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

Eight representative T lymphocyte clones (TLC) randomly selected from previously described panels of CD4+ housedust mite Dermatophagoides pteronyssinus (Dp)-specific TLC from atopic and nonatopic donors were studied in more detail in a comparative investigation. The TLC from the atopic donors closely resembled murine type 2 Th (Th2) cells by secreting substantial IL-4, IL-5, IL-6, TNF-alpha, and granulocyte-macrophage (GM)-CSF, minimal IFN-gamma, and relatively little IL-2. In contrast, the nonatopic's TLC resembled murine type 1 Th (TH1) cells by secreting substantial IFN-gamma, IL-2, TNF-alpha, and GM-CSF, no IL-4, and little IL-5. A difference with murine Th1 cells was their additional secretion of IL-6. These cytokine profiles were consistent upon stimulation via different activation pathways including stimulation with specific Dp Ag, mitogenic lectins, and antibodies to CD2, CD3, or CD28. The observed differences in IL-2 secretion, however, were most evident upon stimulation with anti-CD28. If TLC cells were cultured with highly purified B cells and stimulated with anti-CD3 in the absence of exogenous IL-4, IgE synthesis was induced only in cultures with the atopics' Th2 clones, which could be completely abrogated by anti-IL-4. The mere presence of exogenous rIL-4, however, did not result in IgE synthesis, nor did unstimulated TLC cells alone. But if unstimulated TLC cells (that proved not to secrete detectable amounts of cytokines) were added together with rIL-4, again IgE synthesis was induced only in cultures with the atopics' Th2 clones, suggesting the involvement of an additional, as yet unidentified accessory helper function of the atopics' Th2 clones for IgE induction. Unstimulated Th2 clones showed a significantly higher expression of CD28 than the Th1 clones, but three days after stimulation, CD28 expression was elevated to comparable levels on both subsets. When added to B cells at this time point, together with rIL-4 and anti-IFN-gamma, still only the atopics' Th2 clones supported IgE synthesis, arguing against a role for CD28 in this accessory helper function. Whereas the atopics' Th2 clones were excellent helper cells for IgE induction, a unique property of the nonatopic's Th1 clones was their cytolytic activity toward autologous APC which could be induced by specific Dp Ag and by anti-CD3. The present data provide clear evidence for the existence of Th1 and Th2 cells in man.
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PMID:Human atopen-specific types 1 and 2 T helper cell clones. 168 Sep 23

In the process of generating culture supernatant from T cell clones, with anti-CD3 antibodies and the B lymphoma A20 as APC, a striking difference in the stimulation of TH1 and TH2 clones was observed, i.e., TH2 clones produced higher levels of lymphokines than TH1 clones. This prompted us to test the hypothesis that differential killing of APC (thus the removal of stimuli) by T cells led to differential T cell activation. By studying a panel of five TH1 and seven TH2 clones, it was demonstrated that TH1 clones mediated significantly higher levels of cytotoxicity toward A20 cells in the presence of soluble anti-CD3 antibody (as opposed to immobilized anti-CD3). Although T cell clones could, when activated with immobilized anti-CD3, produce lymphokines cytotoxic to A20 cells, experiments in which lymphokine production was blocked indicated that T cell clones, in the presence of soluble anti-CD3, mediated killing of A20 through direct cytotoxicity. A higher level of cytotoxicity, by TH1 compared with TH2 clones, was not restricted to anti-CD3 or a particular target cell type, because it also occurred with Con A- or Ag-dependent killing (a monocyte-macrophage cell line), and LPS blasts. Furthermore, the higher cytotoxic activity of TH1 clones compared with TH2 clones was independent of the stage of T cell activation and was unlikely a result of the length of in vitro culture. High levels of killing of APC led to low levels of T cell activation, the significance of which may be as a negative feedback mechanism in the immune response. Other biologic relevancies of higher cytotoxic activity in TH1 vs TH2 cells were also discussed.
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PMID:Heterogeneity in direct cytotoxic function of L3T4 T cells. TH1 clones express higher cytotoxic activity to antigen-presenting cells than TH2 clones. 197 81

Delayed type hypersensitivity reaction (DTH) consists of a sequential cascade of steps depending on different types of T cells, as well as mast cells, endothelial cells and macrophages. Recently it has been shown that CD4+ TH1 lymphocytes ("inflammatory type") play a central role in DTH reaction. Activated TH1 cells produce a characteristic pattern of cytokines: IL-2, IL-3, TNF-beta, IFN-gamma. Using the contact sensitivity (CS) reaction on mice as a model system, the role of cytokines in the regulation of DTH is presented, particularly the significance of IL-3 and IL-6. The recent data can be interpreted to show that IL-6 released by activated macrophages (APC cells) in the induction phase of the CS reaction probably stimulate CD8+ T suppressor cells. These in turn inhibit the production of IL-2 and IL-3 by CD4+ TH1 cells followed by a state of unresponsiveness.
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PMID:Cell-mediated immunity: role of IL-3 and IL-6 in the regulation of contact sensitivity reaction. 209 80

Four regulatory phenomena appear to regulate differentially the activation of TH1, TH2, and CTL clones. First, IFN-gamma selectively inhibits proliferation of TH2 but not TH1 cells; lymphokine production by TH2 cells is not affected by IFN-gamma. In addition, when fresh OVA-specific HTL clones are derived in the presence of rIL-2 TH2 cells are preferentially obtained, whereas TH1 cells predominate if cloning is performed in rIL-2 plus rIFN-gamma. These results suggest that the presence of IFN-gamma during the course of an immune response would result in the preferential expansion of HTL of the TH1 phenotype. Proliferation of CTL clones is not influenced by IFN-gamma. Second, different APC populations appear to differentially activate TH1 and TH2 clones. Purified splenic B cells stimulate optimal proliferation of TH2 but not TH1 cells, whereas macrophage/dendritic cells appear to stimulate optimal proliferation of TH1 but not TH2 cells. Since both APC types stimulate lymphokine production by each of the HTL subsets, these results suggest the existence of TH1- and TH2-specific cofactors for growth. Third, high doses of immobilized anti-CD3 mAb inhibit IL-2-dependent proliferation of TH1 but not TH2 clones. Since this effect appears to require calcium, this observation suggests that TCR-mediated signalling events might differ between the two HTL subsets. Indeed, little or no increase in [Ca++]i can be detected in TH2 clones stimulated with Con-A, while such an increase is easily discernible in TH1 cells. Although high concentrations of immobilized anti-CD3 mAb inhibit IL-2-dependent proliferation of CTL clones, proliferation of these cells in response to immobilized anti-CD3 alone reaches a plateau. Since activation with anti-CD3 is thought to mimic antigenic stimulation, these results suggest that antigen concentration may play a role in determining which predominant T-cell types proliferate in a particular immunological situation. Fourth, pretreatment of TH1 cells, but not TH2 cells or CTL, with IL-2 results in decreased lymphokine production and proliferation in response to subsequent stimulation via the TCR. This antigen-responsive state appears to involve a defect in calcium-dependent signalling, providing additional evidence for different signalling mechanisms in TH1 and TH2 clones.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of T-cell activation: differences among T-cell subsets. 253 16

We have studied the production of IL-2, IL-4 and IFN-gamma by a panel of CD4+ clones produced in our laboratory. The clones were classified as TH1 and TH2 because of their ability to secrete IL-2 or IL-4, respectively, following stimulation with APC + Ag and by their characteristic proliferative responses to exogenous IL-2 or IL-4. Some of the TH2 clones, all of which happened to be autoreactive, produced IL-2 and one of these, as well as one antigen-reactive TH2 clone, also secreted IFN-gamma following stimulation with immobilized anti-CD3 mAb. IL-2 production by TH2 cells required higher concentrations of anti-CD3 mAb than IL-4 production. Thus, the TH2 clones seem to be heterogeneous. We designate the IL-2/IL-4 secretors as TH2B and those making IL-4 as TH2A clones.
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PMID:Production of IL-2 and IFN by TH2 clones. 257 41

Dendritic cells (DC) are a specific subset of APC characterized by the potent ability to activate immunologically naive T cells. We have observed previously that the murine epidermis-derived DC line XS52 undergoes a set of profound changes upon Ag-specific interaction with T cells, including IL-1 beta secretion acquired expression of CD86, and lost expression of CD115 (CSF-1 receptor) and proliferative responsiveness to CSF-1. These changes, which appear to reflect a critical transition during Ag presentation, have been termed T cell-mediated "terminal maturation" of DC, Here we report that XS52 cells also lose their adhesive and phagocytotic capacities during this event. XS52 cells, ordinarily adhere to petri dishes and phagocytose latex heads, as has been reported for DC freshly procured from spleen and skin. Importantly, XS52 cells lose both capacities after 3 to 24 h of incubation with HDK-1 T cells (keyhole limpet hemocyanin-specific TH1 clone) or with 5S8 T cells (dinitrobenzene sulfonate specific Th0 clone) in the presence of Ag. By contrast, incubation with T cells alone or with Ag alone has minimal effects, indicating that this regulation required both T cells and Ag. With respect to mechanisms, several lines of evidence suggest this IFN-gamma, which is secreted by T cells, serves as the primary mediator in down-regulating both capacities. Our observations illustrate a unique mechanism by which responding T cells upon Ag-specific activation by DC, suppress the machinery of Ag uptake through the elaboration of IFN-gamma.
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PMID:T cell-mediated terminal maturation of dendritic cells: loss of adhesive and phagocytotic capacities. 880 31

The iscom is a supramolecular spherical structure, about 40nm in diameter, built up by structure-forming and immunomodulating quillaja triterpenoids, lipids and antigens. Iscoms with a defined quillaja triterpenoid formulation named QH 703 are in human trials. The advantages of using the particulate iscom form of quillaja components are (i) that local reactions at the site of injection can be avoided; a manifold higher dose of quillaja components in iscoms than in free form can be injected without causing side effects; (ii) considerably lower doses of both quillaja components and antigens are required to obtain a certain level of immune response. The iscom particle targets the antigen and adjuvant components to both the endosomal and cytosolic pathways for antigen presentation, resulting in both MHC class I and class II restricted immune responses. Further, iscoms induce APC to produce IL-1, IL-6 and IL-12 and a TH1 type of response with enhanced IL-2 and IFN-gamma production. Iscoms are now constructed to target the mucosal lymphatic systems. Iscoms administered intranasally induce secretory IgA responses in lungs and distant mucosal membranes e.g. in the genital tract.
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PMID:Iscom, a delivery system for parenteral and mucosal vaccination. 955 57

In vivo and in vitro studies have demonstrated the selective regulatory effect that TH1 and TH2 cytokines reciprocally exert in the regulation of the polarization of precursor cells into TH1 or TH2 types. The study of the network relationships between TH1 and TH2 (TH1/TH2) cytokines in healthy subjects could lead to a better understanding of how the physiological network of cytokines regulates the immune response. Such study could lead to gain suggestions for follow-up experiments to create prognostic and diagnostic indices for biotherapeutic treatments of patients. Hence we determined serum levels (environment network) and PBMC production (cellular network) of IL2, IFN gamma, IL4, IL6 and IL10 in the peripheral blood of healthy subjects; these cytokines made up our networks under basic conditions. Both men and women were studied as hormones can influence the polarization of TH1 and TH2 cells. Cytokines within the physiological network function simultaneously so multivariate statistical methods were used to study TH1/TH2 relationships. The use of mathematical modelling is the only effective way of studying the immune system as a whole. The physiological TH1/TH2 network under activation conditions was evaluated by incorporating: sIL2R and sIL6R into the basic environment network model and the production levels of cytokines by PBMC after PHA stimulus, into the basic cellular network model. The influence of APC was evaluated by adding: serum levels of TNF alpha and IL1 beta to the environment network model, and production levels of IFN gamma, IL10 and IL6, after stimulus with LPS, to the cellular network model. Our results led us to hypothesize that the physiological network of TH1/TH2 cytokines regulates TH polarization by means of specific relationships between TH1 and TH2 cytokines, which may be different in men and women. These relationships could be studied experimentally to create prognostic and diagnostic indices for more efficient prevention programs and biotherapeutic treatments of patients.
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PMID:The TH1 and TH2 cytokine network in healthy subjects: suggestions for experimental studies to create prognostic and diagnostic indices for biotherapeutic treatments. 1094 34

T lymphocytes play a decisive role in the course and clinical outcome of viral CNS infection. Summarizing the information presented in this review, the following sequence of events might occur during acute virus infection: After invasion of the host and a few initial rounds of replication, the virus reaches the CNS in most cases by hematogeneous spread. After passage through the BBB, CNS cells are infected and replication of virus in brain cells causes activation of the surrounding microglia population. Moreover, local production of IFN-alpha/beta induces expression of MHC antigens on CNS cells, and microglial cells start to phagocytose cellular debris, which accumulates as a result of virus-induced cytopathogenic effects. Upon phagocytosis, microglia becomes more activated; they up-regulate MHC molecules, acquire antigen presentation capabilities and secrete chemokines. This will initiate up-regulation of adhesion molecules on adjacent endothelial cells of the BBB. Transmigration of activated T lymphocytes through the BBB is followed by interaction with APC, presenting the appropriate peptides in the context of MHC antigens. It appears that CD8+ T lymphocytes are amongst the first mononuclear cells to arrive at the infected tissue. Without a doubt, their induction and attraction is deeply influenced by natural killer cells, which, after virus infection, secrete IFN-gamma, a cytokine that stimulates CD8+ T cells and diverts the immune response to a TH1-type CD4+ T cell-dominated response. Following the CD8+ T lymphocytes, tissue-penetrating, TH1 CD4+ T cells contact local APC. This results in a tremendous up-regulation of MHC molecules and secretion of more chemotactic and toxic substances. Consequently an increasing number of inflammatory cells, including macrophages/microglia and finally antibody-secreting plasma cells, are attracted to the site of virus infection. All trapped cells are mainly terminally differentiated cells that are going to enter apoptosis during or shortly after exerting their effector functions. The clinical consequences and the influence of the effector phase on the further course of the infection depends on the balance and fine-tuning of the contributing lymphoid cell populations. Generally, any delay in the recruitment of effector lymphocytes to the tissue or an unbalanced combination of lymphocyte subsets allows the virus to spread in the CNS, which in turn will cause severe immune-mediated tissue effects as well as disease. If either too late or partially deficient, the immune system response may contribute to a lethal outcome or cause autosensitization to brain-specific antigens by epitope spreading to the antigen-presenting system in peripheral lymphoid tissue. This could form the basis for subsequent booster reactions of autosensitized CD4+ T cells--a process that finally will end in an inflammatory autoimmune reaction, which in humans we call multiple sclerosis. In contrast, a rapid and specific local response in the brain tissue will result in efficient limitation of viral spread and thereby a subclinical immune system-mediated termination of the infection. After clearance of virus-infected cells, downsizing of the local response probably occurs via self-elimination of the contributing T cell populations and/or by so far unidentified signal pathways. However, much of this is highly speculative, and more data have to be collected to make decisive conclusions regarding this matter. Several strategies have been developed by viruses to escape T cell-mediated eradication, including interference with the MHC class I presentation pathway of the host cell or "hiding" in cells which lack MHC class I expression. This may result in life-long persistence of the virus in the brain, a state which probably is actively controlled by T lymphocytes. Under severe immunosuppression, however, reactivation of viral replication can occur, which is a lethal threat to the host.
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PMID:The role of T-cell-mediated mechanisms in virus infections of the nervous system. 1141 37

Granulocyte colony-stimulating factor (G-CSF) is a pleiotropic cytokine playing a major role as regulator of hematopoiesis and innate immune responses. There is growing evidence that G-CSF also exerts profound immunoregulatory effects in adaptive immunity. G-CSF mediates anti-inflammatory reactions accompanied by TH2 cell differentiation and promotes tolerogeneic cell populations at both poles of APC/T cell interaction. These recent findings have highlighted the novel impact of G-CSF in transplantation tolerance and autoimmunity. G-CSF represents a powerful and promising cytokine to promote T cell tolerance in pathological conditions associated with a TH1/TH2 imbalance.
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PMID:The role of G-CSF in adaptive immunity. 1680 60


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