Monoclonal antibodies to HLA recognize monomorphic and polymorphic epitopes on BoLA

Production of alloantibodies against bovine B-lymphocyte antigens

A series of alloimmunizations were carried out between BoLA class I antigen typed bulls, with the aim of generating class II specific reagents. Of the antisera produced, seven demonstrated exclusively B cell reactivity. Another 19 sera reacted with both T and B cells from some animals and with B cells only in other cases. Suitable buffy coat absorptions removed T cell reactivity from some sera and shortened broader reactivities in certain B cell specific sera. Typing of separated T and B cells from related and unrelated animals permitted clustering of the sera into four groups. These groups behave as allelic specificities. The class II nature of the recognized structures was strongly indicated by two further pieces of evidence. The presence or absence of particular B cell antigens correlated with reactivity of cells in one-way mixed lymphocyte cultures. In addition, a number of the B cell specific sera were characterized by immunoprecipitation of radiolabelled lymphocytes. The precipitated products corresponded in molecular weight to alpha and beta chains of MHC class II dimers, as has been found in this and other species.

Immunomagnetic isolation of cells for serological BoLA typing

This paper describes a totally new immunomagnetic (IM) technique adapted to serological BoLA typing. The basic technique has recently been developed by Vartdal et al. (1986) for serological HLA typing. The main advantage is that bovine mononuclear cells (e.g. T-cells and possibly their subsets, B-cells and monocytes) can be quickly and specifically isolated with high yield and viability from whole blood in a one-step procedure. This is achieved by magnetic separation of rosettes formed between the cells and superparamagnetic monosized polystyrene microspheres (Dynabeads TM) coated with cross-species reactive monoclonal antibodies (MAbs) specific for various human T-cell antigens or for HLA class II monomorphic epitopes. The cells are isolated within 5 min after a 5-min incubation at 4 degrees C. Magnetic separation of rosettes with a strong cobalt-samarium magnet eliminates all the laborious centrifugation steps necessary with conventional procedures. The isolated cells, still attached to the particles, are available for microcytotoxic assay. This is carried out within 55 min, including a two-step application of alloantiserum and complement and addition of acridine orange/ethidium bromide for the staining of viable (green) and dead (red) cells. The high viability of isolated cells gives a very low background kill compared with the conventional cytotoxic assay. The IM typing technique is also superior in sensitivity to the conventional technique as standardized for the international BoLA comparison test. The IM technique is likely to have its greatest impact on class II typing; class II positive cells being separated very efficiently. Polymorphic HLA class II MAbs detected likely polymorphic BoLA class II epitopes.

Genomic hybridization of bovine class II major histocompatibility genes: 1. Extensive polymorphism of DQ alpha and DQ beta genes

Class II genes of the bovine major histocompatibility complex (MHC) were investigated by Southern blot analysis using human cDNA probes for DQ alpha, DQ beta, DR alpha and DR beta. The presence of a DQ-like and a DR-like subregion in cattle was clearly indicated. Highly polymorphic restriction fragment patterns were obtained when genomic DNA, digested with any one of the BamHI, EcoRI or PvuII restriction enzymes, was hybridized with the DQ alpha and the DQ beta probe. The polymorphisms were interpreted genetically by analysing five paternal half-sib families of the Swedish Red and White breed. The material comprised, besides the bulls, 28 offspring and their dams. The analysis resolved 9 and 12 allelic variants of DQ alpha and DQ beta respectively. Thus, this investigation establishes a method for routine typing of MHC class II gene polymorphism in cattle. The results were entirely consistent with close linkage of DQ alpha and DQ beta since no recombinant was found and since alleles at these loci occurred in complete linkage disequilibrium in the material investigated. Close linkage between DQ and the blood group locus M, which has previously been found to be closely linked to the serologically defined BoLA-A locus, was also indicated. In this study DNA was isolated from frozen semen samples of dead bulls, which shows that this type of analysis will be useful in genetic investigations in cattle breeds, where artificial insemination is practised.

Recombinant bovine interferon-gamma enhances expression of class I and class II bovine lymphocyte antigens

Recombinant bovine interferon-gamma augments expression of class I and class II histocompatibility antigens on the surface membrane of bovine lymphocytes. Immunofluorescence techniques using a series of monoclonal anti-HLA antibodies demonstrate that this enhancement is detectable as early as 24 h after incubation with rBoIFN, while maximum surface expression is obtained within 3-5 days. A concentration as low as 10 units of rBoIFN is effective. Such results may be useful for characterizing the BoLA gene products.

Identification of two independent MHC class II antigens in a bovine lymphoblastoid cell line

Bovine major histocompatibility complex (MHC) class II antigens were investigated using monoclonal antibodies (MoAbs) with known MHC class II specificities in other species. Thirty-four MoAbs were tested for reactivity with bovine peripheral blood mononuclear (PBM) cells and the bovine lymphoblastoid cell line, BL3, by flow cytometry. Twenty-seven of 31 MoAbs tested, reacted with BL3 cells, and 22 of 25 MoAbs tested with PBM cells were reactive. MoAbs that reacted with BL3 cells were used to immunoprecipitate class II molecules from BL3 lysate labeled with [35S]methionine. Using sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and autoradiography, many MoAbs were found to immunoprecipitate a single band of approximately 31,000 relative mass (Mr). MoAbs yielding successful immunoprecipitations and with known antigen specificity in other species were then used in sequential immunoprecipitations and two dimensional (2-D) non-equilibrium pH gradient electrophoresis (NEPHGE). The HLA-DR specific MoAb H4 and the predominantly HLA-DQ specific MoAb CC11.23 were used to identify the presence of two independent antigens in BL3 cell lysate. These class II molecules consist of alpha and beta chains.

Bovine helper T-cell clones specific for lymphocytes infected with Theileria parva (Muguga)

T-cell clones specific for lymphocytes infected with Theileria parva were derived from animals immunized by infection with T. parva (Muguga). These clones were non-cytolytic and had the BoT4+ BoT8- surface phenotype, BoT4 and BoT8 being the bovine analogues of human CD4 and CD8 molecules. The clones proliferated in response to irradiated autologous lymphoblasts infected with T. parva (Muguga) but not to autologous uninfected lymphoblasts or monocytes. They were parasite strain-specific, in that they did not respond to autologous lymphoblasts infected with another parasite stock, T. parva (Marikebuni). The clones proliferated in the absence of exogenous T-cell growth factor (TCGF) and produced TCGF when stimulated with concanavalin A. Induction of proliferation of the cloned T-cells was genetically restricted, and evidence was obtained which indicated that they were restricted by determinants on class II major histocompatibility complex (MHC) molecules. These findings demonstrate that infections with T. parva stimulate antigen-specific MHC-restricted T-cells with the properties of T-helper cells. The results also provide further evidence for the expression of a parasite strain-specific antigen on the surface of T. parva-infected lymphocytes.

The development and analysis of species specific and cross reactive monoclonal antibodies to leukocyte differentiation antigens and antigens of the major histocompatibility complex for use in the study of the immune system in cattle and other species

We examined the potential of developing a set of species specific and cross reactive monoclonal antibodies (MoAbs) for use in the study of the phylogenetic and functional relation of class I and class II antigens of the major histocompatibility complex (MHC) and leukocyte differentiation antigens in cattle and other species. Comparing immunization strategies demonstrated the number of hybrids producing cross reactive antibodies can be increased by hyperimmunization of mice with lymphoid cells from multiple species. Comparing various methods of assay (antibody-complement mediated cytotoxicity [CT], enzyme linked immunosorbent assay [ELISA] and flow microfluorimetry [FMF]), revealed FMF is the most useful technique for the primary assay of hybridomas producing MoAbs of potential interest. By using dual parameter and dual fluorescence analysis, we could determine whether a given MoAb reacted with mononuclear cells (lymphocytes and monocytes) and/or granulocytes, and also whether any two MoAbs of different isotype and specificity recognized antigens present on identical or separate populations of leukocytes. Comparing the patterns of MoAb reactivity with leukocytes obtained from cows, goats, sheep, pigs, horses and humans, as well as comparing the patterns of reactivity with a panel of lymphoid cell lines derived from cattle (with enzootic bovine leukemia) and humans (with various forms of leukemia), revealed sets of MoAbs reactive with unique antigenic determinants present on BoLA class I (15 MoAbs) and class II (9 MoAbs) antigens, and also MoAbs reactive with determinants present on leukocyte differentiation antigens (36 MoAbs). Dual fluorescence analysis demonstrated the antigens detected by some MoAbs are predominantly expressed on one lineage of leukocytes while others are expressed on two or more lineages of leukocytes. Dual and single fluorescence analysis also demonstrated the PNA receptor(s) is: expressed on T cells, granulocytes and class II antigen monocytes and absent or expressed in low amount on sIgM+ B cells and a newly defined Non T/Non B population of cells. The strategies described for identifying and analyzing the specificity of MoAbs demonstrate the feasibility of developing a set of cross reactive MoAbs for identifying homologous molecules in multiple species and delineating their functional and phylogenetic relation.

Production and characterization of monoclonal antibodies raised against BoLA class I antigens

Monoclonal antibodies (MoAbs) reacting with bovine leukocyte membrane antigens have been prepared by fusion of mouse myeloma cells (SP2/0.Ag.14) and spleen cells of mice immunized with various cell types. Three of these MoAbs detected membrane components showing the typical structure of class I MHC molecules; indeed, immunoprecipitation studies revealed that these components were proteins composed of two subunits of 44,000 and 12,000 daltons apparent molecular weight. The density of these antigens in the cells of various leukocyte lineages was determined by solid phase radioimmunoassay, immunogold staining and cytofluorometry. Their expression seemed similar to that of class I molecules in other species, namely heavy on the mononuclear blood cells and weaker on the neutrophils and platelets. The eosinophils appeared more positive than the neutrophils, while the erythrocytes were negative. Cross-inhibition and sequential immunoprecipitation experiments demonstrated that these MoAbs recognised different epitopes either on a single molecule or on cross-reacting molecules. One antibody appeared to be raised against the monomorphic bovine beta-2-microglobulin, while the two other antibodies detected the heavy chain of polymorphic class I-like products. The authors propose that the BoLA class I polymorphism should be studied by determination of the fixation ratio of the monomorphic anti-beta 2M versus the polymorphic anticlass I antibodies amongst the animals.

Cross reaction of monoclonal antibodies to human MHC class I and class II products with bovine lymphocyte subpopulations

Peripheral blood lymphocytes (PBL) from cattle have been separated into T & B cell subpopulations using a panning technique. These T and B cell preparations have then been tested by direct and indirect complement mediated cytotoxicity tests with a series of monoclonal antibodies (Moabs) reacting with HLA class I and class II products. The anti-class I monoclonals were monomorphic or non-reactive and where reactive killed both B and T cells. The anti-class II monoclonals reacted only with B lymphocytes. There was no relationship between their reactivity pattern and any BoLA specificity.