UMLS:C0033036 - FACTA Search

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Query: UMLS:C0033036 (APC)
10,214 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interaction between lymphocytes and the resident hepatic macrophage, the Kupffer cell (KC), is relevant to the phenomenon of immune tolerance to Ags entering the liver. Tolerance to Ag administered via the portal vein can be prevented by the rare earth lanthanide metal, gadolinium (Gd). Therefore, we studied the ability of OVA-responsive, H-2d-restricted Th1 clones to proliferate in response to KCs from DBA/2J (H-2d) mice that had been injected with either saline (control) or a Gd solution. Whereas control KCs functioned as effective APCs, KCs from Gd-injected mice (GdKC) were incapable of sustaining the proliferative response of the Th1 clone to the 16 mer of OVA (323-339). This lack of proliferation was determined not to be caused by impaired Ag processing, but rather was the result of IFN-gamma-stimulated nitric oxide (NO) release by the APC: 1) In vitro addition of the nitric oxide synthase (NOS) inhibitor NG-methyl-L-arginine (NMMA) restored the ability of the Gd-treated KC to stimulate clone proliferation. 2) Additional of anti-IFN-gamma, but not anti-IL-2 or anti-IL-4, prevented the induction of NOS in the Gd-exposed KC and was associated with clone proliferation. 3) IFN-gamma levels from clone-GdKC-OVA cocultures closely paralleled the nitrite released by GdKCs. 4) Only the addition of rIFN-gamma, and not IL-2 or IL-4, to cultures of purified GdKCs resulted in the release of nitrite. The results of the study suggest an autocrine loop initiated by the interaction of the clone's TCR with the class II MHC molecule presenting processed OVA on the surface of KC. This interaction stimulates the Th1 lymphocyte to release IFN-gamma, which in turn induces NO release by KCs isolated from Gd-injected mice. This release of NO blocks Th1 proliferation. Such a feedback loop may have particular relevance to Ag-specific tolerance, which is not only induced by the administration of Ag into the portal vein, but is also prevented by Gd pretreatment of the recipient animal.
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PMID:Outcome of Kupffer cell antigen presentation to a cloned murine Th1 lymphocyte depends on the inducibility of nitric oxide synthase by IFN-gamma. 752 42

Development of T cells during primary responses was investigated using pigeon cytochrome C-specific naive Th from TCR transgenic mice. Naive CD4 cells did not activate and help resting B cells. This failure was found to be primarily because the resting B cells were incapable of stimulating the naive Th. Provision of a costimulatory signal such as anti-CD28, or addition of APCs that express costimulatory molecules, such as dendritic cells, activated B cells, and B7+ and B7+ICAM(+)-expressing fibroblasts, induced naive Th activation and promoted T cell-dependent help for IgM secretion. T cell activation for as little as 24 h promoted helper activity, and Ig secretion required production of small amounts of IL-4 by the activated naive Th. On initial stimulation, naive Th secrete only IL-2. By mRNA analysis, activated naive Th were also shown to produce IL-4, however induction of IL-4 message only occurred 24 h after initial activation and required additional stimulation with Ag. A single exposure of naive CD4 to Ag/APC followed by 4 to 12 days in culture led to generation of effector Th which secreted IL-2 and some IFN-gamma, and no detectable IL-4 or IL-5, and which could only help B cells to IgM secretion. In contrast, similar cultures that received Ag/APC one or more times during this period generated effector cells capable of secreting easily detectable titers of IL-4 and IL-5, as well as IL-2 and IFN-gamma, and able to now promote IgG1 and IgE responses. Generation of these Th0-like effectors was accompanied by increasing amounts of IL-4 secreted during the culture period after each restimulation, and addition of anti-IL-4 in culture inhibited development of the capacity to produce Th2 cytokines. These studies reinforce the notion that naive CD4 must interact with a costimulatory professional APC, rather than a resting B cell, for initiation of the primary response, but show that such an interaction can result in rapid development of the ability to interact with and provide cognate help to B cells. They also suggest that if activated naive CD4 cells receive multiple stimulations from Ag/APC, enough endogenous IL-4 can be produced to drive differentiation into effectors secreting type 2 cytokines. The existence of such an autocrine feedback mechanism suggests that the amount and availability of Ag could influence the nature and polarization of the Th response.
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PMID:Recently activated naive CD4 T cells can help resting B cells, and can produce sufficient autocrine IL-4 to drive differentiation to secretion of T helper 2-type cytokines. 753 67

Male BXSB mice develop lupus-like disease and die early in life (4 to 5 mo) whereas female mice do not. Others have demonstrated that CD4+ cells from male mice support B cell resistance to tolerance induction to human gamma-globulin (HGG). In this study, male and female mice tolerized at 2 mo of age with deaggregated HGG and subsequently immunized with HGG in comparison with mice immunized only were tested for anti-HGG Ab responses. CD4+ cells from draining lymph nodes of these mice were tested in culture for proliferation and production of cytokine mRNA and protein in response to HGG plus APC. Tolerized male but not female mice produced anti-HGG Abs of both the IgG1 and IgG2a isotypes. HGG-stimulated CD4+ cells from immunized male and female mice that were not tolerized produced IL-2, IL-4, IL-5, IFN-gamma, and TNF-beta mRNA as well as IL-2 and IL-4 protein, whereas tolerized, immunized mice of both sexes failed to proliferate or produce either IL-2 or IL-4 or express any cytokine mRNA in response to HGG in vitro. A resistance in tolerance induction in male mice, as determined by anti-HGG Abs, was also observed at 3 mo of age. Although a resistance to tolerance was also seen in terms of proliferation in the 3-mo-old males, production of IL-2 or IL-4 protein was still not observed. Thus, all T cell subsets identified by cytokine expression profiles were tolerized not only from females but also from males, of which the latter appeared to show some resistance to tolerance induction.
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PMID:In vivo tolerance induction and associated cytokine production by subsets of murine CD4+ T cells. 753 93

Self-thyroid epithelial cell (TEC)-reactive CD8+ and CD4+ T cell lines were established by culturing T cells that infiltrate in autoimmune thyroiditis lesions. We investigated the properties of CD8+ T cell lines and clones in comparison with previously characterized CD4+ T cell lines/clones. Although the recognition of self-Ag by anti-TEC CD4+ T cell lines/clones required the cooperation of syngeneic spleen cells as APC, a representative CD8+ line (N4C) was stimulated with syngeneic TEC in the absence of APC. Precise analysis of MHC restriction using N4C-derived clones revealed that CD8+ clones recognize self-Ag on TEC in the context of class I MHC molecules. Most CD8+ clones were also found to express TCR with V beta specificities that were different from those observed for anti-TEC CD4+ clones. N4C cells produced IL-2, IFN-gamma, and TNF-alpha beta, but not IL-4 and IL-5 after stimulation with TEC, thus exhibiting the profile of lymphokine production similar to that expressed by CD4+ Th1 on one hand, but on the other, they showed the functional property that has not been observed for anti-TEC CD4+ clones. Namely, they elicited appreciable levels of cytolytic effects on syngeneic TEC in a short-term (4-h) 51Cr release assay. Thus, these results indicate that self-TEC-reactive CD8+ T cell lines/clones recognize Ag directly on TEC in a class I MHC-restricted way so as to exhibit various functions including the Th1-like profile of lymphokine production and anti-TEC cytolysis. The results are also discussed in terms of the nature of self-Ag presented with class I MHC molecules on TEC, as well as the potential roles of anti-TEC CD8+ T cells in the pathogenesis of thyroiditis.
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PMID:Self-thyroid epithelial cell (TEC)-reactive CD8+ T cell lines/clones derived from autoimmune thyroiditis lesions. They recognize self-thyroid antigens directly on TEC to exhibit T helper cell 1-type lymphokine production and cytotoxicity against TEC. 754 27

The induction of anergy in T cells is believed to be the result of triggering of the TCR in the absence of adequate costimulation mediated through the interaction of CD28 and its ligands, CD80 and CD86. Here, we demonstrate that stimulation of human group I allergen in Dermatophagoides pteronyssinus extract (Der p 1)-specific CD4+ Th2-like T cell clones with Der p 1-derived peptides in the absence of professional APC results in a state of nonresponsiveness. The induction of anergy occurred despite the expression of high levels of CD28, CD80, and CD86 on the surface of the T cell clones and was not prevented by the addition of anti-CD28 mAb. The anergic, Der p 1-specific, Th2 cells failed to mobilize calcium from intracellular stores, to proliferate, and to produce IL-2, IL-4, IL-13, GM-CSF, and TNF-alpha following optimal stimulation with Der p 1-derived peptide and autologous APC. However, they mobilized intracellular calcium following stimulation with Ca(2+)-ionophore and produced all of the above cytokines, including IFN-gamma, when stimulated with phorbol ester and Ca2+ ionophore. These results indicate that the anergic T cell clones are capable of responding to signals circumventing the TCR/CD3 complex activation pathway. In contrast to T cell clones optimally activated with peptide and APC, anergic T cells failed to induce IgG4 and IgE synthesis when cocultured with B cells, even in the presence of exogenous IL-4 or IL-13. Anergic T cells expressed normal levels of CD40L, suggesting that their inability to help in Ig production by B cells is due to conditions other than a lack of expression of this molecule. Finally, exogenous IL-2 restored the helper function of anergic Th2 T cells for IgE production by B cells, which was greatly enhanced by the addition of IL-4 or IL-13. These data suggest that induction of anergy in allergen-specific Th2 T cells by allergen-derived peptides may play an important role in the successful desensitization of allergic patients.
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PMID:Peptide-induced anergy in allergen-specific human Th2 cells results in lack of cytokine production and B cell help for IgE synthesis. Reversal by IL-2, not by IL-4 or IL-13. 759 75

IL-12 influences cytokine synthesis in unprimed CD4+ T cells by enhancing IFN-gamma synthesis and enhancing the development of Th1 cells, but its effects upon Ag-primed T cells, which are thought to have relatively fixed cytokine profiles, is less clear. We investigated the capacity of IL-12 to modify cytokine synthesis in allergen-specific human CD4+ T lymphocytes from allergic donors after in vitro stimulation. CD4+ T cells were obtained from the peripheral blood of subjects with allergic rhinitis, depleted of activated T cells, and cultured with APCs and allergen. IL-12 dramatically inhibited the development of IL-4 and IL-10 synthesis, while it enhanced T cell secretion of IFN-gamma and IL-2, and enhanced Ag-specific T cell proliferation. The inhibitory effect of IL-12 on IL-4 synthesis was not dependent on the presence of IFN-gamma, was greatest when IL-12 was added at the initiation of culture, and was minimal when added late, indicating that resting memory CD4+ T cells were more sensitive than activated CD4+ T cells to the effects of IL-12. The effect of IL-12 on IL-4 and IL-10 synthesis was not dependent on the APC type, because IL-12 decreased IL-4 synthesis when either B cells or monocytes served as APCs. These results indicate that IL-12 may be therapeutically beneficial in the treatment of allergic diseases in which allergen-specific T cells characteristically produce enhanced quantities of IL-4 and IL-10.
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PMID:IL-12 inhibits the production of IL-4 and IL-10 in allergen-specific human CD4+ T lymphocytes. 760 91

Transforming growth factor beta (TGF-beta) exhibits diverse effects on growth and differentiation of a wide range of cell types. In the immune system, TGF-beta 1 is a potent inhibitor of T cell proliferation and certain T cell effector functions. However, TGF-beta 1 also enhances growth of T cells, predominantly of naive phenotype, and induces their expression of selected cytokines. We have previously demonstrated that TGF-beta 1 costimulates growth of highly purified murine CD8+ T cells activated by immobilized anti-CD3 Ab. TGF-beta 1-costimulated CD8+ T cells rapidly express a memory phenotype, lose lytic function, and express a mixed cytokine pattern with IL-2, IFN-gamma, and appreciable IL-10, as well as TGF-beta 1. The present work examines the possibility that TGF-beta 1 similarly costimulates response of murine CD8+ T cells to the microbial superantigen staphylococcal enterotoxin B (SEB) and characterizes their effector and regulatory functions. TGF-beta 1 significantly enhances CD8+ T cell proliferation to SEB in the presence of MHC class II-positive APC and TGF-beta 1-primed CD8+ T cells are enriched for SEB-reactive V beta 8+ TCR expression. TGF-beta 1 priming also up-regulates a memory-like CD45RBlowCD44highMEL-14low phenotype. TGF-beta 1 priming inhibits development of SEB-specific lytic effector function by more than 90%. However, TGF-beta 1-primed CD8+ effector T cells express elevated levels of IL-10 and TGF-beta 1, variable IFN-gamma, and undetectable IL-4. Additionally, they exhibit growth inhibitory effector function of SEB-induced proliferation of other CD4+ and CD8+ T cells. Growth inhibition by TGF-beta 1-primed CD8+ T cells is reversed in part by anti-IL-10 Ab. Thus, in the context of SEB response, TGF-beta 1 promotes the outgrowth and induces the effector function of CD8+ T cells that have the capacity to impair T cell clonal growth.
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PMID:Transforming growth factor beta 1 costimulated growth and regulatory function of staphylococcal enterotoxin B-responsive CD8+ T cells. 760 39

To investigate the role of T cells in drug allergy, we stimulated PBMC from penicillin-allergic patients with reactive penicillin G itself or penicillin G coupled with human serum albumin (BPO-HSA). T cell clones specific for penicillin G or BPO-HSA were established and their phenotype and reactivity to both forms of the beta-lactam were analyzed. T cell clones stimulated by penicillin G were CD4 and CD8 positive, whereas BPO-HSA stimulated the growth of CD4+ T cells. The penicillin G-specific clones were HLA class I or class II restricted and processing was not required as fixed APC could still present penicillin G. In contrast, BPO-HSA has to undergo processing to stimulate BPO-HSA-specific T cell clones. In addition to classical APC, activated MHC class II expressing T cells could also restimulate the penicillin G-specific clones, indicating that various cell types might serve as APC. Penicillin G and BPO-HSA-specific T cell clones produced a heterogeneous cytokine pattern as most clones produced high amounts of IL-2, IFN-gamma, TFN-alpha, and rather variable levels of IL-4 and IL-5. Since no Ag processing was required, penicillin G may stimulate T cells by binding directly to MHC molecules on the cell surface or to their embedded peptide. Alternatively, it may bind to soluble proteins like HSA, which are processed and subsequently presented in an immunogenic form. These different modes of presentation, which elicit a variety of immunological reactivities, may explain the great heterogeneity of the clinical pictures seen in penicillin allergy.
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PMID:Heterogeneous T cell responses to beta-lactam-modified self-structures are observed in penicillin-allergic individuals. 765 Mar 95

The levels of CD45RB expression by HGG-specific CD4+ cells residing in the Ag-draining lymph nodes of HGG-primed CBA/CaJ mice were analyzed. When sorted populations of CD4+, CD45RBhi, and CD4+, CD45RBlo cells were cultured with HGG and Ag-presenting cells, the majority of the proliferative response was found in the CD45RBlo fraction early after in vivo priming (Day 6), and this pattern remained stable through 12 days postpriming. To determine whether this segregation of responsiveness was consistent in other mouse strains, HGG-primed C57BL/6J mice were similarly analyzed. In contrast to findings with the CBA/CaJ strain, the CD4+, CD45RBhi cell fraction obtained from C57BL/6J mice was the predominant responding population early after in vivo priming (Day 6); however, there was a parallel increase in responsiveness of CD4+, CD45RBhi, and CD4+, CD45RBlo cells by Day 12. Thus, there was not a decrease in CD45RBhi expression with a concommitant increase in CD45RBlo expression in CD4+ cells proliferating to HGG. Despite the heterogeneity in CD45RB expression by the primed CD4+ cells of the two strains, the entire proliferative response to HGG early after priming resided in the fraction bearing high levels of membrane CD44, thus arguing for the existence of CD45RBhi, CD44hi and CD45RBlo, CD44hi cells during the early phase of the response. In both mouse strains the CD4+, CD45RBhi subset of primed lymph node cells produced significant levels of IL-2 in response to HGG and APC, whereas no significant IL-2 or IL-4 production was detectable in HGG-stimulated CD45RBlo cells of either strain. The CD4+, CD45RBhi subset also proliferated more vigorously in response to polyclonal activation than the CD4+ CD45RBlo fraction. To examine whether the patterns of CD45RB expression on HGG-primed cells from C57BL/6J mice were common to other antigens, the response profiles were examined after in vivo priming with a second antigen, KLH. In contrast to studies with HGG as the Ag, the proliferative response to KLH in C57BL/6J mice was evenly divided among the CD45RBhi and CD45RBlo fractions on Day 8 after priming, but shifted markedly to the CD45RBlo fraction by Day 12 after priming. Taken together, these data show that the patterns of CD45RB expression on primed populations of CD4+ cells can exhibit mouse strain polymorphism and can differ depending on the choice of antigen for immunization.
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PMID:The expression of CD45RB on antigen-responsive CD4+ lymphocytes: mouse strain polymorphism and different responses to distinct antigens. 768 27

The direct effects of IL-10 on the proliferation and lymphokine production of human peripheral blood T cells and CD4+ T cell clones representing the Th0, Th1-like, and Th2-like Th cell subsets were investigated in the absence of professional APC. IL-10 partially inhibited the proliferative responses of CD4+ human T cell clones induced by anti-CD2 or anti-CD3 mAb cross-linked on CD32 (Fc gamma RII)-transfected mouse L cells. Transfection of ICAM-1 or LFA-3 in CD32+ L cells resulted in enhanced proliferative responses of CD4+ T cell clones after activation by anti-CD3 mAb, whereas transfection of B7 in CD32+ L cells enhanced proliferative responses of CD4+ T cell clones after activation by anti-CD2 mAb. In addition, B7 expression on CD32+ L cells was required for activation of small resting T cells by anti-CD3 or anti-CD2 mAb. IL-10 inhibited the proliferation of T cell clones induced by anti-CD2 or anti-CD3 mAb on CD32+ L cells expressing these accessory molecules, indicating that interactions of LFA-3, ICAM-1, and B7 with their ligands on T cells did not overcome the inhibitory effects of IL-10. Inhibition of proliferation of T cell clones by IL-10 was in all instances completely neutralized by relatively low concentrations of IL-2, whereas IL-4 was ineffective. IL-10 did not affect the expression of the TCR/CD3 complex, CD2, LFA-1, CD28, or IL-2R alpha- or beta-chains, nor did it inhibit the induction of the latter two molecules on T cells after activation. Inhibition of proliferation was found to be the result of specific inhibition of IL-2 production by the responding T cell subsets, which occurred at the mRNA level. The production and mRNA levels of IL-4, IL-5, IFN-gamma, and granulocyte/macrophage-CSF were not affected by IL-10. Taken together, these results indicate that IL-10/IL-10R interaction on CD4+ T cell clones and peripheral blood T cells results in signaling pathways that specifically interfere with activation processes leading to IL-2 production. These direct inhibitory effects on IL-2 production by activated T cells may contribute to the general immunosuppressive activities of IL-10.
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PMID:Direct effects of IL-10 on subsets of human CD4+ T cell clones and resting T cells. Specific inhibition of IL-2 production and proliferation. 768 12

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