced with phorbol esters. The molecule was radiolabeled and immunoprecipitated from virus-producing cells that had been extrinsically labeled with 125I, and the antibodies E8B3 and E8D2 reacted in immunofluorescence assays with infected cells; the molecule was also associated with virion particles. Synthesis of p105 was not blocked by phosphonoacetic acid and could be induced in Raji cells by superinfection with virus derived from P3HR1 cells. These data support the conclusion that p105 is an EBV-specific early membrane protein.     

Identification of polypeptide components of the Epstein-Barr virus early antigen complex with monoclonal antibodies.

Three monoclonal antibodies were produced against the Epstein-Barr virus-induced early antigen complex. These antibodies were shown to be specific for the early antigen complex by the fact that they only reacted with cells supporting a permissive or abortive Epstein-Barr virus infection and their synthesis was not affected by inhibitors of viral DNA synthesis. One monoclonal antibody, designated R3, was directed against a diffuse component of the early antigen complex since it reacted by immunofluorescence with cells fixed in acetone or methanol. The other two monoclonal antibodies, designated K8 and K9, reacted with a methanol-sensitive restricted component of this complex. The appearance of the R3 antigen in P3HR-1 superinfected Raji cells occurred approximately 4 h earlier than the antigen detected by K8. By both sodium dodecyl sulfate-polyacrylamide gel electrophoresis and radioimmunoelectrophoresis, it was determined that the R3 monoclonal antibody recognized two major polypeptides with molecular weights of approximately 50,000 to 52,000, whereas K8 and K9 precipitated a protein of approximately 85,000. The R3 monoclonal antibody also immunoprecipitated an in vitro primary translation product. It was, therefore, possible to map this product to the Epstein-Barr virus DNA BamH1 M fragment. These in vitro products were slightly smaller than the in vivo proteins, suggesting that these proteins probably undergo posttranslational modification during the virus replication cycle.     

Immunobiochemical characterization of the antigen detected by monoclonal antibody IND.64

The immunohistochemical characteristics of the monoclonal antibody IND.64 are very similar to those of the monoclonal antibody Ki-67. The aim of this study was to further characterize this new antibody and to compare it with Ki-67 using immunobiochemical methods. Our results demonstrate that the similarity between the antibodies holds true even at the molecular level. Immunoblot analysis of IM-9-cell lysates with both antibodies showed a double band with apparent molecular weights of 395 kD and 345 kD, respectively. Competition ELISAs using a synthetic peptide derived from the thus far determined Ki-67 cDNA sequence as competitor, indicate that IND.64 may recognize the same epitope as Ki-67. The IND.64 epitope resides at least within a 20 amino acid sequence which also contains the Ki-67 epitope. Since IND.64 is of the IgG2b subclass, while Ki-67 is of the IgG1 subclass, the two antibodies may be useful for double immunostaining. In addition, IND.64 may help in determining the still unknown function of the anigen it recognizes.     

Production and characterization of monoclonal antibodies against the Epstein-Barr virus membrane antigen.

Five murine hybridoma lines that produce monoclonal antibodies against Epstein-Barr virus membrane antigen (MA) were established. Immunoprecipitation experiments demonstrated that three of the antibodies precipitated both the 236,000 (236K) MA and the 212K MA. The other two antibodies precipitated the 86K MA. Antibodies against the 236K-212K MA and the 86K MA mediated complement-dependent cytolysis of Epstein-Barr-virus-infected cells. The antibodies against the 86K MA neutralized both the B95-8 and P3HR-1 viruses.     

Human monoclonal antibodies against surface antigens of Langerhans cells from lymphocytes of diabetics transformed by Epstein-Barr virus

Human monoclonal antibody against islet cell surface antigens was generated from a pre-diabetic patient's peripheral blood lymphocytes transformed with Epstein-Barr virus. Reactivity of these transformed lymphocytes was evaluated using indirect immunofluorescence on rat islet cell suspensions and frozen sections of human pancreas. Several lymphoblastoid cell lines that react with islet cell surface were obtained. Preliminary immunoblots with enriched rat islet cell membrane antigens suggest a reactivity toward a 64 kdalton antigen.     

Isolation and characterization of monoclonal antibodies reactive with endothelial cells

Monoclonal antibodies were generated to antigens on cultured human umbilical vein endothelial cells. Spleen cells from BALB/c mice, immunized with low passage cultures of human umbilical vein endothelial cells, were fused with the non-secretory myeloma line, P3 x 63Ag 8.653. Hybridoma supernatants were screened for the desired immunological reactivity using ELISA binding assays. Hybridomas secreting antibodies reacting with the immunizing endothelial cells, but not with peripheral blood mononuclear cells, were cloned by limiting dilution and three stable clones were chosen for study. Further testing by ELISA revealed that each antibody displayed a unique pattern of reactivity. One antibody, 14E5, reacted with the macrophage-like cell line DHL-2, cultured macrophages derived from peripheral blood monocytes, and macrophages derived from malignant effusions. The antibody failed to react with fibroblasts or bovine endothelial cells. The second antibody, 12C6, reacted with human and primate fibroblasts and endothelial cells derived from bovine arteries, but not with mature macrophages. The third clone, 10B9, reacted only with the immunizing endothelial cells and the immature-macrophage line U-937. All three antibodies failed to react with long-term human B or T lymphoblastoid cell lines, leukemic cell lines, or murine macrophage lines. None of the antibodies reacted with a battery of human epithelial derived cell lines or primary cultures of human epithelial cells. Indirect immunofluorescence assays revealed that the antigens were expressed on the cell surface. These antibodies should prove useful as differentiation markers of human endothelial cells and in studies of endothelial cell function.     

Studies of murine malaria antigens using monoclonal antibodies. Production, selection, and characterization of antibodies

A panel of ten monoclonal antibodies made against Plasmodium chabaudi and Plasmodium yoelii infected mouse erythrocytes were used for characterization of antigens present in murine malaria. Screening of the antibodies in ELISA with different fractions of infected erythrocytes revealed both species-specific and fraction-specific monoclonal antibodies (MAbs), but also MAbs cross-reacting between the species. Two MAbs bound normal erythrocyte components. Subcellular localization of the target antigens was studied by immunofluorescence and their molecular identity by immunoblotting after SDS-PAGE. Of the MAbs to P. yoelii, one reacted with a cytoplasmic granule component of 137 k and two others reacted with vacuole-associated antigens of 26 k and 25/70/73 k, respectively. The latter antibodies cross-reacted with P. chabaudi antigens. Of the MAbs to P. chabaudi, all were species specific, one reacting with parasite surface antigens of 79 and 250 k and two with a vacuole-associated antigen of 70 k.     

Production and characterization of monoclonal antibodies to Aeromanas sobria surface antigens

Abstract A panel of eight murine monoclonal antibodies (Mabs) was raised against the surface antigens of Aeromonas sobria isolated from a patient with diarrhoea. Antibodies to the LPS core and O-antigen and to protein antigens were generated. Three Mabs of the IgM isotype against either protein or LPS agglutinated 34/75 Aeromonas isolates from clinical and environmental sources. Similar numbers of A. hydrophila, A. sobria and A. caviae isolates were agglutinated. The Mabs were screened for their ability to inhibit A. sobria adhesion to HEp-2 cells, and haemagglutination (HA). Two Mabs directed against conformationally dependent epitopes on a 43-kDa protein blocked both functions. Of the anti-LPS Mabs one blocked adhesion only, and another blocked HA but not adhesion. Immunoprecipitation studies suggested that LPS-protein complexes may be involved in these potential virulence functions of A. sobria .     

Characterization of Epstein-Barr virus antigens. I. Biochemical analysis of the complement-fixing soluble antigen and relationship with Epstein-Barr virus-associated nuclear antigen.

The Epstein-Barr virus-soluble (S) antigen extracted from RAJI cells was characterized by sucrose gradient centrifugation, gel filtration, and ion-exchange chromatography. The sedimentation coefficient was estimated to be 8.5S corresponding to a molecular weight of 180,000. The S antigen binds to DEAE-A25 ion exchanger from which it can be eluted with 0.3 M NaCl in Tris buffer (pH 7.2). All fractions which contained complement-fixing S antigen also inhibited the anticomplement immunofluorescence reaction as used to detect the Epstein-Barr virus-associated nuclear antigen. These results are consistent with the hypothesis that the S and Epstein-Barr virus-associated nuclear antigens are either a single antigen or that both activities are present on the same molecule.     

Production and characterization of monoclonal antibodies to Aeromonas sobria surface antigens

A panel of eight murine monoclonal antibodies (Mabs) was raised against the surface antigens of Aeromonas sobria isolated from a patient with diarrhoea. Antibodies to the LPS core and O-antigen and to protein antigens were generated. Three Mabs of the IgM isotype against either protein or LPS agglutinated 34/75 Aeromonas isolates from clinical and environmental sources. Similar numbers of A. hydrophila, A. sobria and A. caviae isolates were agglutinated. The Mabs were screened for their ability to inhibit A. sobria adhesion to HEp-2 cells, and haemagglutination (HA). Two Mabs directed against conformationally dependent epitopes on a 43-kDa protein blocked both functions. Of the anti-LPS Mabs one blocked adhesion only, and another blocked HA but not adhesion. Immunoprecipitation studies suggested that LPS-protein complexes may be involved in these potential virulence functions of A. sobria.     

Detection of time-dependent and oxidatively induced antigens of bovine liver rhodanese with monoclonal antibodies

Rhodanese has been extensively utilized as a model protein for the study of enzyme structure-function relationships. An immunological study of conformational changes occurring in rhodanese as a result of oxidation or thermal inactivation was conducted. Three monoclonal antibodies (MABs) to rhodanese were produced. Each MAB recognized a unique epitope as demonstrated by binding of the MABs to different proteolytic fragments of rhodanese. While none of the MABs significantly bound native, soluble, sulfur-substituted bovine rhodanese, as indicated in indirect enzyme-linked immunosorbent assay experiments, each MAB was immunoadsorbed from solution by soluble rhodanese as a function of the time rhodanese was incubated at 37 degrees C. Thus, as rhodanese was thermally inactivated, conformational changes resulted in the expression of three new epitopes. Catalytic conformers demonstrated different rates of thermally induced antigen expression. Each MAB also recognized epitopes expressed when rhodanese was immobilized on microtiter plates at 37 degrees C. Two conformers resulting from oxidation of rhodanese by hydrogen peroxide were identified immunologically. All MABs recognized rhodanese that was oxidized with peroxide and allowed to undergo a secondary cyanide-dependent reaction which also resulted in a fluorescence shift and increased proteolytic susceptibility. Only one MAB was capable of recognizing an epitope expressed when rhodanese was oxidized with peroxide and then separated from the reactants to prevent induction of the secondary conformational changes.     

Isolation of monoclonal antibodies to chromatin and preliminary characterization of target antigens

This paper describes the isolation of monoclonal antibodies to chromatin-associated protein antigens and their use in the characterization of such proteins by indirect immunofluorescence. Hybridomas were derived by fusion of the mouse myeloma Ag8653 with spleen cells from mice immunized with chromatin from human liver, rat liver or a human lymphoblastoid cell line. Hybrids were screened by solid-phase radioimmunoassay. The proportion of positive hybrids varied with the immunizing chromatin as follows: human liver 55/83, human lymphoblast 8/183 and rat liver 2/82. Fifteen antibodies derived from these fusions (7, 7 and 1 respectively) were subjected to further analysis. Most of these (11/13) were IgM and recognized both human and rat chromatin (12/15). Most of the target antigens were protease sensitive (8/13) and nuclease resistant. In fact the binding of five antibodies to lymphoblast chromatin was more than doubled by preincubation with DNAase I. The subcellular location of target antigens was examined by indirect immunofluorescence. Seven antibodies stained at least one of several cultured cell lines tested. Three gave staining patterns consistent with the in vivo association of the target antigen with chromatin recognizing, respectively, the interphase nucleus and metaphase chromosomes, the nuclear periphery and the mitotic spindle and other microtubule-containing structures. The remaining four all recognized antigens associated with the intermediate filament network.     

Cross-reacting antigens in chemically induced sarcomas are fetal determinants.

Serologic cross-reactivity has been demonstrated among three MCA-induced sarcomas in C57BL/6N female mice (MCA-2, MCA-3, and MCA-12) with a microcytotoxicity assay. Serum from mice bearing MCA-3 tumor was cytotoxic to both MCA-2 and MCA-3 tumor cells at a titer of 1:8. Sequential absorptions of this serum with syngeneic embryo cells completely eliminate cytotoxicity against MCA-2 cells without affecting the cytotoxic titer against MCA-3 cells. Serum hyperimmune to the MCA-3 tumor reacted with MCA-3, MCA-2, and MCA-12 tumors. Absorption of this serum with embryo cells eliminated cytotoxicity against MCA-2 and MCA-12 cells, but was incapable of lowering the titer against MCA-3 cells below 1:40. Similarly, serum hyperimmune to MCA-2 tumor was lytic to MCA-2, MCA-3, and MCA-12 before absorption, but was lytic only to MCA-2 cells after absorption with sygeneic embryo cells. Thus, the in vitro cross-reactivity between MCA-induced sarcomas is due to a common fetal antigen(s), which is distinct from the individual tumor-specific antigens of each tumor. Since these tumors do not exhibit cross-reactivity in in vivo challenge experiments, it appears that this fetal antigen is not responsible for in vivo immune protection.     

Epstein-Barr virus-transformed lymphocytes produce monoclonal autoantibodies that react with antigens in multiple organs.

Peripheral blood lymphocytes from normal individuals and patients with autoimmune abnormalities such as insulin-dependent diabetes mellitus and thyroiditis were infected with Epstein-Barr virus, and the culture supernatants were tested for autoantibodies that reacted with normal tissues. Between 58 and 86% of Epstein-Barr virus-transformed cultures produced immunoglobulin M antibodies, and between 9 and 24% of the transformed cultures produced immunoglobulin G antibodies that reacted with normal tissues. Ten Epstein-Barr virus-transformed clones secreting human immunoglobulin M monoclonal autoantibodies were isolated. Four of these monoclonal autoantibodies were studied in depth and found to react with antigens in multiple organs, including thyroid, pancreas, stomach, smooth muscle, and nerves. It is concluded that Epstein-Barr virus can trigger the production of autoantibodies without infecting the target cells to which the autoantibodies are directed.     

Adenosine deaminase activity in relation to the appearance of early and late Epstein-Barr virus antigens induced in lymphoblastoid cells

Summary Induction of Epstein-Barr virus (EBV) capsid antigen synthesis in 59.6% of P3HR-1 cells was followed by a decrease to 70% in adenosine deaminase (ADA) activity. In Daudi cells synthesizing EBV early antigen, ADA activity did not decrease.