Studies on the immunoregulation of thyroid autoantibody production in vitro.

The spontaneous production (without mitogen or antigen) of antithyroglobulin and antimicrosomal antibodies by peripheral (PBL) and thyroid-derived lymphocytes from patients with Hashimoto's thyroiditis (HT) has been studied with particular emphasis on the regulation of this phenomenon. Based on studies of DNA and protein synthesis, kinetic studies and B/T reconstitution experiments, in most HT patients, spontaneous production by PBL is accounted for by secretion of preformed antithyroglobulin (termed Type 1 patients), whereas active production is observed in a small minority (termed Type 2). In none of 24 HT patients could active antimicrosomal antibody production by PBL be detected. Conversely, thyroid-derived lymphocytes produced both autoantibodies by an active process. Pokeweed mitogen (PWM) stimulation enhanced antibody production by PBL in the Type 1 group but not in Type 2 or thyroid-derived lymphocytes. T lymphocytes were required for antibody synthesis in both thyroid antigen-driven and peripheral PWM-driven cultures. By separating T lymphocytes into T4+ (helper) and T8+ (suppressor) subsets with monoclonal antibodies, T-cell modulation of autoantibody production in both systems was studied. In a PWM-induced system, both thyroid and peripheral T-cell subsets were capable of modulating peripheral antibody production. In the thyroid lymphocyte antigen-specific system, further addition of thyroid derived T8+ cells alone caused partial suppression of antibody production but not with peripheral T8+ cells. Of interest was the partial decrease of antibody production by the thyroid lymphocytes by added peripheral T4+ cells. The fact that the production of thyroid autoantibodies by thyroid-derived mononuclear cells (which included T suppressor, T helper and B lymphocytes) could be reduced by the addition of more suppressor T lymphocytes suggests that an antigen-specific defect in the T4+/T8+ thyroid cell balance may account for the in vivo production of these antibodies in patients with Hashimoto's thyroiditis.     

Non-antigen specific CD8+ T suppressor lymphocytes

Abstract. The homeostasis of peripheral immune system function is maintained by the activity of regulatory lymphocytes. Among these cells, a subset of CD8+CD28- T suppressor lymphocytes has recently been characterized for the capacity to mediate their effects without antigen restriction. These non-antigen-specific CD8+ T suppressor lymphocytes originate from circulating CD8+CD28- T lymphocytes after stimulation with interleukin-2 and interleukin- 10. CD8+ suppressor cells inhibit both antigen-specific CD4+ T cell proliferation and cellular cytoxicity through secretion of cytokines such as interferon-, interleukin-6, and interleukin-10. The function of CD8+ suppressor cells is impaired in patients with systemic lupus erythematosus in relapse as well as in patients with systemic sclerosis with disease progression, suggesting the involvement of CD8+ suppressor cells in the pathogenesis of autoimmune diseases. Interestingly, CD8+ suppressor cells have been found among tumor-infiltrating lymphocytes, which could be related to tumor-induced-immunosuppression. Failure to generate CD8+ suppressor cells from the peripheral blood is frequently observed in HIV-infected patients. It remains to be clarified whether this phenomenon is due to depletion and/or functional impairment of this cell subset or to their compartmentalization in peripheral tissues and immunocompetent organs where they could contribute to the induction of immunodeficiency.     

In vitro generation of adherent mononuclear suppressor cells to Toxoplasma antigen.

Adherent mononuclear cells have been found to suppress the lymphocyte proliferation, of T lymphocytes of patients with various chronic infections, to pathogen-specific antigens. To explore mechanisms involved in the generation of these suppressor cells, we established an in vitro method for the generation of suppressor-adherent mononuclear cells. Adherent mononuclear cells separated from mononuclear cells from subjects with serological evidence of chronic Toxoplasma infection could be induced, by preincubation with Toxoplasma antigen for 8 days, to suppress the proliferative response to autologous mononuclear cells to Toxoplasma antigen (TA) (mean suppression = 47%) and tetanus toxoid (TT) (mean suppression = 39%) compared to the proliferative response of autologous mononuclear cells co-cultured with no antigen. When adherent cells were removed after 1-day culture there was no significant suppression of the lympho-proliferative response to TA or TT. Induction of the adherent suppressor cell depended on the presence of CD4-positive T cells and not CD8-positive T cells. Adherent suppressor cells acted directly on the proliferative response of CD4 cells to antigen. The adherent cells contained 90 +/- 5% esterase-positive cells. In cell-mixing experiments, equal numbers of CD8-positive T cells pretreated in a similar manner did not have a suppressive effect. However, pretreated CD4-positive cells did have a suppressive effect at higher concentrations of cells than found in the adherent cells. Indomethacin did not alter the suppressive effect. These studies demonstrate the induction of adherent suppressor cells in vitro and implicate the macrophage and CD4-positive T cells as the suppressor cells.     

Copulsing tumor antigen-pulsed dendritic cells with zoledronate efficiently enhance the expansion of tumor antigen-specific CD8+ T cells via Vgamma9gammadelta T cell activation

We demonstrate that Vgamma9gammadelta T cells activated by zoledronate can link innate and acquired immunity through crosstalk with dendritic cells (DCs) in a way that can amplify activation and proliferation of tumor antigen-specific CD8+ T cells. DCs pulsed with antigen alone or antigen plus zoledronate were used to stimulate the in vitro expansion of antigen-specific CD8+ T cells. MART-1-modified peptide (A27L peptide) and apoptotic HLA-A*0201-positive, MART-1-positive JCOCB tumor cell lines were used as tumor antigen sources. The percentage of A27L-specific CD8+ T cells within the responding lymphocytes on Day 7 when immature DCs (imDCs) were cultured in the presence of A27L peptide and 0.01 microM zoledronate was significantly higher (P=0.002, n=11) than that observed when imDCs were cultured with the lymphocytes in the presence of the A27L peptide alone. This enhancing effect of zoledronate was significantly reduced when gammadelta T cells were depleted from responding lymphocytes (P=0.030, n=5), indicating that the effect is mediated mainly through Vgamma9gammadelta T cells activated by zoledronate-pulsed imDCs. When imDCs copulsed with zoledronate and apoptotic JCOCB tumor cell lines were used, the percentage of A27L-specific CD8+ T cells was higher than that observed using imDCs with the apoptotic JCOCB lines alone, suggesting that zoledronate treatment of imDCs enhances the cross-presentation ability of DCs. These findings suggest a potentially valuable role for Vgamma9gammadelta T cell activation for expanding antigen-specific CD8+T cells using DCs copulsed with tumor antigen and zoledronate in the design of vaccine therapies for malignancy.     

Activation of CD8+T Lymphocytes in Insulin-Dependent Diabetes Mellitus

Insulin-dependent diabetes mellitus (IDDM) is a T-cell-mediated autoimmune disease directed against the insulin-secreting β cells of the islets of Langerhans of the pancreas. We have previously shown that in organ-specific autoimmune diseases, Graves’ disease (GD), and IDDM, the antigen that is specific for each of these disorders (i.e., TSH receptor for GD, glutamic acid decarboxylase-65 (GAD65) for IDDM) does not activate the disease-specific CD8⁺cells as fully as CD8⁺cells from normal persons. In order to identify the specific antigen responsible for triggering or maintaining autoimmunity in patients afflicted with the disease, we have studied the effects of islet (β) cell-specific antigens GAD65, insulin, pancreatic antigen (P69), T cell epitope 69 (Tep69), and a milk-derived bovine serum albumin (BSA)–peptide–ABBOS (pre-BSA positions 157–169) on the activation of CD8⁺T lymphocytes in IDDM patients. We compared the patterns of T cell activation with those mediated by an irrelevant peptide antigen, P348 (amino-terminal region of human cardiac myosin light chain-1), and also tetanus toxoid. We also studied the responses of CD8⁺T lymphocytes to these IDDM-relevant and -irrelevant antigens in Hashimoto's thyroiditis patients (HT), rheumatoid arthritis patients (RA), and normal control subjects (N) to compare the pattern of responses in the other autoimmune diseases. Activation of lymphocytes was monitored by measuring the expression of the activation molecule–major histocompatibility complex class II antigen (HLA–DR) on the surfaces of CD8⁺T lymphocytes by flow cytometry. Peripheral blood mononuclear cells (PBMC) obtained from 14 patients with IDDM, 14 N, 14 with HT, and 13 with RA were cultured for 7 days in the presence or absence of antigens. The stimulation index (SI) of activation of the lymphocytes was determined. When the response of CD8⁺T lymphocytes of IDDM patients to each of the IDDM-relevant antigens was compared to that of the irrelevant antigen, only GAD65 and ABBOS showed a significantly reduced activation compared to P348 and tetanus toxoid. Other relevant antigens, insulin, P69, and Tep69, did not show any significant differences in their SI compared to those of the irrelevant antigens. In the N, HT, and RA groups, there was no significant difference in the SI of the responses of CD8⁺cells to any of the relevant antigens compared to that of the irrelevant antigens. Moreover, CD8⁺T lymphocytes of IDDM patients showed a significantly lower activation by GAD65 than those from N, HT, and RA. In conclusion, our data suggest that CD8⁺T lymphocytes of IDDM patients but not those from N, HT, and RA groups have specifically reduced potential for activation in response to GAD65 but not to insulin, P69, and Tep69, whereas ABBOS exerts a less well-defined reductive effect on the activation of CD8⁺lymphocytes of IDDM patients. Since CD8⁺cells have been shown to contain suppressor activity, our data support the notion that a disease-specific defect in GAD65 autoantigenic induction of suppressor T lymphocytes may be important in the pathogenesis of IDDM.     

Induction of in vitro autoimmune responses by mononuclear blood cells in Hashimoto''s thyroiditis.

T cell proliferative responses were generated in vitro in lymphocytes from Hashimoto's thyroiditis (HT) patients using antigen presenting cells (APC) separated by fibronectin adherence and culture in serum free medium (SFM). HT cells were found to respond to the heterologous antigen, keyhole limpet haemocyanin (KLH), as well as to the homologous antigens thyroglobulin (Tg), myelin basic protein (MBP), myoglobin (Mb), and sarcolemma (Sl). Positive responses were dependent upon gamma-interferon, interleukin 1, and interleukin 2. The ratio of HT T helper/inducer cells to T suppressor/cytotoxic cells was elevated at the inception of culture, and further increased during the 9 day culture period. Our data show a generalized defect in self-tolerance by HT T cells which may have been revealed by preincubation of antigen with restricted numbers of APC and subsequent culture in SFM.     

CD8+ T suppressor cells are back to the game: are they players in autoimmunity?

The CD8+ T suppressor lymphocytes identified in humans belong to three different subpopulations. All of them inhibit the proliferation of antigen-specific T cells. The type 1 and type 2 of CD8+ T suppressor cells are characterized by the CD8+CD28- phenotype, while no detailed data are available at the moment on the phenotype of the type 3 of CD8+ T suppressor cells. The type 1 of CD8+ suppressor T lymphocytes acts by inducing alteration of expression of co-stimulatory molecules on dendritic cells. A cell-to-cell contact is required to mediate this effect. The type 2 of CD8+ T suppressor cells induces inhibition via cytokine secretion (IFNgamma, IL6) and do not need to interact directly with antigen presenting cells. The type 3 of CD8+ T suppressor cells mediates its function through the secretion of IL10. The complexity and multiplicity of CD8+ T suppressor cell subsets suggests that these cells may have an important role in the regulation of the immune homeostasis, acting together with the CD4+ T regulatory cell subpopulations. The specificity of the functions of each of these suppressor/regulatory subsets in the immune network requires to be clarified to better understand the immune system, its functions and the possibilities to modulate its activities in the course of immune-mediated diseases.     

Nonantigen specific CD8+ T suppressor lymphocytes originate from CD8+CD28- T cells and inhibit both T-cell proliferation and CTL function

Nonantigen specific CD8+ suppressor T lymphocytes (CD8+ Ts) inhibit T-cell proliferation of antigen-specific T lymphocytes. The impossibility to generate in vitro these cells has been correlated with the appearance of relapses in patients affected by autoimmune diseases, suggesting the involvement of these cells in immune regulation. This study was aimed to identify circulating precursors and to characterize the phenotype and mechanism of action of CD8+ Ts. We found that CD8+ Ts can be generated in vitro from CD8+CD28- T lymphocytes, but not from CD8+CD28+ T cells. A key role in their generation is played by monocytes that secrete interleukin-10 (IL-10) after granulocyte macrophage-colony-stimulating factor (GM-CSF) stimulation. Cell-to-cell direct interaction between CD8+CD28- T cells and monocytes does not play a role in the generation of CD8+ Ts. CD8+ Ts have a CD45RA+, CD27-, CCR7-, IL-10Ralpha+ phenotype and a TCR Vbeta chain repertoire overlapping that of autologous circulating CD8+ T cells. This phenotype is typical of T lymphocytes previously expanded due to antigen stimulation. Their suppressive effect on T-cell proliferation targets both antigen presenting cells, such as dendritic cells, and antigen-specific T lymphocytes, and is mediated by IL-10. CD8+ Ts suppress also the antigen-specific cytotoxic activity of CTL decreasing the expression of HLA class I molecules on target cells through IL-10 secretion. These findings can be helpful for the better understanding of immune regulatory circuits and for the definition of new pathogenic aspects in autoimmunity and tumor immunology.     

Intra-epithelial lymphocytes and non-lymphoid cells in the human nasal mucosa

Immunohistochemical staining of biopsy specimens was used to investigate the occurrence of lymphocyte subsets and non-lymphoid cells within the epithelial layer of the human nasal mucosa. The CD19 (B cell) marker was not expressed on the intra-epithelial lymphocytes, whereas the pan T cell marker CD2 was varyingly detected. The HLA-Dr antigen was abundantly present on epithelial cells, lymphocytes, and non-lymphoid cells. The latter are probably dendritic or Langerhans' cells. The findings stated above were the same in patient and control samples. In biopsy sections of 9 ear, nose, and throat patients, many CD8-positive (T suppressor/cytotoxic) cells and very few weakly stained CD4-expressing (T helper/inducer) cells were present. Quantification on single-cell preparations showed an average of 67% of the lymphocytes to be CD2 positive, 73% to be CD8 positive, while only 12% of the lymphocytes expressed the CD4 antigen. In control sections CD8 was similarly present as in patient sections, and, in addition, some clearly stained CD4-positive cells were seen.     

Conservation of characteristics and functions of CD4 positive lymphocytes in a teleost fish

The presence of helper and cytotoxic T cells in fish has been suggested, although T cell subsets have yet to be identified at the cellular level. In order to investigate the functions of CD4 and CD8α positive T cells we attempted to produce and characterize monoclonal antibodies (mAbs) against teleost CD4 and CD8α. Here we report the successful production of mAbs against CD4 and CD8α in clonal ginbuna crucian carp Carassius auratus langsdorfii and the function of CD4 positive T cells. In this study we demonstrate the presence of teleost CD4- and CD8α-positive T cell subsets with morphology, tissue distribution and gene expression similar to those of mammalian CD4- and CD8-positive T lymphocytes. Using mAbs we found that CD4/CD8 double positive T cells are only present in the thymus, suggesting that it is the site of T cell development. We further demonstrated in vitro proliferation of CD4 positive T cells by allogeneic combination of mixed leukocyte culture and antigen-specific proliferation of CD4 positive T cells after in vitro sensitization with OVA. In our previous study we showed that CD8α-positive lymphocytes are the primary cell type showing specific cytotoxicity against allogeneic targets. Collectively, these findings suggest that CD4 and CD8α positive T cells in ginbuna are equivalent to helper and cytotoxic T lymphocytes (CTL) in mammals, respectively. This is the first report to show the characteristics and functions of CD4 positive T cells in fish and these findings shed light into the evolutionary origins and primordial functions of helper T cells.     

Characterization of lymphoid cells in the thyroid of patients with Graves'' disease.

The distribution and function of lymphoid cells has been investigated in thyroid glands obtained at operation from 16 patients with Graves' disease (GD) using a peroxidase technique to enumerate total T and B lymphocytes as well as helper and suppressor T cell subsets in tissue sections. A spectrum of lymphocytic infiltration was observed and the increase from minimal numbers of immune cells in some GD thyroids to focal thyroiditis in others appeared to be due to a rise in all the lymphoid cell types analysed and was not the result of major change in any one lymphoid compartment. T cells were diffusely distributed whereas B cells tended to occur in aggregates. Small numbers of OKT6+ cells (possibly antigen presenting cells) were observed although these were less numerous than in lymphoid organs such as tonsil. Lymphoid cell suspensions prepared from the thyroid tissue of five of seven GD individuals treated pre-operatively with propranolol synthesized thyroid autoantibodies spontaneously in culture and this synthesis was decreased in the presence of pokeweed mitogen. Since the OKT8+ T cell subset has been shown to suppress immunoglobulin production by lymphocyte cultures containing mitogen, it appears that the suppressor T cells, which are readily demonstrable in GD thyroid sections, are functional. It seems unlikely, therefore, that a defect in this type of suppression is responsible for the initiation or perpetuation of the autoimmune response to thyroid antigens in GD.     

Induction of suppressor cells by Mycobacterium paratuberculosis antigen in inflammatory bowel disease.

We studied the M. paratuberculosis-induced proliferation and suppressor cell generation by peripheral blood lymphocytes from patients with inflammatory bowel disease. Peripheral blood lymphocytes were separated from 33 patients with Crohn's disease, 18 with ulcerative colitis, nine with other intestinal diseases, and five with autoimmune disorders. Proliferation of peripheral blood lymphocytes from normal individuals in response to 10 micrograms/ml of M. paratuberculosis antigen was reduced by depletion of CD4+ T cells. The ability of M. paratuberculosis antigen to suppress concanavalin A-induced proliferation (expressed as a percentage suppression) was reduced by depletion of CD8+ T cells. This suppression was the same whether peripheral blood lymphocytes were from normal individuals, patients with intestinal diseases other than inflammatory bowel disease, or patients with autoimmune disorders (47 +/- 14%, 44 +/- 24%, and 30 +/- 26%, respectively). In contrast, the suppression induced by M. paratuberculosis for patients with Crohn's disease and ulcerative colitis (66 +/- 22% and 67 +/- 22%) was much greater than that for normal individuals (P less than 0.001). In particular, lymphocytes from patients with active Crohn's disease demonstrated little proliferation in response to this antigen but marked suppressor activity (79 +/- 13%). How the immunomodulatory effects of this antigen relate to the pathogenesis of the inflammatory bowel diseases remains to be determined.     

Single-cell analysis of intrathyroidal lymphocytes shows differential cytokine expression in Hashimoto's and Graves' disease

Most human organ-specific autoimmune diseases such as Hashimoto's thyroiditis (HT) are considered to be Th1 mediated, and a quantitative dominance of Th1 cells in thyroid infiltrates from both Graves' disease (GD) and HT affected glands has been reported. However, Th2 dominance would be expected in GD, where thyroid hyperfunction induced by stimulating antibodies predominates over tissue destruction. We have analyzed the interleukin-4 (IL-4), interferon-γ (IFN-γ) production by T cells at the single-cell level, both in infiltrating lymphocytes isolated from digested GD and HT thyroid glands and in derived T cell lines, by direct intracellular cytokine detection. Results showed a heterogeneous pattern of cytokine production in bulk GD infiltrates and derived T cell lines, and a similar pattern was observed in the much larger HT infiltrates. Both type 1 and type 2 cytokines were simultaneously produced by the infiltrating populations, and T cells with both patterns as well as intermediate patterns similar to ThO cells could be detected ex vivo. However, the larger T lymphocytes, presumably activated and responsible for the autoimmune damage, predominantly produced IL-4 in GD and IFN-γ in HT. The specificity of the Th2 responses in GD was suggested by the enrichment in IL-4 production after antigen-specific expansion of two oligoclonal T cell lines. These data show that both type 1 and type 2 cytokines are produced in the thyroid glands affected by autoimmunity and that the difference between diseases may be the effect of a functionally dominant population at a given time. This in vivo chronically activated antigen-specific population, producing type 1 or type 2 cytokines locally, may be responsible for the effect finally leading to one of the disease states.     

Enhanced production of gamma-interferon by thyroid-derived T cell clones from patients with Hashimoto''s thyroiditis.

T lymphocytes from thyroid infiltrate and peripheral blood (PB) of four patients with Hashimoto's thyroiditis (HT) were analysed at clonal level for their ability to secrete interleukin 2 (IL-2) and gamma-interferon (gamma-IFN). As controls, T cell clones from PB of four normal donors and from spleen of two trauma victims were used. While no abnormality was found in the capacity to produce IL-2, the proportion of gamma-IFN-producing (IFN-P) T cell clones derived from HT infiltrates was significantly higher (P less than 0.0005) than that of IFN-P clones derived from normal or patient PB. Most of CD4+ and CD8+ IFN-P clones from thyroid infiltrates, as well as a proportion of CD4+ PB-derived clones of patients with HT, released higher amounts of gamma-IFN than control clones. A relationship could be demonstrated between high gamma-IFN production and natural killer (NK) activity in T cell clones from thyroid and PB of HT patients. In fact, the percentage of IFN-P clones with NK potential (NK+) was remarkably higher (P less than 0.0005) in thyroid infiltrates than in normal spleen or PB. The proportion of IFN-P NK+ clones from patient PB was also significantly increased (P less than 0.02) but, unlike thyroid-derived clones in which the majority of IFN-P NK+ clones were CD8+, most PB-derived IFN-P NK+ clones from the same patients expressed the CD4+ phenotype. Almost all thyroid NK+ clones could be triggered to produce more gamma-IFN, while gamma-IFN synthesis by NK-negative thyroid clones was comparable to that of control clones. In view of the multiple effects ascribed to gamma-IFN in the cascade of events leading to immune responses, the abnormal potential to gamma-IFN secretion shown by intrathyroidal T lymphocytes may be of importance in the pathogenesis of autoimmune thyroiditis.     

Proliferation of T8-positive cytolytic T lymphocytes in response to thyroglobulin in human autoimmune thyroiditis: analysis of cell interactions and culture requirements

These experiments were designed to analyze the involvement of T-lymphocyte subpopulations in autoimmune thyroid disorders such as Graves' Disease (GD) and Hashimoto's Disease (HD). In a first set of experiments, lymphocytes isolated from thyroid infiltrates or from peripheral blood of GD and HD patients were analyzed for the expression of various surface antigens. While HLA-DR + T cells were numerous among thyroid infiltrating T lymphocytes in both groups of patients, the proportions of T8 + cells (as defined by their reactivity with the B 9.4 monoclonal antibody specific for T8 surface molecule) were strikingly different in HD and GD. In the latter group of patients only 19% of infiltrating T cells were T8 +, whereas these cells represented approximately 50% in four HD patients. Given the previous demonstration that all T cells expressing T8 antigen are cytolytic T lymphocytes (CTL) or their precursors (CTL-P) in conjunction with the fact that lymphocytes from HD or GD patients are known to proliferate in vitro in response to human tg (Htg), we further analyzed the T-cell subset(s) responsible for in vitro proliferation to Htg. In these experiments, peripheral blood T lymphocytes purified from patients with GD or HD were cultured with 1 microgram/ml Htg and irradiated autologous T-depleted mononuclear cells as the source of antigen presenting cells (APC). The proportions of T8 + cells declined considerably during culture in GD patients, but at Days 6 to 9, T8 + cells represented as much as 51% of cultured T lymphocytes from patients with HD. Moreover, the majority of T8 + cells were medium-large size lymphoblasts. Removal of Htg at Day 6 resulted in both abrogation of proliferative responsiveness and in decreases of T8 + percentages. Further analysis of the cell interactions leading to T8 + cell proliferation in response to Htg showed that helper/inducer T cells, as defined by 5/9 antigen expression, were strictly required. Collectively, these features are reminiscent of the T-cell involvement in experimental autoimmune thyroiditis of mice and stress for the first time the potential role of CTL in tissue damage occurring in Hashimoto's thyroiditis.     

Suppressor activity of anergic T cells induced by IL-10-treated human dendritic cells: association with IL-2- and CTLA-4-dependent G1 arrest of the cell cycle regulated by p27Kip1

We have previously shown that human IL-10-treated dendritic cells (DC) induce an antigen-specific anergy in CD4+ T lymphocytes. These anergic T cells are characterized by an inhibited proliferation, a reduced production of IL-2, and additionally display antigen-specific suppressor activity. In this study we investigated the mechanisms underlying the anergic state and regulatory function of these T cells. We did not observe enhanced rates of programmed cell death of anergic CD4+ suppressor T cells compared to T cells stimulated with mature DC. Cell cycle analysis by DNA staining and Western blot experiments revealed an arrest of anergic CD4+ T suppressor cells in the G1 phase. High levels of the IL-2-dependent cyclin-dependent kinase (cdk) inhibitor p27Kip1 were found in anergic CD4+ suppressor T cells resulting in an inhibited activation of retinoblastoma protein and an arrest of cell cycle progression in the G1 phase. Addition of IL-2, but not blocking of the CTLA-4 pathway restored the proliferation of the suppressor T cells. In contrast, both treatments induced a down-regulation of p27Kip1 and acomplete inhibition of the antigen-specific regulatory function as demonstrated by high proliferation and enhanced IFN-gamma production of co-cultured T cells. Further experiments demonstrated that p27Kip-expressing regulatory CD4+CD25+ T cells did not contribute to induction of T cell anergy in this model. Our data show that regulatory function of anergic CD4+ suppressor T cells is associated with an arrest in the G1 phase of the cell cycle mediated by increased levels of the IL-2- and CTLA-4-dependent cdk inhibitor p27Kip1.     

Immunological studies of autoimmune thyroid disorders: abnormalities in the inducer T cell subset and proliferative responses to autologous and allogeneic stimulation

Various immunological parameters were investigated in patients with Hashimoto's thyroiditis (HT) and Graves' disease (GD). The total T cell numbers were significantly decreased in both diseases whether they were enumerated by E rosetting or by pan-T cell monoclonal antibodies (OKT3 and anti-Leu 1). This diminution was due to a loss in the inducer T cell subset (OKT4+/Leu 3a+) whereas the cytotoxic/suppressor T cells (OKT8+/Leu 2a+) were present at normal levels in both diseases. The B cells were significantly higher in GD patients than in controls but were not modified in HT patients. Monocyte percentages remained unchanged and DR+ cells were slightly increased in the two diseases. On the other hand, T lymphocyte responses to stimulation by autologous or allogeneic cells were significantly impaired in GD but not in HT whether cultures were performed in autologous plasma or AB serum. In addition, lymphocytes from normal subjects were unable to proliferate in auto- or allo-MLR in the presence of plasma from GD patients but they were reactive in the presence of HT plasma or AB serum. Taken together, these results suggest that the patients with autoimmune thyroid disorders exhibit a T cell imbalance within the OKT4+/Leu 3a+ subset. Moreover, this abnormality is correlated with the observation that autoreactive and alloreactive cells are defective in GD.     

Effects of interleukin-15 on in vitro human T cell proliferation and activation.

Interleukin-15 (IL-15) has been reported to have many activities on T cell populations, including a potential role in improving antigen-specific proliferation in HIV-1 disease. We tested this response in healthy adults by studying the response of T cell populations after stimulation with medium, tetanus, cytomegalovirus (CMV) antigens in cultures from 21 volunteers. IL-15 caused a dose-dependent increase in medium and antigen-induced proliferation. The expansion was due to CD8>natural killer (NK)>CD4 lymphocytes and memory > naive cells. The IL-15-stimulated CD8 cells had increased levels of the activation markers CD69 and DR. The published CMV-induced expression of CD57 on CD8+ cells was increased in CMV seronegative and seropositive subjects by IL-15. IL-15 appears to be a stimulator of T cell populations in healthy adults and may be useful in settings to enhance nonspecific NK activity or antigen-specific CD8 activity.     

A hereditary immunodeficiency characterized by CD8+ T lymphocyte deficiency and impaired lymphocyte activation.

An unusual form of severe combined immunodeficiency in children from two different families was associated with absence of CD8+ T lymphocytes and normal numbers of CD4+ T lymphocytes that did not respond to stimulation by non-specific mitogens, specific antibodies against T cell receptor or specific antigens. The defect in the CD4+ cells was bypassed by activating agents which are independent of the T cell receptor. The combination of an activation defect and selective depletion of CD8+ T lymphocytes suggests that the defective pathway is important in the differentiation of immature thymocytes as well as the proliferation of mature lymphocytes.     

CD28 co-stimulation via tumour-specific chimaeric receptors induces an incomplete activation response in Epstein-Barr virus-specific effector memory T cells

Expression of tumour antigen-specific chimaeric receptors in T lymphocytes can redirect their effector functions towards tumour cells. Integration of the signalling domains of the co-stimulatory molecule CD28 into chRec enhances antigen-specific proliferation of polyclonal human T cell populations. While CD28 plays an essential role in the priming of naive CD4(+) T cells, its contribution to effector memory T cell responses is controversial. We compared the function of the chRec with and without the CD28 co-stimulatory domain, expressing it in peripheral blood T cells or Epstein-Barr virus (EBV)-specific T cell lines. The chimaeric T cell receptors contain an extracellular single-chain antibody domain, to give specificity against the tumour ganglioside antigen G(D2). The transduced cytotoxic T lymphocytes (CTL) maintained their specificity for autologous EBV targets and their capacity to proliferate after stimulation with EBV-infected B cells. Intracellular cytokine staining demonstrated efficient and comparable antigen-specific interferon (IFN)-gamma secretion by CTL following engagement of both the native and the chimaeric receptor, independent of chimaeric CD28 signalling. Furthermore, tumour targets were lysed in an antigen-specific manner by both chRec. However, while antigen engagement by CD28 zeta chRec efficiently induced expansion of polyclonal peripheral blood lymphocytes in an antigen-dependent manner, CD28 signalling did not induce proliferation of EBV-CTL in response to antigen-expressing tumour cells. Thus, the co-stimulatory requirement for the efficient activation response of antigen-specific memory cells cannot be mimicked simply by combining CD28 and zeta signalling. The full potential of this highly cytolytic T cell population for adoptive immunotherapy of cancer requires further exploration of their co-stimulatory requirements.