Double immunoenzymatic staining for the simultaneous detection of Epstein-Barr virus induced antigens

Summary A double indirect immunoenzymatic staining was developed for the simultaneous visualization of Epstein-Barr virus-induced early antigens and virus capsid antigens in P3HR1 lymphoblastoid cell line.The double immunocytochemical staining was performed with a four-stage and a two-stage procedure employing human sera and monoclonal antibodies against Epstein-Barr virus-induced antigens, followed by the addition of specific alkaline phosphatase and peroxidase labeled antisera.The selection of substrates yielding reaction products of contrasting colours enabled the observer to distinguish cells expressing Epstein-Barr virus capsid antigens (blue) from cells expressing Epstein-Barr virus early antigens (brown).     

Double immunoenzymatic staining for the simultaneous detection of Epstein-Barr virus induced antigens

A double indirect immunoenzymatic staining was developed for the simultaneous visualization of Epstein-Barr virus-induced early antigens and virus capsid antigens in P3HR1 lymphoblastoid cell line. The double immunocytochemical staining was performed with a four-stage and a two-stage procedure employing human sera and monoclonal antibodies against Epstein-Barr virus-induced antigens, followed by the addition of specific alkaline phosphatase and peroxidase labeled antisera. The selection of substrates yielding reaction products of contrasting colours enabled the observer to distinguish cells expressing Epstein-Barr virus capsid antigens (blue) from cells expressing Epstein-Barr virus early antigens (brown).     

Use of immunogold electron microscopy and monoclonal antibodies in the identification of nuclear substructures

A cytochemical technique for the ultrastructural localization of unique nuclear antigens is reported. Using a post-embedding indirect immunogold labeling procedure, nuclear antigens in electron-dense regions of the nucleus are localized with a minimum of nonspecific staining. Using this technique and indirect immunofluorescence, a panel of antinuclear monoclonal antibodies is shown to recognize preferentially cell cycle-dependent nuclear substructures. The antigenic domains recognized include specific regions in condensed chromatin, interchromatin granules, euchromatin, and chromosomes. The specificity of antigen recognition is demonstrated with qualitative and quantitative immunogold electron microscopy and immunoblot analysis. These results reveal the existence of previously undefined supramolecular organization within the nucleus and demonstrate the utility of the immunogold procedure when monoclonal antibodies are used.     

A second Epstein-Barr virus early antigen gene in BamHI fragment M encodes a 48- to 50-kilodalton nuclear protein

We used antiserum raised against the bacterially synthesized product of one of the open reading frames in Epstein-Barr virus (EBV) BamHI fragment M to demonstrate that this reading frame (BMRF1) codes for a nuclear protein of the diffuse early antigen (EA) class. In indirect immunofluorescence assays, the rabbit anti-BMRF1 antiserum gave nuclear staining in approximately 5% of Raji cells which had been treated with sodium butyrate, and positive fluorescence was observed in both acetone- and methanol-fixed cells. Uninduced Raji cultures contained less than 0.1% positive cells regardless of whether indirect immunofluorescence or anti-complement immunofluorescence was used. In immunoblot analyses, the rabbit serum identified a family of polypeptides of 46 to 55 kilodaltons (kDa) in total protein extracts from B95-8 cells or from butyrate-induced Raji cells. In both cell types, the dominant polypeptides were the 48- and 50-kDa species. This same family of polypeptides was identified when the immunoblots were reacted with the R3 monoclonal antibody, and we concluded that this antibody also recognized the product of the BMRF1 open reading frame. Fibroblast cell lines containing EBV BamHI fragment M were established by cotransfection of baby hamster kidney cells with BamHI-M and the gene for neomycin resistance. Aminoglycoside G418-resistant colonies which showed evidence for EBV antigen expression in immunofluorescence assays were selected, and clonal cell lines were established. After 3 to 4 months of passaging, constitutive synthesis of EA was no longer detectable in these cell lines either by immunofluorescence or by immunoblot analysis. However, in the one cell line examined, synthesis of the 48- to 50-kDa EA was induced by treatment of the culture with sodium butyrate. Thus, the regulation of expression of this EA in transfected fibroblasts is analogous to that seen in Raji lymphoblasts. We showed previously that BamHI fragment M also contains the coding sequences for a 60-kDa nuclear EA, and hence BamHI-M encodes two separate components of the diffuse EA complex.     

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.     

Identification of a nuclear protein component of interchromatin granules using a monoclonal antibody and immunogold electron microscopy

A monoclonal antibody, designated 780-3, has been generated which preferentially recognizes an antigenic component of interchromatin granules in human cells. By indirect immunofluorescence procedures, monoclonal antibody 780-3 produces a cell cycle-specific speckled nuclear staining pattern in adult human fibroblasts which is dramatically altered during metaphase. In contrast, transformed cells appear to express this antigen throughout the cell cycle in increased quantities. Immunogold electron microscopy revealed that the nuclear antigen is intimately associated with interchromatin granules in human cells. Analysis by immunoblot procedures showed that monoclonal antibody 780-3 recognizes two polypeptides of 105 and 41 kD. From these data, a possible nucleolar derivation of interchromatin granules is discussed. These studies demonstrate for the first time that monoclonal antibodies may be used in combination with immunogold electron microscopy to identify the ultrastructural location of nuclear antigens.     

Generation of monoclonal antibodies against chromosomal antigens that have a high sequence similarity between human and mouse

We raised monoclonal antibodies by immunizing mice with total chromosome proteins extracted from isolated human metaphase chromosomes. The indirect immunofluorescence screening of hybridoma cell lines provided 15 monoclonal antibodies against the chromosomal antigens. The antigen proteins of the mAbs were identified by immunoblotting as core histones or by immunoprecipitation followed by a peptide mass fingerprinting method as nuclear mitotic apparatus protein, heterogeneous nuclear ribonucleoprotein A2/B1, ribosomal protein S4, linker histone and beta-actin. During mitosis, localizations of these proteins on chromosomes were clearly observed using the obtained antibodies. These results indicate that the current strategy is effective for obtaining monoclonal antibodies useful for immunoblotting and/or immunofluorescent staining of human proteins, using the antigens with high homology to mouse proteins.     

A method for simultaneous nuclear immunofluorescence and DNA content quantitation using monoclonal antibodies and flow cytometry

A preparative technique for the two-parameter flow cytometric study of nuclear antigen expression is reported. This method employs a brief sequential treatment of cells at 4 degrees C first with 0.5% paraformaldehyde and second with 0.1% Triton X-100 in phosphate-buffered saline followed by cellular staining with indirect immunofluorescence and propidium iodide. Using this technique, cellular morphology is preserved, cell clumping is minimized, and high-quality indirect immunofluorescence and DNA staining are obtained with a minimum of nonspecific labeling. Utilizing nuclear antigen-specific monoclonal antibodies in conjunction with this technique, the cell-cycle phase-dependent expression of such antigens is examined. From these data, the utility of two-parameter flow cytometry in the identification and quantification of cell-cycle-dependent modulation of nuclear antigens is discussed.     

A spectrin-like protein present on membranes of Amoeba proteus as studied with monoclonal antibodies

Monoclonal antibodies against a spectrin-like membrane-associated protein of xD amoebae. (Amoeba proteus) were used to determine the distribution of the protein and some of its characteristics. A total of 34 monoclonal antibodies recognizing different epitopes of the protein were obtained, of which seven stained cell membranes by indirect immunofluorescence. The spectrin-like protein had two subtypes of 225 and 220 kDa and several monoclonal antibodies cross-reacted with human erythrocyte spectrin when checked by indirect immunofluorescence staining and immunoblotting. Some of the antibodies also cross-reacted with antigens in HeLa cells and chick embryo fibroblasts. Polyclonal and monoclonal antibodies against Drosophila and human erythrocyte spectrins cross-reacted with the spectrin-like protein from amoebae. On the basis of these results, it was concluded that the protein is a spectrin. The protein was found on most cellular membranes of amoebae, including the plasma, nuclear, and phagosomal membranes, as well as symbiosome membranes.     

Monoclonal antibodies specific for African swine fever virus proteins.

We have obtained 60 stable hybridomas which produced immunoglobulins that recognized 12 proteins from African swine fever virus particles and African swine fever virus-infected cells. Most of the monoclonal antibodies were specific for the three major structural proteins p150, p72, and p12. The specificity of some monoclonal antibodies for the structural proteins p150 and p37 and the nonstructural proteins p220 and p60 indicated that proteins p150 and p220 are antigenically related to proteins p37 and p60. The association of some viral antigens to specific subcellular components was determined by immunofluorescence and analysis of the binding of monoclonal antibodies to infected cells. A host protein (p24) seemed to be associated with the virus particles.     

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.     

Changes in distribution of nuclear matrix antigens during the mitotic cell cycle

We examined the distribution of nonlamin nuclear matrix antigens during the mitotic cell cycle in mouse 3T3 fibroblasts. Four monoclonal antibodies produced against isolated nuclear matrices were used to characterize antigens by the immunoblotting of isolated nuclear matrix preparations, and were used to localize the antigens by indirect immunofluorescence. For comparison, lamins and histones were localized using human autoimmune antibodies. At interphase, the monoclonal antibodies recognized non-nucleolar and nonheterochromatin nuclear components. Antibody P1 stained the nuclear periphery homogeneously, with some small invaginations toward the interior of the nucleus. Antibody I1 detected an antigen distributed as fine granules throughout the nuclear interior. Monoclonals PI1 and PI2 stained both the nuclear periphery and interior, with some characteristic differences. During mitosis, P1 and I1 were chromosome-associated, whereas PI1 and PI2 dispersed in the cytoplasm. Antibody P1 heavily stained the periphery of the chromosome mass, and we suggest that the antigen may play a role in maintaining interphase and mitotic chromosome order. With antibody I1, bright granules were distributed along the chromosomes and there was also some diffuse internal staining. The antigen to I1 may be involved in chromatin/chromosome higher-order organization throughout the cell cycle. Antibodies PI1 and PI2 were redistributed independently during prophase, and dispersed into the cytoplasm during prometaphase. Antibody PI2 also detected antigen associated with the spindle poles.     

Monoclonal and polyclonal antibodies against Epstein-Barr virus nuclear antigen 5 (EBNA-5) detect multiple protein species in Burkitt''s lymphoma and lymphoblastoid cell lines.

The Epstein-Barr virus nuclear antigen 5 (EBNA-5) is encoded by highly spliced mRNA from the major IR1 (BamHI-W) repeat region of the virus genome. A mouse monoclonal antibody, JF186, has been raised against a synthetic 18-amino-acid peptide deduced from the EBNA-5 message of B95-8 and Raji cells. The antibody showed characteristic coarse nuclear granules by indirect immunofluorescence and revealed multiple EBNA-5 species by immunoblotting and immunoprecipitation. The B95-8 line itself and all B95-8 virus-carrying cells, whether lymphoblastoid cell lines or in vitro-converted sublines of Epstein-Barr virus (EBV)-negative Burkitt's lymphoma (BL) lines, were EBNA-5 positive. Among 36 cell lines carrying different EBV strains, only 10 expressed the B95-8-Raji-prototype EBNA-5 recognized by JF186; this was probably due to genetic variation in the epitope recognized by JF186, as shown for P3HR-1. Human antibodies, affinity purified against EBNA-5-JF186 immunoprecipitates, detected EBNA-5 in the majority of EBV-positive BL lines and in all lymphoblastoid cell lines containing the BL-derived viruses. Thus, EBNA-5 can be expressed by all virus isolates examined, but is down-regulated, together with other latent gene products, in a minority of BL lines which have a particular cellular phenotype. EBNA-5 was detected as a ladder of protein species of 20 to 130 kilodaltons (kDa), with a regular spacing of 6 to 8 kDa, consistent with the coding capacity of the combined BamHI-W 66- and 132-base-pair exons, together with shifts of 2 to 4 kDa, consistent with the size of the separate 66- and 132-base-pair exons. Multiple EBNA-5 proteins can be expressed by the single cell as shown by cloning of newly infected cells.     

Monoclonal antibodies against chromosomal proteins of Drosophila melanogaster

Total nuclear protein from the embryonic D. melanogaster cell line Kc and crude hydroxyapatite fractions thereof were used for immunization of mice. From the spleen cells of these mice we established 755 permanent lymphoid cell lines using the hybridoma technique originally developed by Köhler and Milstein (1975). Radioimmunoassay showed 455 of these cell lines secreted antibodies which bound to component(s) contained in the antigen mixtures used for immunization. Screening of 311 cell lines using indirect immunofluorescence revealed 58 lines whose antibodies showed a highly selective staining pattern on polytene chromosomes from the salivary glands of D. melanogaster third instar larvae. Eight of these cell lines were cloned and further characterized. We were able to order the staining patterns into three distinct classes based on the staining behaviour of the monoclonal antibodies: staining of active regions, staining of phase dark bands or staining of most interbands. The molecular weight of those antigens against which the monoclonal antibodies were directed was determined in SDS polyacrylamide gels.     

Subcellular localisation of the middle and large T-antigens of polyoma virus.

The distribution of two of the polyoma virus early proteins (the large and middle T-antigens) in lytically infected mouse cells and transformed rat cells has been investigated by indirect immunofluorescence and immuno-electron microscopy using well-characterised monoclonal antibodies. By these techniques, the viral large T-antigen was found almost exclusively in the nucleus, sometimes in association with nuclear pores, but never in the nucleolus. In lytically infected, but not transformed cells, fluorescence was detected in discrete areas ('hot spots') within the nucleus and, in a minor population of lytically infected cells, cytoplasmic immunoreactive material was observed. The viral middle T-antigen was found in association with most cytoplasmic membranes and in the majority of cells mainly in the endoplasmic reticulum. Only a fraction of the staining was observed in the plasma membrane and no staining in the nucleoplasm was observed. The data suggest that the site of action of the major transforming activity of polyoma virus need not be at the plasma membrane. Functions associated with the viral antigens are discussed in terms of their subcellular distributions within cells.     

Differential distribution of RNA polymerase B and nonhistone chromosomal proteins in polytene chromosomes of Drosophila melanogaster

The distribution patterns of nonhistone chromosomal proteins (NHCP) associated with pulse-labeled RNA were determined by indirect immunofluorescence on salivary gland chromosomes of Drosophila melanogaster using monoclonal antibodies. By staining for two different antigens simultaneously, using antibodies tagged with different fluorescent probes, it became possible to position RNA-associated antigens as well as RNA polymerase B in relation to each other. Three separate staining patterns could be observed with anti-NHCP antibodies, none of which showed a pattern which was identical with that of RNA polymerase B. Furthermore, no correlation with the synthesis of the primary trancript, as monitored by the RNA polymerase B content of chromosomal sites, could be found by following the fluorescence patterns during inactivation of intermolt puffs or activation of early ecdysone-induced puffs. Finally, no strict correlation was observed between puffing activity and the accumulation of a certain antigen in these selected chromosomal sites.     

Microwaving for double indirect immunofluorescence with primary antibodies from the same species and for staining of mouse tissues with mouse monoclonal antibodies

Many methods have been devised for double immunocytochemical staining. We now describe that moderate microwaving does not elute antibodies, but prevents their reactions with subsequently applied reagents. Thus, microwaving performed in between the first and second staining cycles permits double indirect immunofluorescence staining with antibodies raised in the same species. Moreover, microwaving also inhibits reactions with endogenous immunoglobulins present in extracellular compartments. This substantially reduces background in indirect immunostaining of mouse tissues with mouse monoclonal antibodies. Accepted: 19 October 1999     

Localization of the coding region for an Epstein-Barr virus early antigen and inducible expression of this 60-kilodalton nuclear protein in transfected fibroblast cell lines.

Expression of a component of the Epstein-Barr virus early antigen (EA) complex has been studied in fibroblast cells transfected with both wild-type and P3HR-1 defective DNA fragments covering the BamHI-M-S region of the Epstein-Barr virus genome. Baby hamster kidney (BHK) cells transfected with the BglII-J fragment and stained with human serum that was positive for the diffuse component of EA [EA(D)] in an indirect immunofluorescence assay exhibited positive nuclear staining in 5% of the cell population. Cleavage of BglII-J before transfection with the restriction enzyme BglII, StuI, HindIII, or PvuII did not affect EA expression, whereas prior cleavage with BamHI or EcoRI reduced or eliminated synthesis of EA. These observations were confirmed by using individual cloned subfragments. A Bal 31 deletion clone (pTS1) in which the HindIII and StuI sites were eliminated retained activity, whereas a clone (pTS5) in which the deletion extended closer to the EcoRI site had greatly reduced activity. Transfection of the individual BamHI-M or BamHI-S fragments, which span BglII-J, also resulted in little or no EA expression. The 2.1-kilobase biologically active region defined by these experiments corresponds precisely to the BMLF1 open reading frame. Immunoblot analyses of BHK cells transfected with either P3HR-1 defective DNA clones or the BglII-J wild-type fragment identified the product of this EA(D) coding region as a family of polypeptides consisting of a major 60-kilodalton product and minor 45- and 50-kilodalton species. In latently Epstein-Barr virus-infected lymphocytes these early antigens are not expressed, but can be induced by treatment of the cultures with sodium butyrate or phorbol esters. Using the BglII-J and pTS6 clones that were positive in transient assays, we also established Neor coselected BHK and Vero cell lines which showed similar regulated expression of the 60-kilodalton EA(D) protein. In these cell lines constitutive expression of EA(D) was limited (0.1% positive by indirect immunofluorescence and undetectable by immunoblot analysis). However, expression of EA(D) could be induced by treatment with sodium butyrate. In the induced cultures, up to 30% of the cells were EA(D) positive by immunofluorescence, and there was a concomitant appearance of the 60-kilodalton EA(D) polypeptide.     

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.