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)

Ag-presenting cells provide at least two distinct signals for T cell activation. T cell receptor-dependent stimulation is provided by presentation of a specific peptide Ag in association with MHC molecules. In addition, APC also supply costimulatory signals required for T cell activation that are neither Ag- nor MHC restricted. One such costimulatory signal is mediated via the interaction of B7 on APC with the CD28 receptor on T cells. Recently, CTLA-4 has been shown to be a second B7 receptor on T cells. In the present report, we have examined the expression of CD28 and CTLA-4 on a panel of resting and activated normal T cell subsets and T cell clones by RNA blot analysis in an attempt to determine whether their expression defines reciprocal or overlapping subsets. CD28 was detected in resting T cells, whereas CTLA-4 was not. After stimulation with PHA and PMA for 24 h, CTLA-4 mRNA was expressed in both the CD4+ and CD8+ subsets as well as in CD28+ T cells. We examined 37 human and six murine T cell clones that had been previously characterized for their cytokine production. After activation, CTLA-4 and CD28 mRNA were coexpressed in 36 of 37 human T cell clones and all six murine T cell clones. These included T cells of CD4+8-, CD4-8+, and CD4-8- phenotypes as well as clones with Th1 and Th2 cytokine profiles. In contrast, CD28 but not CTLA-4 mRNA was detected in leukemic T cell lines and myelomas. CTLA-4 and B7 mRNA but not CD28 mRNA was detected in two long term HTLV-I-transformed T cell lines. These data demonstrate that CD28 and CTLA-4 mRNA are coexpressed in most activated T cells and T cell clones, providing evidence that they do not define reciprocal subsets. Moreover, they are consistent with the hypothesis that B7 transmits its signal through a single receptor, CD28, on resting T cells, and multiple receptors, CD28 and CTLA-4, on activated T cells.
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PMID:CTLA-4 and CD28 mRNA are coexpressed in most T cells after activation. Expression of CTLA-4 and CD28 mRNA does not correlate with the pattern of lymphokine production. 128 Nov 86

Rested murine CD4+ Th1 clones do not produce IL-4, but have previously been shown to be capable of responding to IL-4 if they are first activated with Ag and APC. In this study, we have examined the activation requirements for induction of competence to respond to IL-4 in these clones. TCR occupancy alone (given either as chemically fixed APC and Ag, anti-CD3, Con A, or ionomycin and PMA) was inadequate, but the addition of a source of costimulation to any of these stimuli resulted in complete induction of competence to respond to IL-4. Pretreatment of the Th1 clones with TCR occupancy alone induced an anergic state from which subsequent full stimulation with Ag and APC failed to give IL-4 responsiveness. Pretreatment of the cells with IL-2 alone was an inadequate signal to induce IL-4 responsiveness and only a partial response was obtained when TCR occupancy was combined with IL-2. Addition of anti-IL-2 and anti-IL-2R antibodies during full activation with APC and Ag gave a 50% inhibition of competence induction. These results demonstrate that costimulation, in addition to its role in IL-2 production, is an important second signal for inducing T cells to become competent to respond to IL-4.
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PMID:Induction of competence to respond to IL-4 by CD4+ T helper type 1 cells requires costimulation. 135 98

Bacterial enterotoxin superantigens bind directly to HLA class II molecules (HLA-DR) expressed on both APC and activated human T cells, and simultaneously bind to certain V beta chains of the TCR. In this report, we compared early T cell signaling events in human alloantigen-stimulated T cells when activated by HLA-DR ligation through antibody cross-linking or by direct enterotoxin superantigen binding. Both types of stimuli induced tyrosine phosphorylation of phosphatidylinositol-specific phospholipase C gamma 1 (PLC gamma 1) and an increase in intracellular calcium concentration; however, superantigen-induced signaling was stronger than class II ligation alone. Antibody-mediated ligation of HLA-DR with CD3 resulted in augmented PLC gamma 1 activation and increased calcium mobilization, consistent with a mechanism of superantigen activity through a combination of class II and CD3/Ti signals. In addition, down-modulation of CD3 receptors with antibody demonstrated that superantigen-induced signaling events were CD3-dependent. Superantigen signaling was also class II-dependent, in that resting T cells were not responsive to direct enterotoxin stimulation. To address how early signal transducing activity correlated with T cell responsiveness, alloantigen-primed T cells were activated with immobilized class II-specific mAb or soluble superantigen. Both HLA-DR mAb-stimulated T cells and enterotoxin-treated T cells proliferated strongly in response to co-stimulation by a combination of CD28 receptor engagement and PMA addition. In addition, superantigen-induced growth was induced by CD28 receptor ligation with antibody or the B7 counter-receptor expressed on Chinese hamster ovary cells. Taken together, these results indicate that class II molecules expressed on activated T cells are directly coupled to the PLC gamma 1 signal transduction pathway, and that coligation of HLA-DR with CD3 augments T cell signaling comparable to that induced by enterotoxin superantigen. Thus, we suggest that superantigen-induced early signaling responses in activated T cells may be due in part to class II transmembrane signals induced when HLA-DR and V beta are ligated in cis.
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PMID:Superantigen and HLA-DR ligation induce phospholipase-C gamma 1 activation in class II+ T cells. 138 26

Recent attention has focused on the role keratinocytes (KC) may play in the induction of T cell-mediated inflammatory responses in skin, particularly because KC, when activated by immunologic stimuli, express MHC class II Ag and secrete immunomodulatory cytokines. We tested the capacity of normal human KC that were stimulated with PMA to induce PBMC proliferation. PMA-treated, but not untreated, KC induced proliferation of allogeneic as well as autologous PBMC; in addition, when purified CD4+ or CD8+ T cells were used as responders, each subset proliferated. PBMC proliferation was not due to direct action of PMA on PBMC, nor to contamination of KC cultures with Langerhans cells (LC) or dermal APC. Pretreatment with different protein kinase C inhibitors abrogated the capacity of PMA-stimulated KC to induce proliferation. Paraformaldehyde-fixed PMA-KC stimulated PBMC proliferation, whereas supernatants from PMA-treated KC failed to do so, indicating that a membrane-associated activity on PMA-KC contributes to the induction of PBMC proliferation. PMA induced intercellular adhesion molecule-1 (ICAM-1) expression on KC; furthermore, mAb against ICAM-1 or against its ligand lymphocyte function-associated Ag (LFA-1) (CD11a/CD18) significantly, but incompletely, reduced the stimulatory capacity of PMA-treated KC, indicating that ICAM-1/LFA-1 interaction contributed to PBMC proliferation. IFN-gamma or TNF-alpha also induced ICAM-1 on KC, but these KC failed to stimulate proliferation, suggesting that PMA induces additional signals from KC, which act in concert with ICAM-1 to promote proliferation. Finally, mAb against HLA-ABC or HLA-DR did not inhibit proliferation. We conclude that PMA can activate KC to stimulate T cell proliferation in a MHC-independent fashion. This activation is mediated by protein kinase C and in part by the induction of ICAM-1 expression on KC.
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PMID:Phorbol myristate acetate-activated keratinocytes stimulate proliferation of resting peripheral blood mononuclear lymphocytes via a MHC-independent, but protein kinase C- and intercellular adhesion molecule-1-dependent, mechanism. 167 Sep 43

It is well established that peripheral CD8+ and CD4+ T cells display different requirements for in vitro activation by mitogenic mAb. Most CD4+ T cells can be activated by anti-CD3 or mitogenic combinations of anti-CD2. In contrast, CD8+ T cells display minimal responses to CD3 activation, and no proliferation is observed via CD2 activation. Purified peripheral blood CD8+ T cells, stringently depleted of APC, have been studied for their capacity to respond to mAb directed against CD3, CD2 and CD28, used alone or in combination. It is demonstrated that proliferation can be induced by co-stimulation of CD2 and CD28. This does not require autologous APC. CD8+ T cells can also be activated by the combination of anti-CD3 plus anti-CD28 in the presence of APC, but only minimal cell proliferation is obtained in the absence of APC. The response via CD2 plus CD28 is IL-2-dependent, as demonstrated by the ability of mAb against the IL-2 receptor to block proliferation, and is almost completely inhibited by cyclosporine A (CsA). These results suggest that the signal generated by stimulation of CD28 in combination with CD2 differs from that seen with CD28 activation combined with either PMA or CD3. Induction of IL-2 gene activation in CD8+, CD28+ peripheral T cells may therefore require additional "second signals", which are not necessary for activation of CD4+ cells. One such signal might be the interaction between CD28 and its natural ligand.
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PMID:Activation of peripheral CD8+ T lymphocytes via CD28 plus CD2: evidence for IL-2 gene transcription mediated by CD28 activation. 167 47

In nonobese diabetic (NOD) mice, T cells play a major role in mediating autoimmunity against pancreatic islet beta-cells. We and others previously reported that age-related alterations in the thymic and peripheral T cell repertoire and function occur in prediabetic NOD mice. To study the mechanism responsible for these T cell alterations, we examined whether a defect exists in the thymus of NOD mice at the level of TCR-mediated signaling after activation by Con A and anti-CD3. We found that thymocytes from NOD mice respond weakly to Con A- and anti-CD3-induced proliferation, compared with thymocytes from control BALB/c, BALB.B, (BALB.B x BALB.K)F1, C57BL/6, and nonobese non-diabetic mice. This defect correlates with the onset of insulitis, because it can be detected at 7 to 8 weeks of age, whereas younger mice displayed a normal T cell responsiveness. Thymic T cells from (NOD x BALB/c)F1 mice, which are insulitis- and diabetes-free, exhibit an intermediate stage of unresponsiveness. This T cell defect is not due to a difference in the level of CD3 and IL-2R expression by NOD and BALB/c thymocytes, and both NOD CD4+ CD8- and CD4- CD8+ mature thymic T cells respond poorly to Con A. BALB/c but not NOD thymic T cells respond to Con A in the presence of either BALB/c or NOD thymic APC, suggesting that the thymic T cell defect in NOD mice is intrinsic to NOD thymic T cells and is not due to an inability of NOD APC to provide a costimulatory signal. The defect can be partially reversed by the addition of rIL-2 to NOD thymocytes. To determine whether a defect in signal transduction mediates this NOD thymic T cell unresponsiveness, we tested whether these cells elevate their intracellular free Ca2+ ion concentration in response to Con A. An equivalent Con A-induced increase in Ca2+ ion concentration in both NOD and BALB/c thymocytes was observed, suggesting a normal coupling between the CD3 complex and phospholipase C in NOD thymocytes. In contrast to their low proliferative response to Con A or anti-CD3, NOD thymocytes respond normally (i.e., as do BALB/c thymocytes) to the combinations of PMA plus the Ca2+ ionophore ionomycin and PMA plus Con A but weakly to Con A plus ionomycin. Our data suggest that the age-related NOD thymocyte unresponsiveness to Con A and anti-CD3 results from a defect in the signaling pathway of T cell activation that occurs upstream of protein kinase C activation.
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PMID:Defective thymic T cell activation by concanavalin A and anti-CD3 in autoimmune nonobese diabetic mice. Evidence for thymic T cell anergy that correlates with the onset of insulitis. 182 15

Interaction of the glycosyl phosphatidylinositol-linked differentiation Ag CD73 (ecto-5'-nucleotidase) with the CD73-specific mAb 1E9 generates agonistic signals that strongly synergize with T cell activation induced by CD3 and CD2 mAb. This synergy is observed only when 1E9 is immobilized on plastic and occurs in the absence of accessory cells or exogenous lymphokines. 1E9 induces a rapid (though transient) increase in [Ca2+]i in a minor proportion (20 to 30%) of unfractionated T lymphocytes (presumably CD73+ cells). However, this [Ca2+]i mobilization is not sufficient to fully activate CD73+ T cells, as shown by the requirement of additional signals such as CD3 or CD2 stimulation to initiate T cell proliferation. These signals cannot be substituted by the exogenous lymphokines, rIL-1, rIL-2, or rIL-4, or PMA (when T cells are rigorously depleted of monocytes). These data indicate that CD73 may behave as an accessory molecule regulating interactions between T cells and antigens or APC. A comparison was carried out with mAb 9.3 to the differentiation Ag CD28, another agonistic molecule with activating properties similar to CD73. Despite their lower percentage, the ability of CD73+ T cells to amplify the proliferation induced by CD3 or CD2 mAb was equivalent or even greater than that of CD28+ T cells. Once activated, CD73+ cells may recruit the remaining (CD73-) cells primed by CD3 or CD2 stimulation. Based on these data, we suggest that CD73+ T lymphocytes may be a specialized subset to amplify immune responses originated by the CD3 and CD2 activation pathways. Finally, the functional association between CD73 and integral membrane molecules like CD3 and CD2 suggests that GPI-anchored molecules may play a role in transmembrane signaling mediated by conventional second messenger systems.
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PMID:Human T cell activation. Synergy between CD73 (ecto-5'-nucleotidase) and signals delivered through CD3 and CD2 molecules. 197 59

The role of microfilaments in human T4 cell proliferation and lymphokine production triggered via various pathways of activation was examined by investigating the effects of cytochalasins on these responses. The data demonstrate that the effects of cytochalasins vary depending on the nature of the stimulus and on the concentration of the cytochalasin. Concentrations of cytochalasin that would be expected to bind both the low and high affinity binding sites (5-20 microM), that represent cytosolic and surface actin filaments, respectively inhibited T4 cell proliferation regardless of the stimulus. T4 cell proliferation stimulated by antigen-bearing APC or anti-CD3 was inhibited much more markedly than responses stimulated by ionomycin and PMA. In contrast, concentrations of cytochalasin expected to bind only high affinity binding sites (0.125-1 microM), represented by surface actin filaments, enhanced T4 cell proliferation and interleukin 2 production stimulated by mAb to CD2, CD3, or class I major histocompatibility complex (MHC) molecules, but not those induced by mAb to the T cell receptor, paraformaldehyde fixed, or viable antigen-bearing APC, allogeneic APC, or ionomycin and PMA. The enhancing effect of cytochalasins on responses stimulated by cross-linking class I MHC molecules was studied in detail. Enhancement of T4 cell proliferation induced in this manner required that cytochalasin B was present between 4 and 18 hr of culture, but not before or after. The data demonstrate that T cell microfilaments play a number of roles in determining the magnitude of T cell responses induced by engaging specific cell surface receptors and imply that different components of the microfilament system exert opposing intrinsic regulatory effects on T cell function.
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PMID:Regulatory role of microfilaments in the induction of T4 cell proliferation and interleukin 2 production. 197 24

Stimulation of T cells by superantigens has been reported to be dependent on the presence of APC where binding to class II molecules is a prerequisite to recognition by the TCR. We examined the response of human T cells and a leukemic T cell line, Jurkat to the superantigen, streptococcal M protein. We show that immobilized or cross-linked streptococcal M protein stimulates Jurkat cells (V beta 8), but not normal purified human T cells, to produce IL-2. Activation of purified T cells by this superantigen required costimulatory signals provided by PMA, IL-1, and IL-6. These cytokines and growth factors alone can induce IL-2 production by T cells; however, proliferation occurred only in the presence of superantigen, which together with PMA, IL-1, and IL-6 induced the expression of IL-2R alpha on T cells. Similar results were obtained when the response of purified T cells to another known superantigen, staphylococcal enterotoxin B were examined, indicating that this phenomenon is not unique to M protein. Superantigens interact with a large number of T cells with particular V beta, and thus provide excellent models for studies of the role of biochemical events and signal transduction in T cell activation. Understanding these events may also explain the pathogenesis of autoimmune diseases associated with certain superantigens, such as streptococcal M protein that is thought to be involved in rheumatic fever and rheumatic heart disease.
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PMID:Accessory cell-independent stimulation of human T cells by streptococcal M protein superantigen. 214 16

The induction of antigen-specific T cell activation is highly dependent on accessory cells (AC) which present processed antigenic fragments associated with MHC molecules and provide costimulatory signals for T cells. Antigen-specific T cell activation requires cross-linking of the TCR and the reception of one or more nonantigen-specific signals which eventually lead to T cell activation and proliferation. This sequence of events can be mimicked by lectins, bacterial enterotoxins, and anti-TCR antibodies in conjunction with APC or the combination of phorbol esters and Ca ionophores. Although the combination of PMA + Ca ionophore and certain types of T-T interactions result in APC independent T cell activation, it is generally assumed that physiologic T cell activation requires APC. The seemingly direct activation of T cells by other T cells is rather surprising in view of the known APC dependence of antigen, lectin and anti-TCR mediated T cell activation. It is conceivable that T cell mediated T cell activation is due to "cryptic" APC contamination because the total absence of APC is difficult to disprove. In reality, neither total depletion nor residual contamination with APC can be proven or disproven experimentally. Thus it can be legitimately argued that both APC dependent and independent T cell activation occur, albeit under different experimental conditions. For instance, it is possible that APC independent activation of T cells by lectins and anti-TCR antibodies would require high concentrations of activators to overide their dependence on APC. It is also conceivable and, in our opinion quite likely, that once activated, T cells could propagate T cell activation through T-T interactions. In this report we test two hypotheses: (1) The triggering of resting T cells leading to autocrine cell proliferation depends entirely on cross-linking TCR molecules, and (2) The presence of activated T cells facilitates TCR mediated activation of resting T cells without the participation of conventional APC. We present evidence that highly purified, small resting T cells can be reproducibly activated with high doses of ConA, plastic bound anti-CD3 mab and its F(ab')2 fragments. This APC independent response results in blastic transformation, expression of the IL2 Receptor, the secretion of IL2 and significant proliferation of both CD4+ and CD8+ murine T cells. These observations demonstrate that vigorous cross-linking of TCRs by anti-CD3 mab and, presumably ConA, is sufficient to induce T cell activation and autocrine (IL2 driven) proliferation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Direct activation of murine resting T cells by con A or anti-CD3 Ig. 253 86

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