Autologous CD8-positive cells suppress T cell proliferation in response to thyroid antigens in Hashimoto's thyroiditis

[Biochemical and immunological markers of autoimmune thyroiditis]

Correlations between biochemical and immunological markers of programmed cell death (apoptosis), and the functional state of the thyroid gland (hyperthyroidism, euthyroidism, hypothyroidism) have been investigated in autoimmune thyroiditis (AT) (also known as chronic autoimmune thyroiditis). Annexin V, TRAIL and TNF-a, as well as DNA-hydrolyzing antibodies were used as the main markers. Increased levels of TRAIL were found in the serum of AT patients (hyperthyroidism>hypothyroidism>euthyroidism) compared with healthy individuals. The highest frequency of antibodies to denatured DNA (Abs-dDNA) had the highest frequency in AT patients (97%) compared with healthy controls. Among these patients, 75% had hyperthyroidism, 85% had hypothyroidism, and 84.7% had euthyroidism. Abs hydrolyzing activity demonstrated correlation dependence with symptoms of the thyroid dysfunction.

Assessment of the frequency of mutant (hprt-) T lymphocytes from peripheral blood of patients with Hashimoto's thyroiditis

A salient feature of Hashimoto's thyroiditis (HT) is the T-cell-mediated destruction of the thyroid gland leading to hypothyroidism. In HT, as in other autoimmune diseases, a central premise has been that autoreactive T cells must be dividing in response to autoantigens, accumulating random spontaneous mutations during the activation process. Here, we have examined this hypothesis by using as monitor of somatic cell mutation the hprt gene, encoding the salvage pathway enzyme hypoxanthine-guanine phosphoribosyl transferase. Eleven newly diagnosed patients with HT and 10 patients with chronic disease were selected for the study, whereas 10 healthy individuals were used as controls. Peripheral T cells were cultured under limiting dilution conditions in the presence of 6-thioguanine and the frequency (MF) of surviving mutant hprt(-) T cells was calculated by Poisson statistics. It was observed that the mean MF value of either patient group (6.6 +/- 5.8 per 10(6) cells for the newly diagnosed, and 8.8 +/- 4.0 per 10(6) cells for the patients with chronic disease) was not significantly different (p > 0.05) from that of the control group (6.8 +/- 6.4 per 10(6) cells). These data do not support the concept that patients with HT have an increased number of actively dividing T cells in the circulation compared to healthy controls. Autoreactive T cells may be activated mainly in situ or home readily to the thyroid in the early stages of the disease and reach a nonexpansion stage as the chronic disease is stabilized.

Cellular interactions during the development of autoimmunity in a fetal lamb model of self-antigen deprivation

Anti-thyroid autoimmune responses have been examined in fetal lambs, the immune systems of which had matured in the absence of exposure to thyroid-specific antigens. The lymphocytic infiltrate in self-thyroid tissue reintroduced into autoimmune lambs showed well-differentiated B and T cell domains. However, T cells from these fetuses were not sensitized against ovine thyroglobulin nor did serum antibodies appear against ovine thyroglobulin or thyroid peroxidase. In the light of these observations, it is inferred that the primary abnormality in the immune systems of fetuses deprived of exposure to thyroid autoantigens is likely to be a failure of the development of a normal T cell subpopulation responsible for down-regulation of autoreactivity. It is also concluded that overt autoimmunity develops only when these fetuses are challenged with thyroid tissue and that B cells may undertake an antigen-presentation role in its induction.

Lymphocytic traffic and homing into target tissue and the generation of endocrine autoimmunity

Endocrine autoimmunity is known to be characterized by the presence of specific autoantibodies and from the histopathological point of view by lymphocytic infiltration in the target tissue. The presence of mononuclear cell infiltrates is the pathological hallmark of most endocrine diseases characterized by an autoimmune process directed against antigens expressed on endocrine cells. Infiltrating cells can usually be detected by biopsy or by using other, non-invasive, techniques. However, in endocrine tissue such as the islets of Langerhans and the adrenal glands it is difficult to perform biopsies and diagnosis of the autoimmune process is dependent mainly upon detection of specific autoantibodies. A crucial aspect of endocrine autoimmunity and of all processes of organ specific autoimmunity is why and how lymphocytes migrate from primary lymphoid tissue to their specific targets. This occurs mainly through contact with specific adhesion molecules which enable lymphocytes to adhere to the endothelial vessels in close proximity to the target tissue. In this review we discuss the homing of peripheral mononuclear cells into target endocrine tissues and the mediating role of adhesion molecules.

T cell responses to orbital antigens in thyroid-associated ophthalmopathy

Thyroid-associated ophthalmopathy (TAO) is most likely to be a T cell-mediated disease, in which cytokines released in the extraocular muscles activate fibroblasts, increasing glycosaminoglycan production. The nature of the orbital antigen recognized by the infiltrating T cells is unclear, although it is possible that there is cross-reactivity between this and a thyroid autoantigen to explain the close association with thyroid autoimmunity. We have tested the ability of human and porcine eye muscle antigen preparations to stimulate proliferation of circulating T cells from healthy subjects and patients with TAO or Graves' disease without clinical TAO. Occasional responses were seen, particularly after depletion of CD8+ T cells, and two out of 10 TAO patients responded to eye muscle proteins of 25-50 kD after fractionation of antigens on gels and subsequent elution. There was no disease-specific response of T cells to R1, R14, D1 and 1D3, recombinant proteins identified from screening an eye muscle cDNA library with sera from patients with autoimmune thyroid disease. We have also found that interferon-gamma (IFN-gamma) production by T cells from TAO patients was not stimulated by eye muscle membrane antigens or by 1D3. These results suggest that the frequency of circulating T cells responding to eye muscle antigens in TAO is low, and that several candidate orbital antigens, including the 64-kD protein 1D3, are unlikely to be important T cell autoantigens in this condition.

Reduced activation of suppressor T lymphocytes by specific antigens in autoimmune thyroid disease

In order to study the activation of suppressor T lymphocytes by thyroid-specific antigens in autoimmune thyroid disease (AITD), we have investigated the effects of the organ-specific antigens, thyroperoxidase (TPO), thyroglobulin (Tg), and thyroid microsomal antigen (TMc), as well as renal microsomes (RMc) as a control antigen, on the activation of suppressor T lymphocytes; this was accomplished by measuring major histocompatibility complex class II (HLA-DR) expression on their surfaces by flow cytometric analysis. Peripheral blood mononuclear cells (PBMC), obtained from 33 patients with Graves' disease (GD), 26 with Hashimoto's thyroiditis (HT), 5 with nontoxic nodular goiter (NTG), and 30 normal persons (N), were cultured for 7 days in the presence or absence of TPO, Tg, or RMc at final concentration of 10, 100, and 1000 ng/ml. Cultured cells were stained with fluorescent-conjugated monoclonal antibodies (anti-CD8, anti-CD11b, and anti-HLA-DR), and the activation of CD8+ and CD8+CD11b+ (pure suppressor) T cells by the antigens was analyzed on a flow cytometer. In the absence of antigen, i.e., the autologous mixed lymphocyte reaction (AMLR), CD8+ and CD8+CD11b+ T lymphocytes from patients with GD and HT showed significantly lower activation as compared to N. We measured the Stimulation Index (Sl) of activated T lymphocytes to compare antigen-specific activation between CD8+ and CD8+CD11b+ cells from normal persons and patients. With stimulation of 100 and/or 1000 ng/mL of TPO or Tg, Sl of activated CD8+ cells was significantly (p < 0.05 to 0.01) lower in GD and HT as compared with N.(ABSTRACT TRUNCATED AT 250 WORDS)

Sensitization of T lymphocytes to thyroglobulin and thyroperoxidase in autoimmune thyroid diseases

To investigate T-cell sensitization to thyroid autoantigens in autoimmune thyroid disease (AITD), purified soluble human thyroglobulin (Tg) and thyroid peroxidase (TPO) were used. Peripheral blood mononuclear cells (PBMC) as well as CD8-depleted, CD4-enriched PBMC ("selected" PBMC) from 9 patients with Graves' disease (GD), 13 Hashimoto's thyroiditis (HT) and 10 healthy subjects, were cultured for 6 days with or without varying concentrations (0.1, 1.0 and 5.0 micrograms/ml, respectively) of Tg or TPO and their responses were evaluated using the 3H-thymidine incorporation assay. Total PBMC as well as selected PBMC from GD and HT responded to both TPO and Tg, but normal PBMC did not. This induction was more marked in "selected" PBMC; on the other hand, CD8 depletion did not permit normal PBMC to respond to either antigen. However, reactivity of selected AITD PBMC to Tg differed from that of TPO. Two way analysis of variance showed that the proliferative response was significantly greater with Tg than with TPO, (again particularly notable with the "selected" PBMC) in both GD and HT. There was no difference between control and AITD preparations when an irrelevant (renal microsomal) antigen was employed. Taken together with our previous report that CD4 cells were induced by TPO even when cultured with CD8 cells, it is evident that suppressor CD8 cells do play a role in CD4 cells from proliferating against Tg and TPO; however their function alone or in combination with suppressor-inducer CD4 cells is partially disturbed, so that T cell sensitization to Tg and TPO can be identified in the AITD PBMC.

T cell responses to synthetic TSH receptor peptides in Graves' disease

Twenty-eight peptides, representing the entire extracellular domain of the TSH receptor, were synthesised to investigate which parts of this autoantigen may be targets for the T cell response in Graves' disease (GD). T cells from 11 of 21 controls and 26 of 36 newly diagnosed GD patients proliferated in response to one or more peptides with a stimulation index (SI) of greater than 2.0 (chi 2 = 2.31, P greater than 0.1). The response of patients and controls to any of the individual peptides was also not statistically different. However, individual patients gave high SIs with certain peptides to which controls either gave an absent or very weak response. HLA-DR3 was not associated with any particular response to TSHR peptides. Three out of seven GD patients whose T cells were evaluated before and after treatment showed a response of this kind only early in the course of their disease. Intrathyroidal T cells from four GD patients did not give a consistent proliferative response to pools of five peptides, and depleting peripheral blood T cells of their CD8+ population did not affect the proliferative response. These results indicate that the T cell response to the TSH receptor in GD does not seem to be directed against any one particular epitope on the peptides we have tested which cover the extracellular domain.

T and B cell responses to neutrophil cytoplasmic antigens in systemic vasculitis

The systemic vasculitides (SV) are characterized by the presence of autoantibodies to neutrophil cytoplasmic antigens (ANCA). The role of T cells in SV is uncertain. We studied human and murine T cell responses to human neutrophil cytoplasmic antigens in vitro. T cells from mice immunized with the neutrophil extract showed dose-dependent antigen-specific proliferation, restricted by the MHC class II E molecule. Myeloperoxidase (MPO) was not an important target antigen for murine T cells. Peripheral blood lymphocytes (PBLs) were obtained from 36 patients with SV, 31 before the start of immunosuppressive therapy, and from 11 healthy controls. T cell responses to the neutrophil extract in vitro did not differ between patients and controls: there were only low levels of antigen-specific proliferation, and this could not be amplified by in vitro selection. In 3 patients and 2 normals, PBLs were also tested after the depletion of CD8+ cells; this did not unmask T cell reactivity to neutrophil extract. The lack of demonstrable T cell reactivity to this antigen preparation may indicate that T cells do not play an important effector role in these diseases. A solid-phase spot ELISA was adapted to demonstrate autoantibody-producing B cells in vitro. Low numbers of ANCA-producing B cells could be demonstrated in the majority of patients. B cells producing antibody to MPO could be demonstrated in most patients and in three laboratory staff, but not in normals from outside the laboratory. In 2 patients, sequential B cell spot ELISAs were performed during the introduction of therapy, and autoantibody-producing B cells rapidly decreased in number. This assay may therefore be useful in monitoring the effects of treatment at the cellular level.

T cell responses to synthetic thyroid peroxidase peptides in autoimmune thyroid disease

Sixteen peptides, representing four different extracellular regions of thyroid peroxidase (TPO) predicted to contain a high proportion of potential T cell epitopes, were synthesized to investigate which parts of this autoantigen may be targets for the T cell response in thyroid autoimmunity. Compared with 25 controls, peripheral blood T cells from 23-37% of 30 patients with Graves' disease or autoimmune hypothyroidism were stimulated significantly by three peptides, representing amino acids 415-432, 439-457 and 463-481 of the TPO sequence; T cells from individual patients were also stimulated by several other peptides. These results indicate that the T cell response to TPO is directed against several epitopes which may be recognized by different patients.

Studies of CD4+ (helper/inducer) T lymphocytes in autoimmune thyroid disease: demonstration of specific induction in response to thyroid peroxidase (TPO) in vitro and its relationship with thyroid status in vivo

We have studied by flow cytometric analysis the antigen specific activation of CD4+ (helper/inducer) T lymphocytes by purified human thyroid peroxidase (TPO). Peripheral blood mononuclear cells were obtained from 26 patients with Graves' disease (GD), 16 with Hashimoto's thyroiditis (HT), 7 with nontoxic nodular goiter (NG), and 14 normal subjects (N). Cells were cultured for 7 days in the presence or absence of TPO at final concentrations of 3, 30, and 300 ng/mL. When harvested, cells were reacted with an FITC-conjugated anti-CD4 and a PE-conjugated anti-HLA-DR murine monoclonal antibodies. The percentage of HLA-DR+ CD4+ cells (activated CD4+ cells) was determined by a flow cytometer. In the absence of TPO, CD4+ cells had been activated without any specific stimulant. This is known as the autologous mixed lymphocyte reaction (AMLR). In the AMLR, CD4+ cells from GD and HT were less activated compared to those from NG and N. Results of TPO-specific activation were expressed as an incremental increase of activated CD4+ cells (II) (percentage of activated CD4+ cells cultured with TPO minus percentage of activated CD4+ cells cultured without TPO). II of N, GD, HT, and NG were 0.37 +/- 0.21, 2.20 +/- 0.45,** 2.0 +/- 0.66,* and 0.35 +/- 0.27 (mean +/- SEM), respectively (**p less than 0.01; *p less than 0.05 vs N). When patients were further subdivided, the highest mean II was found in patients with hyperthyroid GD (p less than 0.01), followed by euthyroid HT (p less than 0.05) and euthyroid GD (p less than 0.05), however there was no significant difference between hypothyroid HT and N. In conclusion (1) AMLR reactivity of CD4+ cells from GD and HT was impaired, (2) however, CD4+ cells from both GD and HT were significantly more induced by TPO compared to N, and (3) this induction depends, in part, on the in vivo thyroid status.

Human autoimmune thyroid disease A mechanistic update

Autoimmune thyroid disease refers to a group of common, often familial, disorders of thyroid function, which are associated with disturbances in both cellular and humoral immunity. Current research into autoimmune thyroid disease is characterizing specific target antigens and the cellular and molecular events that lead to tissue-specific immune dysfunction. The thyroid gland is an accessible and useful model for the study of human autoimmune disease. This review highlights some of the more active research areas.