Production and characterization of alloantisera specific for bovine class II major histocompatibility complex antigens

Ten alloantisera defining five major histocompatibility complex (MHC) class II specificities of the bovine lymphocyte antigen (BoLA) complex were produced and characterized. Eight antisera defining four of the specificities were generated by immunizing cattle with class I compatible-class II incompatible lymphocytes. The alloantiserum defining the fifth class II specificity was produced by skin implant immunization. A pregnancy serum specific for one of the class II specificities was also identified. The class II antigens recognized by these antisera were designated 'Dx' antigens to indicate that they are BoLA-D region antigens encoded by one or more undetermined class II loci. The molecules identified by the alloantisera are heterodimers composed of a 34-kd alpha and a 26- to 28-kd beta chain, and are expressed on B-lymphocytes but not on resting T-lymphocytes. In family studies the BoLA-Dx antigens segregated in linkage with the BoLA-A locus alleles. Most of the BoLA-A alleles present in the Cornell Holstein herd at a high frequency were found to exist in gametic association with two or more serologically defined class II haplotypes. On the basis of a population study it was determined that three pairs of class I and class II alleles (w10-Dx4, w31-Dx5, and c3-Dx2) were present in the Cornell herd at significantly increased frequencies.     

A biochemical characterization of feline MHC products: Unusually high expression of class 11 antigens on peripheral blood lymphocytes

The polymorphism of feline MHC antigens was examined using biochemical methods. The following observations were made: (1) feline class I and II antigens are polymorphic. Their biochemical features were established using rabbit and mouse reagents directed against human MHC products; they resemble those observed for other mammalian species; (2) the expression of class II antigens in unstimulated cat peripheral blood lymphocytes (PBLs) appears to be unusually high. Cat PBLs express far more class II than class I antigens, whereas in human Epstein-Barr virus-transformed lines, which are known to express relatively large amounts of class II antigens, the situation is reversed.Abbreviations used in this paper EBV Epstein-Barr virus - FLA feline lymphocyte antigen - MHC major histocompatibility complex - MLC mixed lymphocyte culture - MLR mixed lymphocyte reaction - PBL peripheral blood lymphocyte - RT room temperature - TX-114 Triton X-114 - 1-D IEF one-dimensional isoclectric focusing - 2-D SDS-PAGE twodimensional sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Mixed lymphocyte culture studies reveal complexity in the bovine MHC not detected by class I serology

The genetic structure of the bovine major histocompatibility complex (MHC) was investigated using the lymphocyte microcytotoxicity test for class I typing and the mixed lymphocyte culture (MLC) assay for class II typing. Using locally produced alloantisera and antisera from the Third International BoLA Workshop, 14 class I BoLA-A locus alleles were identified in the study population, a single herd of approximately 700 Holstein-Friesian cattle. Eleven of these were alleles recognized in the International Workshop and three were new alleles. An MLC titration assay was employed in conjunction with class I typing to define BoLA haplotypes and identify BoLA complex homozygotes. An embryo transfer family consisting of eight full sibling cattle including one BoLA complex homozygote was produced by half sibling mating. Five other BoLA complex homozygotes were subsequently identified in the herd. Six MLC defined class II haplotypes investigated in detail were designated BoLA-D1, D2, D3, D4, D5 and D7. BoLA-D1 was associated with the class I specificity BoLA-Aw6, D2 with Aw6 and the new class I specificity Ac3, D3 with Aw6 and Aw11, D4 with Aw10, D5 with Aw31 and Aw11, and D7 with Aw20. The discovery of four groups of class I identical-class II disparate haplotypes, and three pairs of class I disparate-class II identical haplotypes indicates the presence of considerable complexity in the BoLA complex that is not detected using class I serology.     

Alloreactive T-cell recognition of bovine major histocompatibility complex class II products defined by one-dimensional isoelectric focusing

T-cell recognition of bovine MHC (BoLA) class II antigens was investigated in relation to BoLA class II polymorphisms defined by one-dimensional isoelectric focusing (1D-IEF). One-way mixed lymphocyte reactions (MLRs), and allospecific cell lines and clones were used. In general, T-cell responses correlated with the 1D-IEF defined haplotypes (EDF types). However, with MLRs some responses appeared to be associated with BoLA class I differences. All combinations of responder-stimulator pairs produced alloreactive T-cell responses both in MLR and in generation of allolines/clones. Thus allospecific lines and clones were generated to all EDF types tested. Splits in the IEF typing were observed with EDF6 and EDF3, indicating that distinct BoLA class II haplotypes are not necessarily distinguished by 1D-IEF alone. Furthermore, the patterns of reactivity with EDF3 expressing cells were complex with the T-cell specificities splitting EDF3 into several distinct types. Also, in some cases it was clear that more than one T-cell specificity per EDF type was detectable. Thus, allospecific lines and clones provide complementary and additional information to the 1D-IEF typing for polymorphism of the BoLA class II complex. This extra information is particularly important in terms of the functional significance of the BoLA complex for antigen presentation and immune response gene effects.     

Human suppressor cell induction in vitro: preferential activation by class I MHC antigen

Human peripheral blood lymphocytes heated at 45 degrees C for 1 hr were found to continue to express all the serologically detected class II MHC antigens (HLA DR, MT, MB) but not to stimulate proliferation in primary or secondary MLR. Such cells did, however, stimulate the formation of potent suppressor cells. Three additional stimulator cell models for the presentation of either class I antigen only (purified platelets and purified T cells) or class I antigen plus nonimmunogenic class II antigen (D/DR-compatible cells) gave identical results. Supernatants from cultures stimulated with any of these cell types had significantly reduced IL 2 activity when compared to control MLR. The suppressor cells generated in such cultures were not restricted to the class I or class II MHC antigen of the original stimulator. These data are interpreted to mean that 1) the class II epitopes detected by alloantisera and the epitopes that serve as lymphocyte-activating determinants are metabolically or conformationally distinct, and 2) that presentation of class I MHC antigen alone or in conjunction with nonimmunogenic class II MHC antigen preferentially stimulates the formation of suppressor cells. It is hypothesized that the latter may be an additional mechanism that contributes to the efficacy of matching for class II determinants in human renal transplantation.     

The definition of five B lymphocyte alloantigens closely linked to BoLA class I antigens

B lymphocyte alloantigens in cattle were identified by serological analysis. Alloantisera were raised by skin implant immunization or leucocyte immunization and were absorbed with platelets to reduce class I-specific antibody activity. Leucocyte absorptions were done to reduce the complexity of some antisera. A panning technique was used to prepare B-enriched and B-depleted lymphocytes. Antisera which displayed anti-B cell activity over a number of dilutions were tested against 115 Charolais cattle, and 13 antisera were used to define five B lymphocyte alloantigens. These antigens were present on B lymphocytes but did not appear to be present, at least at the same density, on the majority of T lymphocytes or platelets. Family studies suggested that these antigens are coded by one or two loci which are closely linked to the bovine class I loci. These results suggest the five antigens are class II antigens of the major histocompatibility complex (MHC) of cattle.     

The bovine major histocompatibility complex (BoLA): Close linkage of the genes controlling serologically defined antigens and mixed lymphocyte reactivity

Detection of linkage between genetic loci in cattle has been hampered by the lack of large full-sib families. A unique source of full-sib families is now available from embryo transplantation. Lymphocytes from six full-sib families, ranging in size from three to seven siblings, were tested for serologically defined BoLA antigens (BoLA-A). In addition, mixed lymphocyte reactivity (MLR) was tested between all paired combinations of cells within each family to distinguish BoLA-D specificities. Serologically identical siblings within each family were reciprocally nonreactive in MLR, and vice versa; thus, no recombinants were detected between the BoLA-A and the BoLA-D loci. Classical genetic linkage analysis revealed that these loci are significantly closer than 11.9 centimorgans.     

Analysis of the sheep MHC using HLA class I,II, and C4 cDNA probes

Four cDNA probes for the human major histocompatibility complex (MHC) were used to investigate the sheep MHC, in conjunction with serological typing for ovine lymphocyte antigen (OLA). Lymphocytes from a family (two parents and five offspring) of Romanov sheep were subjected to genomic DNA digestion by the restriction endonuclease Eco RI, followed by gel electrophoresis. A single Southern blot representing all seven individuals was then consecutively hybridized with the class I, alpha-DC, beta-DR, and C4 probes, which were originally designed to identify HLA class I, class II (DC and DR), and C4 products, respectively. Using each of the three class I/class II probes, several bands showing DNA polymorphism were detected. The segregation of these bands in the five offspring exactly paralleled the OLA haplotype segregation established by serological typing. A further eight individuals carrying haplotypes which were phenotypically identical to those in the above-mentioned family showed bands in the corresponding positions when tested with the same three probes. Using the C4 probe, no polymorphism was detected in these fifteen individuals.Abbreviations used in this paper MHC major histocompatibility complex - OLA ovine lymphocyte antigen - kbp kilobase pair(s) - MLR mixed lymphocyte reaction - RFLP restriction fragment length polymorphism     

Simian immunodeficiency virus induces expression of class II major histocompatibility complex structures on infected target cells in vitro

The human immunodeficiency virus (HIV) and the closely related simian immunodeficiency virus (SIV) induce profound immune dysfunction in primate species. The present studies show that cell populations infected in vitro with SIV exhibit increases in major histocompatibility complex (MHC) class II antigen expression. Cell lines chronically infected with both the monkey and human viruses express substantially more MHC class II but not more lineage-restricted or activation antigens on their membranes than do uninfected cell lines. Furthermore, 2'-deoxy-5-iodouridine increased MHC class II antigen expression on SIV-infected cell lines in parallel with increased expression of viral antigens. MHC class II induction does not appear to be mediated through the production of a soluble factor, such as gamma interferon, by SIV-infected cells. Interestingly, studies of the kinetics of antigen expression by cell lines after SIV infection indicate that the induction of MHC class II structures is a late event. Immunoelectron microscopy revealed that MHC class II antigen is expressed not only on the surfaces of the SIV-infected cells but also on the envelope of virus particles derived from those cells. MHC antigen expression on virus-infected cells and the expression of those determinants by the virus may play a role in the pathogenesis of acquired immunodeficiency syndrome and the autoimmune abnormalities observed in HIV-infected individuals.     

Variation in T cell responses to ovalbumin in cattle: evidence for Ir gene control

Genetic control of immune responsiveness in cattle was investigated using an antigen-dependent T cell proliferation assay in vitro. Bovine T cell proliferative responses to ovalbumin were dependent upon major histocompatibility complex (MHC) class II molecules. Responses of an unrelated panel of animals to a limiting concentration of ovalbumin after a single immunization were compared. Two discrete patterns of response were observed. One group of animals had low or non-responses which were not significantly different from the preimmune levels. Another group of animals showed significant responses. After a second immunization the majority of low responders remained low responders. There was no significant correlation between bovine MHC class I BoLA haplotype and magnitude of response within this group of unrelated animals. However, the magnitude of the T cell responses by two half-sib family groups segregated with BoLA haplotypes inherited from the sire. In contrast no significant correlation with antibody responses in vivo could be demonstrated. We suggest that the observed variation in T cell response is linked to bovine MHC class II immune response (Ir) genes.     

A study on associaton between mastitis and serologically defined class I bovine lymphocyte antigens (BOLA-A) in Norwegian cows

A total of 102 cows was tested for class I antigens of the bovine major histocompatibility complex. Half of the animals (51) had completed at least four lactations without any veterinary treatment for mastitis. The distribution of BoLA-A antigens among these relative mastitis-resistant cows was compared to that in the other half of the material (51), which comprised animals with at least one recorded treatment for mastitis. There were no statistically significant differences in BoLA-A antigen frequency between cows with mastitis and cows without mastitis. The two most common antigens were A2 and w16. The frequency of these two antigens deviated from earlier estimates within the Norwegian cattle (NRF) population, the difference for w16 being statistically significant.     

Involvement of major histocompatibility complex class I compatibility between dam and calf in the aetiology of bovine retained placenta

The possibility was examined that in cattle compatibility of major histocompatibility complex (MHC) products between dam and calf might negatively influence the placental maturation and expulsion, and therefore increase the risk of retained placenta in healthy, normally calving cattle. Fifteen combinations of a single dam and two offspring were selected; the placenta of the first offspring was normally expelled (control) and the placenta of the second one was retained (case). The MHC class I and class II antigens of the animals were typed by immunoprecipitation and by one-dimensional isoelectric focusing (1D-IEF). Compatibility or incompatibility of class I or class II antigens was established by comparison of the IEF banding patterns of dam and calves. Analysis revealed that MHC class I compatibility between dam and calf increased the risk of retained placenta. In this study, the effect of class II compatibility was not significant, nor was the effect of the interaction of class I and class II. In a subsequent, additional sample the experimental design was extended: induction of tolerance against non-inherited maternal antigens (NIMA) might be implicated in the occurrence of the disorder within the group of class I incompatible cases. In three out of the five class I incompatible retained placenta cases, the banding pattern of the incompatible haplotype of the calf was identical to that of the haplotype of the granddam that was not inherited by the dam (NIMA). Notably, within the nine class I incompatible controls, there were none in which the offspring shared a paternal class I type with the granddam. This might suggest a tolerance-inducing effect of NIMA in cattle in relation to retained placenta.(ABSTRACT TRUNCATED AT 250 WORDS)     

Biochemical evidence that equine leucocyte antigens W13, W22 and W23 are present on horse major histocompatibility complex class II molecules

A number of horse alloantisera were characterized biochemically as being directed against MHC class I or class II antigens by immunoprecipitation of the corresponding antigens from lysates of biosynthetically radioactively labelled lymphocytes and determination of their molecular weights by SDS-PAGE and fluorography. Sera recognizing A2 and A3 specificities precipitated antigens of 44,000 Daltons molecular weight (class I heavy chain), whereas sera with specificities W13, W22 and W23 precipitated antigens corresponding to class II dimers (30,000 and 32,000 Daltons). Comparison with antigens precipitated from horse lymphocyte lysates using (cross-reacting) antibodies to human class I and class II MHC molecules confirmed the results obtained.     

Production of alloantisera against class II bovine lymphocyte antigens (BoLA) by cross-immunization between class I matched cattle

This paper describes the production of alloantisera directed against bovine major histocompatibility complex (MHC) (BoLA) class II antigens in animals whose MHC phenotypes had been defined by one dimensional isoelectric focusing. Animals of closely matched BoLA class I types were selected by serology and subsequently typed for class I and class II by 1D-IEF of immunoprecipitated antigens. Those with similar class I type by both methods, but differing at the class II locus, were chosen for reciprocal immunization. Cross-immunization was by two skin implantations 6 weeks apart. The resulting antisera showed low titre after the first immunization and elevated titre 3 weeks after the second immunization. The sera reacted strongly with cells expressing specific BoLA class II antigens. The pattern of reactivity correlated well with IEF class II typing on a panel of animals representing all of the class II IEF types present in the Friesian population.     

Invasive equine trophoblast expresses conventional class I major histocompatibility complex antigens

Monoclonal antibodies and alloantisera were used in an indirect immunohistochemical assay to determine the expression of class I and class II Major Histocompatibility Complex (MHC) antigens by equine placental cells and the endometrial tissues at the fetal-maternal interface. MHC class I antigens were expressed at high density on the surface of the trophoblast cells of the chorionic girdle at days 32-36, just prior to their invasion of the endometrium. The mature gonadotrophin-secreting cells of the endometrial cups, which are derived from the chorionic girdle cells, had greatly reduced levels of MHC class I antigen expression while no MHC class I antigens were detectable on the non-invasive trophoblast cells of the allantochorion, except in small isolated patches. MHC class I antigens immunoprecipitated from chorionic girdle cells with either monoclonal antibodies or alloantisera had a relative molecular mass of 44,000, which was identical to that of MHC class I antigens precipitated from lymphocytes with the same reagents. MHC class II antigens were not detected on any trophoblast cells, although they were expressed at high levels by the endometrial glandular and lumenal epithelium immediately bordering the endometrial cups. MHC class I antigens were also expressed at high levels by endometrial tissues in the area of the cups. The high level of MHC class I antigen expression by endometrial glands within and bordering the cups was in sharp contrast to the greatly reduced class I antigen expression by the mature endometrial cup cells themselves.(ABSTRACT TRUNCATED AT 250 WORDS)     

Requirement of Ia-positive accessory cells in the MLR response against class II antigen on human B cell tumor line

In this report we have made a comparative study of the capacity of normal human stimulator cells and Epstein-Barr virus-transformed human B cell line Wa (EBV-Wa) cells to stimulate alloreactive T cells. Class II antigen (presumably HLA-DR4 determinant) on EBV-Wa cells was shown to act as a stimulating molecule in the mixed lymphocyte reaction (MLR) through a blocking study by using anti-Ia antibodies. Furthermore, it was found that HLA-DR-positive accessory cells in the responder population were required to elicit MLR responses against HLA-DR antigen on EBV-Wa cells. In contrast, HLA-DR-positive accessory cells in the responding cell population were not essential for elicitation of MLR responses against HLA-DR antigen on normal allogeneic peripheral blood mononuclear cells, as reported. The cell-cell interaction between responder HLA-DR-positive accessory cells and responding T cells in a major histocompatibility complex (MHC)-restricted manner was required for eliciting MLR responses against class II antigen on EBV-Wa cells such as antigen-presenting cell-T cell interaction in soluble antigen-specific T cell proliferative responses. The function of HLA-DR-positive accessory cells in the responder population could not be substituted for by the presence of interleukin 1. Furthermore, there was no obvious correlation between the degree of surface HLA-DR antigen expression on EBV-Wa cells and its stimulating ability. Thus, two distinct types of allo-class II, antigen-specific T cell activation between normal human stimulator cells and EBV-Wa cells were shown to exist.     

Interferon-gamma induction of major histocompatibility complex antigens on cultured bovine luteal cells

To investigate immunological mechanisms that may be involved in luteal function, the presence of Class I and Class II major histocompatibility complex (MHC) antigens on cultured bovine luteal cells was examined. After 72 h in serum-free culture, Class I antigens were markedly expressed on luteal cells, as determined by indirect immunofluorescence, whereas expression of Class II antigens was limited. The expression of MHC antigens on luteal cells was increased by treatment with the T-lymphocyte factor, interferon-gamma (IFN-gamma). Class I and II antigens were elevated 25% and 370% above controls, respectively, after IFN-gamma exposure. Since the corpus luteum is regulated by luteinizing hormone (LH), luteal cells were treated with either hormone alone or hormone in addition to IFN-gamma, and antigen expression was determined. LH treatment attenuated IFN-gamma-induction of Class II antigens on bovine luteal cells. These observations are the first to demonstrate the presence of MHC antigens on bovine luteal cells and the modulation of antigen expression by the lymphokine IFN-gamma and by LH.     

Defective expression of HLA class I antigens: A case of the bare lymphocyte without immunodeficiency

A case of the bare lymphocyte without apparent immunodeficiency was observed in a 33-year-old woman who had no history of severe infections but suffered from sino-bronchial disease. No HLA-A and -B antigens (class I antigens) were detected at the cell surface of lymphocytes, granulocytes, and platelets, but they were expressed, although at a reduced level, on the cultured B lymphoid cell line. T lymphocytes were normal in number and in the relative proportion of T4/T8 and responded to mitogens but not to PPD and candida. HLA-DR antigens (class II antigens) were present on B lymphocytes and showed intermediate MLR-stimulatory capacity, which made it possible to deduce the patient's HLA genotype. She was found to be homozygous at consanguinity for HLA-A, -B, and -DR antigens. The numbers of B lymphocytes, immunoglobulins, and complements were all in the normal range; there was, however, a low level of IgM. Two-dimensional gel analysis of class I antigens revealed the presence of normally expressed beta-2 microglobulins (B2M) and an apparently single set of class I heavy chains, allowing us to consider two alternative cellular mechanisms in this defect; the presence of one abnormal class I structural gene and the regulatory mechanism that acted in cis were suggested.Abbreviations used in this paper MLR mixed lymphocyte culture reaction - B2M beta-2 microglobulin - 2-D two-dimensional - IEF isoelectric focusing - SDS sodium dodecyl sulfate - PAGE polyacrylamide gel electrophoresis - MoAb monoclonal antibody - PBS phosphate-buffered saline - BSA bovine serum albumin - PHA phytohemagglutinin - PWM pokeweed mitogen - mol. wt. molecular weight     

Differential expression of the major histocompatibility antigen complex (MHC) on a series of Burkitt's lymphoma lines

We compared the expressions of class I and class II major histocompatibility antigen complex (MHC) on the surface of Jijoye and P3HR-1 cells of Burkitt's lymphoma sublines. Jijoye cells had a large amount of class I and class II MHC antigens, whereas these antigens were less expressed on P3HR-1 cells. On a subline of P3HR-1 K cells the expression of class I antigen markedly diminished and class II antigen was undetectable. On the other hand, Jijoye, P3HR-1, and P3HR-1 K cell lines were confirmed to be Epstein-Barr virus (EBV) nonproducer, low producer, and high producer, respectively. The chemical activation of EBV genome by treating P3HR-1 cells with 12-O-tetradecanoyl phorbol-13 acetate (TPA) and n-butyrate resulted in inhibition of the expression of class I and II antigens, while the addition of retinoic acid, an inhibitor of virus replication, blocked the decrease in the MHC antigen expression. These findings suggested that there might be an inverse correlation between the virus production and the expression of class I and II MHC antigens.