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)

Activated CD4+ T cells can be classified into distinct subsets; the most divergent among them may be considered to be the IL-2 and IFN-gamma-producing Th1 clones and the IL-4 and IL-5-producing Th2 clones. Because Th1 and Th2 clones can usually be detected only after several months of culture, we used conditions that modulate the IL-2 and IL-4 production in short term culture. Here we show that freshly isolated and subsequently in vitro-activated CD4+ T cells that were cultured for 11 days with rIL-2 and restimulated showed a IFN-gamma+ IL-2+ IL-3+ IL-4- IL-5- pattern. Because these cells were not capable of providing B cell help for IgG1, IgG2a, or IgE in an APC- and TCR-dependent T-B cell assay, they expressed a phenotype typical for most Th1 clones. In contrast, activated T cells that were cultured for 11 days with IL-2 plus a mAb to CD3 and then restimulated produced a IFN-gamma- IL-2- IL-3+ IL-4+ IL-5+ pattern. These cells were capable of providing B cell help for IgG1, IgG2a, and IgE synthesis and thus presented a phenotype typical for Th2 clones. Similar results were observed when mitogenic mAb to Thy-1.2 or to framework determinants of the alpha beta TCR were used. The induction of Th1- and Th2-like cells did not depend on the relative expression of CD44 or CD45 by the T cells before activation in vitro. Because the incubation of activated T cells with anti-CD3/TCR mAb induced high unrestricted lymphokine production, the latter might be responsible for the Th2-like lymphokine pattern observed after restimulation. To address this point, TCR V beta 8+ and V beta 8- T cell blasts were co-cultured in the presence of mAb to V beta 8. After restimulation, V beta 8+ cells had a IL-4high IL-2low phenotype and V beta 8- cells had a IL-4low IL-2high phenotype. This demonstrates that TCR ligation but not lymphokines alone are capable of inducing Th2-like cells, and this points out a central role for the TCR in the generation of T cell subsets.
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PMID:Central role for TCR/CD3 ligation in the differentiation of CD4+ T cells toward A Th1 or Th2 functional phenotype. 134 89

Splenic CD4+ T cells from BALB/c mice bearing a syngeneic tumor (CSA1M) 2 to 3 wk after the inoculation with CSA1M cells produced IL-2 and macrophage-activating factor upon in vitro cultures. This lymphokine production was achieved without stimulation of these T cells with exogenous stimulating tumor Ag. However, elimination of APC from spleen cells resulted in almost complete abrogation of the capacity of CD4+ T cells to produce IL-2/macrophage-activating factor. The lymphokine production was regained when APC from CSA1M-bearing mice were added back to cultures. APC from normal or another syngeneic tumor (Meth A)-bearing mice failed to regain the lymphokine production. These observations demonstrated that the lymphokines were produced by CD4+ T cells from CSA1M-bearing hosts through their collaboration with APC binding CSA1M tumor Ag in the tumor-bearing state. The lymphokine-producing capacity of whole spleen cells from tumor-bearing mice reached the maximal level around 2 to 3 wk after tumor implantation but gradually decreased with the progress of tumor-bearing stages. Importantly, tumor-bearing stage-related changes were observed in a different fashion in the capacities of anti-CSA1M CD4+ T cells vs CSA1M tumor Ag-binding APC. The capacity of APC increased with the progress of tumor-bearing stages as demonstrated by the stimulation of CSA1M-immunized T cells with APC from different CSA1M-bearing stages. In contrast, the reactivity of anti-CSA1M T cells to APC from a given CSA1M-bearing stage decreased with the tumor-bearing stage. These results demonstrate a stage-related increase tumor Ag-binding APC function, as well as a reciprocal reduction in tumor Ag-responsive CD4+ T cell activity.
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PMID:Tumor-bearing mice exhibit a progressive increase in tumor antigen-presenting cell function and a reciprocal decrease in tumor antigen-responsive CD4+ T cell activity. 134 22

The development of IL-4 synthesis is a critical step in the regulation of immune responses. Our studies focused on the production of IL-4 by CD4+ T cells taken from mice primed with the Ag keyhole limpet hemocyanin (KLH). In vitro stimulation of such CD4+ T cells with KLH resulted in little or no IL-4 production in the first 24 h of stimulation, indicating that little IL-4 synthesis persists in vivo after immunization. However, IL-4 was generated later at 24 to 96 h of in vitro stimulation, indicating that the potential to produce IL-4 was retained by the KLH-primed CD4+ T cells, but that in vitro maturation of the T cells was required before initiation of IL-4 production. The amount of IL-4 produced in vitro by KLH-primed T cells from BALB/c mice was influenced by several factors. First, stimulation of KLH-primed CD4+ T cells with higher in vitro concentrations of KLH resulted in more IL-4 synthesis, but this was accompanied by more IFN-gamma as well. Second, primed CD4+ T cells from lymph nodes (axillary and popliteal) produced significantly more IL-4 than primed splenic T cells. Third, when primed B cells were utilized to present low concentrations of KLH to the T cells, IL-4 but not IFN-gamma was produced. In contrast, use of splenic adherent cells resulted in IFN-gamma but not IL-4 synthesis. These restricted patterns of lymphokine synthesis, however, were observed only with low concentrations of KLH. Fourth, the amount of IL-4 produced and its regulation by the presence of IFN-gamma differed among mouse strains, in that BALB/c T cells produced much more IL-4 than H-2 identical DBA/2 T cells. Our results characterizing the APC and Ag dose requirements for IL-4 synthesis in KLH-primed T cells from different strains of mice are consistent with previous observations that distinct strains of mice differ in the type of immune response generated against different pathogens, and with the concept that low Ag concentrations preferentially result in high levels of IgE synthesis, which is absolutely dependent on IL-4 production.
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PMID:IL-4 synthesis by in vivo primed keyhole limpet hemocyanin-specific CD4+ T cells. I. Influence of antigen concentration and antigen-presenting cell type. 135 71

Though the functional roles of human CD2 are well characterized, murine studies have been lacking until very recent years. Our previous work showed that a mAb against the T11(1)-like domain of CD2 clearly inhibited T cell proliferation induced by mitogenic and allo-antigenic stimuli, but the degree of inhibition was much smaller than had been demonstrated in the human system. In the present study, we observed functional aspects of murine CD2 on CD4+ T cell clones. It was shown that all T cell clones tested were CD2-positive, and that proliferation induced by APC + Ag was inhibited by anti-CD2 mAb. The maximum inhibition was also partial (40-60% inhibition) but CD2-mediated inhibition was observed even at concentrations as low as 0.2 microgram/ml. In contrast to the APC + Ag stimulation, the proliferation induced by lymphokines or immobilized anti-CD3 mAb was not inhibited at all. Taken together, these findings indicate that: (1) CD2 is also involved in the interaction between HTL and APC in murine system; but (2) perturbation of murine CD2 does not influence TCD/CD3- and lymphokine-mediated signal transduction.
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PMID:Characterization of inhibitory effects of an anti-murine CD2 monoclonal antibody on the proliferation of T cell clones. 167 15

We have concentrated here on the lymphokines which might serve to regulate the different pathways of precursor development. We suggest that, as a result of antigenic stimulation, specific precursor cells both proliferate and become committed to develop into either an effector cell, a memory cell or an anergized cell. Anergy has not been dealt with in this review, but it is likely to be one of the options available. The development of an effector population takes 4-7 d (quite analogous to the time it takes for CTLp to become CTL and for resting B to become Ab-forming cells). The effector populations are large, generally IL-2R-positive cells. These cells have upregulated many adhesion molecule systems [e.g., Pgp-1, LFA-1 and ICAM-1 (Swain unpublished)], but downregulated the Mel-14 homing receptor. Effectors are ready to respond to APC such as specific B cells with a rapid synthesis and secretion of lymphokines. The effector population is then quickly downregulated, both by the turn off of lymphokine synthesis/secretion and possibly by its own suicide. This kind of pattern makes teleological sense since the cells making such high titers of lymphokines could have many potent pleitropic effects. It also seems to be the strategy employed in the generation of other terminally differentiated effectors (such as CTL and plasma cells). The requirement for restimulation and the requirement for direct and perhaps prolonged contact between the helper effector and the APC-B cell can be expected to help ensure that these lymphokines are localized (reviewed in Swain & Dutton 1987, Swain & Croft 1990) and effectively delivered to specific responding cells. We postulate that at the same time, or perhaps subsequent to this, another set of signals drives precursors to generate prememory cells. Our studies suggest these emerging memory cells may be phenotypically unique and we postulate that they are specialized to become a "long-lived" population of memory cells that will persist indefinitely as a protective population of increased frequency for the antigen encountered and which is also able to respond more rapidly and effectively. The greater effectiveness of the memory response would thus be due to dramatically increased frequency, to characteristic and stable changes in adhesion molecule expression and to the fact that, in addition to IL-2, resting memory cells also secrete at least low titers of IL-3, IL-4, IFN-gamma and other lymphokines upon initial restimulation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Helper T-cell subsets: phenotype, function and the role of lymphokines in regulating their development. 168 76

Autocrine growth of Th type 2 cells has been reported to be mediated by the lymphokine IL-4. In this report we present evidence that in addition to IL-4 Th2 cells also produce IL-1 alpha in its active form in the absence of APC. We have found that this cytokine is an autocrine growth factor, because proliferation of Th2 cells in response to several stimuli is inhibited by anti-IL-1 alpha or anti-IL-1R mAb, or by an IL-1 alpha antisense oligodeoxynucleotide. However, Th1 cells do not produce this cytokine. We have investigated the role of endogenous IL-1 alpha on the induction of c-myc and c-myb, two protooncogenes involved in T cell activation. Here we show that endogenous IL-1 alpha is involved in the activation of both protooncogenes. Our results suggest that a possible function of IL-1 alpha, and perhaps other growth factors, might be to sustain or amplify the initial second messengers derived through the TCR. The possible implications of this finding with respect to interactions between T cell subsets and B cells or macrophages are discussed.
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PMID:Production of IL-1 alpha by activated Th type 2 cells. Its role as an autocrine growth factor. 182 18

Induction of peripheral T cell anergy associated with stimulation through the TCR complex in vivo has been described in mice using chemically modified APC, staphylococcal enterotoxin B, and intact anti-CD3 mAb. In the latter two models, T cell proliferation, IL-2R expression, and lymphokine production have been demonstrated before subsequent induction of hyporesponsiveness, whereas in the former model, these events have not been observed. To further investigate the relationship between mitogenicity and induction of peripheral hyporesponsiveness, mice were treated with either mitogenic intact anti-CD3 mAb or nonmitogenic F(ab')2 fragments of anti-CD3 mAb. T cells from F(ab')2-treated mice demonstrated a selective decrease in helper functions, with minimal effect on CTL function. Specifically, a marked reduction in ability of Th cells to secrete IL-2 when challenged in vitro with mitogen or alloantigen was observed, which persisted for at least 2 mo after mAb administration and which was independent of T cell depletion. Proliferative function was decreased in CD4+ T cells and could not be fully restored with addition of exogenous IL-2. A helper defect was also evident in vivo, in that F(ab')2-treated mice were deficient in their ability to reject MHC-disparate skin grafts, and in vivo administration of IL-2 reconstituted their ability to reject skin grafts normally. In contrast, T cells from mice treated with intact mAb demonstrated a significant decrease in both CTL and helper functions. A long term reduction in TCR expression on CD4+ cells from F(ab')2-treated mice, and on both CD4+ and CD8+ cells from intact mAb-treated mice was observed. These findings demonstrate that peripheral T cell hyporesponsiveness can be induced in vivo by binding an identical epitope on the TCR complex in the presence or absence of initial proliferation, lymphokine secretion, or IL-2R expression, and that binding to the same epitope can result in varying long term effects on T cell function.
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PMID:Differential T cell hyporesponsiveness induced by in vivo administration of intact or F(ab')2 fragments of anti-CD3 monoclonal antibody. F(ab')2 fragments induce a selective T helper dysfunction. 183 51

Several effector functions and the lymphokine secretion pattern of 30 antigen-specific CD4+ T-cell clones have been investigated. The clones were generated directly by limiting dilution cloning of nylon wool-purified T-cells obtained from KLH immunized BALB/c mice and avoiding an initial bulk culture phase. Using this approach the CD4+ T-cell clones were grouped into helper and nonhelper subsets. Among the helper subset, clones which helped B-cells for specific antibody production by either cognate or noncognate recognition were identified. Some but not all of these helper clones fitted into the Th1 and Th2 scheme, if the lymphokine secretion pattern was evaluated. Among the nonhelper subset CD4+ clones which killed activated APC in a MHC class II-restricted and antigen-specific manner were identified. In addition, one clone which suppressed B-cell antibody production mediated by helper clones was found. However, neither the suppression of antibody responses nor the inability of the nonhelper clones to help B-cells is due to the killing of B-cells. Various attempts were made to convert nonhelper into helper clones and helper into killer clones, without success. Thus, the functional properties of these clones are stable traits and not convertible by varying the experimental conditions.
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PMID:Functional heterogeneity of CD4-positive T-cell subsets: the correlation between effector functions and lymphokine secretion is limited. 190 46

Ag-specific as well as Ia-restricted killing of certain APC by CD4+ T cells was investigated. The CD4-mediated killing is not only a characteristic of in vitro long term cultured T cell lines or clones, but is also manifest after in vivo priming. Thus, CD4+ killer T cells are generated in vivo as well. CD4+ killer T cells are detected in the Th1, but not in the Th2 subset, and they do not appear to lyse Ia+ APC or bystander cells by a pathway mediated by secreted T cell factors. The latter observation is demonstrated by cold target inhibition experiments as well as by the failure of puromycin to inhibit killing, if applied in doses which completely block lymphokine secretion. Ia+ APC differ in their susceptibility to lysis. Transformed APC are usually better lysed than nontransformed APC. Unstimulated B cells are not killed, while LPS-stimulated B cell blasts are killed. The results of cold target inhibition and bystander killing experiments suggest that CD4+ killer T cells are activated by the common pathway, i.e., by Ag presented in the context of Ia, but killing requires the recognition of additional determinant(s) on APC. It is proposed that these killing-inducing determinants are continuously expressed on most transformed Ia+ cells and on nontransformed but stimulated APC.
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PMID:CD4+ T cell-mediated killing of MHC class II-positive antigen-presenting cells. I. Characterization of target cell recognition by in vivo or in vitro activated CD4+ killer T cells. 196 73

Lymphokine secretion profiles were studied of human allergen-specific CD4+ T lymphocyte clones (TLC). To this aim, panels of house dust mite Dermatophagoides pteronyssinus (Dp)-specific TLC were generated from two atopic Dp-allergic patients, suffering from severe atopic dermatitis (AD1) and allergic asthma (AD2), respectively, and from a non-atopic individual (NAD). From AD1 additional TLC were cloned specific for tetanus toxoid or Candida albicans, both Ag that were not relevant for the atopic state of this patient. Secretion of IL-2, IL-4, and IFN-gamma was determined after specific stimulation of these TLC, using autologous monocytes as APC. With respect to the production of IL-4 and IFN-gamma, clearly distinct profiles were observed. All Dp-specific TLC from both atopic donors produced IL-4 but not IFN-gamma, whereas the Dp-specific TLC from NAD, as well as the tetanus toxoid- and C. albicans-specific TLC from AD1, all produced IFN-gamma but not or small quantities of IL-4. Most TLC from all panels produced IL-2. These lymphokine profiles were consistent for at least 3 days and were neither dependent on the dose of allergen nor on the atopic or nonatopic state of the donor of APC. The functional consequence of these restricted lymphokine profiles was stressed by the observation that, whereas Dp-specific TLC from AD1 and AD2 supported in vitro IgE production, this support could be abrogated by a Dp-specific TLC from NAD. The present results suggest that CD4+ T lymphocytes that produce IL-4, but not IFN-gamma, occur in high frequencies in the allergen-specific T cell repertoires of atopic donors, which may have important implications for the pathomechanism of atopic disease.
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PMID:Evidence for compartmentalization of functional subsets of CD2+ T lymphocytes in atopic patients. 197 64

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