Phenotypic analysis of skin infiltrates in comparison with peripheral blood lymphocytes, spleen cells and thymocytes in early avian scleroderma.

University of California at Davis line 200 (UCD-200) chickens develop a hereditary connective tissue disease characterized by severe lymphocytic infiltration, vascular occlusion and fibrosis of skin and internal organs. To identify cellular immunological abnormalities in the acute inflammatory disease stage of this animal model for progressive systemic sclerosis (PSS) we investigated the phenotypic characteristics and function of peripheral blood lymphocytes (PBL), spleen cells and thymocytes in comparison with skin infiltrating cells. Immunofluorescence and immunohistochemical analysis using monoclonal antibodies revealed the overwhelming majority of skin infiltrating mononuclear cells in the deeper dermis and subcutaneous tissue to be T cell receptor alpha/beta (TcR2)+/CD3+/CD4+/class II+ cells, a small portion (5-10%) of which were interleukin 2 (IL-2) receptor positive. In contrast, the inflammatory infiltrate in perivascular areas of the papillary dermis was constituted of mainly TcR gamma/delta (TcR1)+/class II- lymphocytes. Only few B cells (T/B cell ratio greater than 5) were detected. These diseased chickens showed significantly reduced percentages and numbers of circulating peripheral T cells exhibiting TcR1, TcR2, CD3, CD4 or IL-2-receptor, probably owing to an increased influx into lymphoid organs and affected tissues. In contrast to healthy chickens, the thymi of UCD-200 animals revealed fewer cells expressing TcR1, TcR2 and class II antigen, suggesting an altered intrathymic maturation of the T cell lineage. Functional in vitro studies showed a significantly decreased T cell mitogen-induced proliferation rate associated with a decreased capacity to produce IL-2 and to express IL-2 receptors. In contrast to the deficient in vitro IL-2 production the sera of UCD-200 chickens contained significant levels of IL-2 bioactivity. The alteration of T lymphocyte physiology in UCD-200 chickens adds, at least in part, to the parallels between this animal model and its human counterpart. These data confirm our hypothesis that the PSS-like disease of UCD-200 chickens includes a numeric and/or functional alteration of peripheral T cell subsets, especially of TcR1 positive cells, in contrast to the pronounced accumulation in the afflicted tissues.

In-vivo treatment with 5-azacytidine causes degeneration of central lymphatic organs and induces autoimmune disease in the chicken.

In-vitro evidence suggests that DNA methylation may be involved in the development of forbidden immune responses that can result in autoimmune disease. In the present study we examined in-vivo effects of 5-azacytidine (5-azaC), a substance that inhibits DNA methylation, on the immune system and the occurrence of a spontaneous autoimmune disease in the chicken model. We found that (1) treatment of young normal chickens with 1.0 mg/kg 5-azaC on 7 consecutive days caused a rapid degeneration of the central lymphoid organs thymus and bursa; (2) this regimen with 5-azaC apparently inhibited B cell maturation, as the frequency of cytoplasmic Ig+ plasma cells in the bone marrow was found to be significantly reduced, whereas the total number of bone marrow cells was unchanged; and (3) a chronic low-dose (0.5 and 1.0 mg/kg) application of 5-azaC through 6 weeks was found to significantly enhance the spontaneous autoimmune thyroiditis in newly hatched chickens of the Cornell C strain, as determined by anti-thyroglobulin autoantibody titres and histological analysis of thyroid gland infiltration. The possible implications of these data for the generation of pathogenic autoimmune responses are discussed.

[Molecular genetic analysis of autoantibody production in systemic lupus erythematosus]. / Molekulargenetische Analyse der Autoantikörper-Produktion bei systemischem Lupus erythematodes.

This review summarizes studies from our and other laboratories attempting to define the molecular and clonotypic origin of autoantibodies that typify systemic autoimmune diseases such as lupus and rheumatoid arthritis. Comparative restriction fragment length polymorphism (RFLP) studies investigating the immunoglobulin (Ig) germline gene organization in lupus-prone strains of mice suggested that the disease can develop in different Ig heavy (H) and light (L) chain haplotypes, and that the Ig germline genes in lupus mice are probably normal. Analysis of the Ig gene segments expressed in monoclonal autoantibodies from autoimmune mice revealed that similar, and in some instances even identical, gene segments are expressed in autoantibodies and in antibodies to exogenous antigens, and that anti-self and anti-non-self responses are encoded by the same, or at least an overlapping germline gene repertoire. A large variety of Ig variable (V), diversity (D), and joining (J) gene segments can encode autoantibodies with different specificities, and both germline genes and somatically-mutated genes can be expressed in such antibodies.

Failure to alter neonatal transplantation tolerance by the injection of interleukin 2.

It has been postulated that the establishment of acquired, neonatal immunologic tolerance is due to a "deficit" in interleukin 2 (IL-2). To test this hypothesis, chickens were made immunologically tolerant to both major and minor histocompatibility antigens by transplantation of skin grafts onto newly hatched recipients. In this study, we injected various doses of IL-2 and concanavalin A simultaneously with transplantation and in some cases, several days posttransplantation, and we failed to enhance graft rejection. These results may have practical importance in respect to the clinical use of recombinant IL-2. Injection of IL-2 in and around surviving skin grafts also failed to alter skin graft survival.

The role of testosterone in spontaneous autoimmune thyroiditis of Obese strain (OS) chickens.

We have recently reported a two-fold defect in glucocorticoid mediated immunoregulation in the Obese strain (OS) of chickens with spontaneous autoimmune thyroiditis (SAT): (i) a decreased basal corticosterone (CN) tonus due to an elevation of plasma corticosteroid-binding globulin (CBG) and (ii) an impaired CN rise in response to antigenic stimuli as well as lymphokines produced after mitogenic stimulation. The aim of the present study was to investigate the pathophysiological relevance of testosterone for the development of SAT. Compared to healthy normal White Leghorn chickens (NWL) the basal sex hormone tonus as well as androgen receptors of bursal tissue are not altered in the OS. Administration of sheep red blood cells (SRBC) or lymphokine containing conditioned media not only increased CN plasma levels but concomitantly modulated testosterone serum concentrations, although in an inverse direction and without significant difference between OS and healthy control chickens. These results suggest that, in contrast to the glucocorticoid system, androgen tonus as well as its modulation by immune signals are normal in the OS. The mode of action by which androgens exert their known beneficial effect on the development of SAT was also studied. According to our findings the capacity of testosterone to prevent SAT when administered during the posthatching period can be attributed to direct effects on bursal epithelial cells as well as indirect mechanisms, namely a fall in CBG levels leading to normalization of the CN tonus.

Diminished glucocorticoid tonus in obese strain (OS) chickens with spontaneous autoimmune thyroiditis: increased plasma levels of a physicochemically unaltered corticosteroid-binding globulin but normal total corticosterone plasma concentration and normal glucocorticoid receptor contents in lymphoid tissues.

Obese strain (OS) chickens afflicted with spontaneous autoimmune thyroiditis (SAT) display several signs of a general immune dysbalance, some of which may be related to altered endocrine mechanisms such as the glucocorticoid tonus. The latter is the combined result of corticosterone (CN) production, metabolism as well as excretion, and the binding of CN to corticosteroid binding globulin (CBG) and glucocorticoid receptors (GR). The present study deals with the comparative investigation of these parameters in OS and normal White Leghorn (NWL) chickens. The results obtained with radioimmunoassay for CN and radioligand saturation assays for plasma CBG as well as GR in the thymus were as follows: (1) both OS and NWL have equal total CN levels; (2) however, OS chickens exhibit elevated CBG levels, whereas the physicochemical parameters (equilibrium affinity, specificity spectrum) of CBG were equal in OS and NWL; (3) the GR capacities and affinities were equal in both OS and NWL throughout development until thymic involution. Similarly, the specificity, affinity, and sedimentation behaviour were equal in OS and NWL. (4) Furthermore, no differences were found in the response of OS and NWL splenocytes to the suppressive effect of glucocorticoids in vitro, also excluding postreceptor alterations at the cellular level in the OS. From these findings we conclude that the increased CBG levels, which are not compensated for by either increased CN plasma levels or by increased receptor capacities or affinities in lymphatic organs, represent a diminished glucocorticoid tonus in OS chickens. This may have immunoregulatory consequences which, in turn, may contribute to the development of SAT.

ev 22, a new endogenous avian leukosis virus locus found in chickens with spontaneous autoimmune thyroiditis.

Chickens of the Obese strain (OS) develop a hereditary spontaneous autoimmune thyroiditis (SAT) which closely resembles human Hashimoto's disease. Analysis of the endogenous viruses harboured by these animals revealed a new endogenous virus (ev22) detected as a 5.5 kb Sac I fragment. Crossbreeding experiments showed that ev22 is vertically transmitted as an autosomal trait not associated with major histocompatibility (MHC) alleles. Preliminary experiments indicate that ev22 does not necessarily cause SAT, however, it may have a modulatory role in the development of the disease.

Chicken-activated-T-lymphocyte-antigen (CATLA) recognized by monoclonal antibody INN-CH 16 represents the IL-2 receptor.

Monoclonal antibody INN-CH 16 recognizes a surface determinant exclusively present on activated chicken T lymphocytes. The present experiments suggest that this chicken activated T lymphocyte antigen (CATLA) represents the chicken IL-2 receptor or an associated structure, as (i) the kinetics of CATLA expression during T cell activation are analogous to those described for the mammalian receptor for IL-2, (ii) the IL-2 dependent proliferation of mitogen prestimulated chicken lymphocytes is competitively inhibited by INN-CH 16, and (iii) pretreatment of T lymphoblasts with INN-CH 16 drastically reduces their capacity to absorb IL-2 activity from supernatants of mitogen activated chicken lymphocytes.

The multi-factorial pathogenesis of autoimmune disease.

Development of organ-specific autoimmune diseases depends on both an abnormal immune regulation and a genetically determined primary susceptibility of the target organ to the autoimmune attack. In addition to the essential genetically determined prerequisites there are also facultative, modulating factors that influence the outcome of an autoimmune disease. This concept is exemplified in the Obese strain (OS) chicken model which develops a spontaneous autoimmune thyroiditis closely resembling human Hashimoto disease. Three modulating factors are specifically addressed, viz. (a) the lower threshold of OS thyroid epithelial cells for the gamma-interferon-induced MHC class II antigen expression as compared to normal controls, (b) the decreased glucocorticoid tonus of the OS and (c) the presence of a new endogenous virus (ev 22) locus in the OS that has so far not been found in any normal strain and which seems to influence the glucocorticoid-mediated immunoregulatory process.

The genetic origin of murine lupus-associated autoantibodies.

Systemic lupus erythematosus and rheumatoid arthritis in human and murine systems are characterized by circulating autoantibodies and immune complex deposition in various organs causing tissue damage and disease. To define the molecular and clonotypic origin of these anti-self responses, and to determine whether abnormalities in Ig genes or somatic mechanisms generating autoantibody diversity may contribute to lupus etiology, we performed molecular analyses of the Ig germline gene organization and the Ig gene segments expressed in monoclonal autoantibodies from autoimmune mice. Comparative restriction fragment length polymorphism analysis of a large number of Ig gene loci from autoimmune and normal mice indicated that (a) lupus can develop in different Ig heavy and kappa light chain variable region gene haplotypes, and (b) the Ig germline genes in lupus mice might be normal. To determine whether autoantibodies are encoded by unique Ig gene segments present in the normal germline repertoire, but not expressed in exogenous responses, we compared nucleic acid sequences encoding lupus autoantibodies and antibodies against foreign antigens. Similar, and in some instances even identical, gene segments were expressed in both types of antibodies, indicating that anti-self and anti-foreign responses use the same, or at least an overlapping, germline gene repertoire. A large variety of Ig variable, diversity, and joining gene segments encoded these autoantibodies with different specificities. Hence, the overall murine lupus-associated anti-self response may be essentially unrestricted. Furthermore, limited evidence has been obtained that both germline genes and somatically mutated genes encode autospecificity, making gross abnormalities in mechanisms for somatic mutation of Ig variable genes unlikely.(ABSTRACT TRUNCATED AT 250 WORDS)

Disturbed immune-endocrine communication in autoimmune disease. Lack of corticosterone response to immune signals in obese strain chickens with spontaneous autoimmune thyroiditis.

Antigenic challenge as well as injection of lymphokine-containing media lead to a transient increase of serum glucocorticoids, a phenomenon that has been implicated in the regulation of the specificity of immune responses. In the present study we examined the dialogue between the immune and the neuroendocrine systems in Obese strain (OS) chickens, an animal model for human Hashimoto thyroiditis. The following results were obtained: A) OS and normal White Leghorn (NWL) chickens, 5-mo-old, were immunized with sheep red blood cells followed by daily monitoring of corticosterone (CN) serum levels. Whereas in NWL animals CN serum levels markedly increase 3 to 4 days after immunization, OS animals did not respond with CN elevation. B) A single i.v. injection of conditioned medium (CM) from concanavalin A-stimulated spleen cells also led to a transient, dose-dependent peak in plasma CN (maximum after 30 min). This CN response to a given CM preparation was significantly lower in OS than in NWL animals. C) CM, whether obtained from OS or NWL splenocytes, were equally effective to stimulate CN production. D) A single i.v. injection of CM leads--concomitantly to the CN peak--to a decrease of the concanavalin A-mediated proliferative response of peripheral blood lymphocytes in both OS and NWL chickens. This suppression, however, was significantly more pronounced in NWL chickens. In summary, these data suggest a disturbance of the immune-neuroendocrine communication in OS chickens with spontaneous thyroid autoimmunity. The possible implications for the generation of "forbidden" autoimmune responses are discussed.

T cell hyperreactivity in obese strain (OS) chickens. Different mechanisms operative in spleen and peripheral blood lymphocyte activation.

The enhanced T cell reactivity (ConA hyperresponsiveness and IL 2 hypersecretion) of spleen lymphocytes of Obese strain (OS) chickens with spontaneous autoimmune thyroiditis has recently been shown to be due to a defect in macrophage-derived non-specific suppressor factors that regulate IL 2 secretion and IL 2-promoted T lymphoblast proliferation in normal healthy animals. In the present study, we present several lines of evidence that the increased T cell response of peripheral blood lymphocytes (PBL) of OS chickens is due to mechanisms entirely different from the described dysregulation of splenic T cells: 1) In contrast to the splenic macrophages, peripheral blood monocytes of OS animals are not deficient in the production of IL 2 antagonistic activity (IAA); 2) therefore, cocultivation of PBL from OS and Normal White Leghorn (NWL) chickens in communicating culture chambers did not abrogate the difference in Con A response as previously observed with spleen lymphocytes. 3) Immunofluorescence with a monoclonal antibody (INN CH 16) against the chicken IL 2 receptor revealed enhanced numbers of mitogen activatable T cells in OS PBL but not OS spleen lymphocytes. 4) After prolonged Con A stimulation of PBL, OS and NWL lymphoblasts did not differ from each other in functional aspects. In contrast to this, Con A lymphoblasts from OS spleens exhibited enhanced staining with INN CH 16 in parallel with an increased proliferative response to IL 2. Thus, the primary T cell dysfunction involved in the development of autoimmune disease in OS chickens is the result of at least two separate regulatory defects.

Mechanisms of T cell hyperreactivity in obese strain (OS) chickens with spontaneous autoimmune thyroiditis: lack in nonspecific suppression is due to a primary adherent cell defect.

The disturbed homeostasis of the immune system in Obese strain (OS) chickens with spontaneous autoimmune thyroiditis consists in a general T cell hyperreactivity (concanavalin A hyperresponsiveness, interleukin 2 (IL 2) hypersecretion), particularly expressed by those lymphocytes which infiltrate the diseased thyroid gland. This abnormality has been attributed to a defective regulation of both IL 2 production and IL 2 function by low m.w. factors, which are present in serum and splenocyte culture supernatants of normal chickens, but deficient in the OS. In the present study we identified the cellular origin of IL 2 antagonistic activity as a nonlymphoid, adherent cell. Suppressor factor production in vitro was confined to the plastic adherent fraction of spleen cells and preincubation of splenocytes with nylon wool, silica particles, or carbonyl iron significantly reduced the nonspecific suppressive activity of the culture supernatant. Kinetic studies revealed the defect in nonspecific suppression to entail prolonged IL 2 production by concanavalin A-activated OS spleen cells. In vivo treatment of normal White Leghorn chickens with silica led to a decrease in suppressive serum activity down to the OS level, whereas neither neonatal thymectomy nor bursectomy had any effect. The defective suppressor factor production in autoimmune chickens appeared to be due to a functional, but not numeric defect of macrophages as revealed by phenol red staining. The possibility that this aberration in adherent cell function might be a secondary phenomenon to the recently described reduced corticosterone tonus in OS chickens was excluded by in vivo substitution with exogenous glucocorticoids which did not normalize the suppressor defect in serum or in conditioned medium. Finally, we present evidence that T lymphoblasts from OS animals are less susceptible to IL 2 antagonistic regulation than normal cells, which possibly further contributes to the T cell hyperfunction of this autoimmune strain.

A monoclonal antibody reacting with a membrane determinant expressed on activated chicken T lymphocytes.

A monoclonal antibody (INN-CH-16) was prepared which reacts with a cell surface antigen termed chicken activated T lymphocyte antigen. This antigen is expressed on antigen- or mitogen-activated T lymphocytes and is not present on nonstimulated lymphocytes. It has an apparent molecular mass of 48-50 kDa under reducing conditions. The value of this antibody for the immunohistochemical characterization of infiltrating cells in the thyroid glands from Obese strain chickens with spontaneous thyroiditis is demonstrated.

Elevation of corticosteroid-binding globulin in obese strain (OS) chickens: possible implications for the disturbed immunoregulation and the development of spontaneous autoimmune thyroiditis.

Basal plasma levels of corticosterone and corticosteroid-binding globulin (CBG) have been investigated in Obese strain (OS) chickens afflicted with spontaneous autoimmune thyroiditis (SAT). Corticosterone was determined radioimmunologically, and CBG by using a highly sensitive radioligand saturation assay. OS chickens displayed total corticosterone levels not different from healthy normal White Leghorn (NWL) chickens. CBG, however, was found to be twice as high in OS chickens as compared with their healthy counterparts, irrespective of sex or age. This quantitative difference in the CBG level is not compensated for by either altered affinity or specificity of the molecule. Furthermore, no differences were found in the response of OS and NWL lymphocytes to the suppressive effect of glucocorticoids in vitro. We therefore assume that OS animals are deficient in free, hormonally active corticosterone. An additional indication for such a diminished glucocorticoid tonus was that in vivo treatment of OS chickens with glucocorticoid hormones, thus increasing the free and active hormone fraction, normalizes the T cell hyperreactivity and significantly reduces thyroid infiltration. Possible pathophysiological implications of a diminished glucocorticoid tonus for spontaneous autoimmunity, as well as possible explanations for the beneficial effects of glucocorticoid treatment on the development of SAT, are discussed.

Analysis of lymphocytes infiltrating the thyroid gland of Obese strain chickens.

Lymphocytes were isolated from the infiltrated thyroid glands of 2- to 5-wk-old Obese strain (OS) chickens with spontaneous autoimmune thyroiditis (SAT). Immunofluorescence analysis performed by using a panel of monoclonal and polyclonal antibodies revealed that 60% of thyroid infiltrating leukocytes (TIL) were mature T cells, a large portion of which seemed to be in an activated state bearing Ia-like antigens (10%) as well as a surface determinant associated with T cell activation (16%), i.e., possibly the receptor for interleukin 2 (IL 2). Furthermore, a relatively high plasma cell content (5%) was observed. TIL exhibited high proliferative responses to T cell mitogens (concanavalin A, phytohemagglutinin) and IL 2, but only weak responses to the B cell mitogen LPS from Salmonella typhimurium. When injected into newly hatched, MHC-identical, irradiated normal chickens, TIL induced both the production of autoantibodies and thyroid infiltration. Peripheral lymphocytes from spleen and blood and thymocytes from the same OS donors had no effect. Analysis of chemically (cyclophosphamide) bursectomized OS chickens suggested that an intact B cell system was not obligatory for the induction of SAT. TIL from these chickens consisted of 77% T cells and less than 1% B lymphocytes, yet were capable of inducing severe thyroid infiltration upon transfer into normal recipients. These findings emphasize the importance of the T cell system in the initiation of SAT.

In vitro T cell hyperreactivity in Obese strain (OS) chickens is due to a defect in nonspecific suppressor mechanism(s).

Spontaneous autoimmune thyroiditis of OS chickens is associated with a marked hyperreactivity of the T cell system. The purpose of the present study was to investigate the underlying regulatory mechanisms. Co-cultivation experiments between Con A-stimulated OS and NWL lymphocytes in communicating cultures revealed soluble regulatory factors to be responsible for the observed functional differences: the high proliferative response to Con A and hyperproduction of IL 2 of OS cells was found to be due to a deficiency in the conditioned medium of dialyzable inhibitory factor(s) that regulate IL 2 secretion of NWL lymphocytes. Furthermore, sera of young NWL chickens were found to profoundly inhibit the IL 2-promoted lymphoblast proliferation. This IL 2 antagonizing activity is lost with age (3 to 6 yr) and was found to be significantly diminished in OS birds throughout ontogeny, thus pointing to possible parallels between immune regulatory dysfunction in autoimmunity and in physiologic aging. Both enhanced T cell response and the defect in serum suppressor were inherited by (OS X CB)F1 animals, indicating that these two aberrations may be related to each other.

Enhanced response to Con A and production of TCGF by lymphocytes of obese strain (OS) chickens with spontaneous autoimmune thyroiditis.

The mitogenic response to Con A and the production of T cell growth factor or interleukin 2 (IL 2) by splenic and peripheral blood lymphocytes of obese strain (OS) chickens with spontaneous autoimmune thyroiditis have been investigated. By using an optimized method with Con A-coated chicken erythrocytes (MRC), lymphocytes of OS chickens were found to exhibit significantly elevated mitogenic responses as compared with cells from either Normal White Leghorn chickens (NWL) or animals of the Cornell C-Strain (CS), from which the OS has originally been developed. This difference was observed throughout ontogeny up to 15 mo of age, and was associated with increased levels of IL 2 activity in the culture supernatants. The elevated responsiveness of OS T lymphocytes was also found to be manifested in the expression of receptors for IL 2, because Con A-stimulated lymphocytes of OS birds were significantly more effective than those from normal controls in absorbing IL 2 activity from conditioned media (CM) of stimulated spleen cells. High concentrations of CM were suppressive in IL 2 assays, signaling the presence of an inhibitory factor(s) in addition to IL 2. An additional indication for defective immunoregulation was that CM from OS lymphocyte cultures showed significantly less of this suppressive activity in comparison with CM of normal (NWL and CS) lymphocyte cultures. Finally, the spontaneous uptake of 125IUdR of embryonic and early post hatching OS spleen lymphocytes was consistently and significantly enhanced. This difference, however, in contrast to the one observed in Con A responses, was found to decrease with age. The data are discussed in view of the contradictory results concerning T cell functions reported for several autoimmune states in mammals.